| Faculty | Department | Course Code | Course | Level | ECTS Credits | Annotation of Course | Aim of Course | Distribution of course hours by study forms and ways |
|---|---|---|---|---|---|---|---|---|
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIM22204 | Autonomous control of Unmanned Aerial Vehicles | Master Degree Studies | 6 | During the course students get familiar with control systems and their elements of the Unmanned Aerial Vehicles, with the special emphasis on the automation and automated systems implemented on these vehicles. Since implementation of UAVs is based on maximal automation of their systems, these questions are covered in the module. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To provide knowledge on control systems of Unmanned Aerial Vehicles and especially automated control systems implemented on mentioned vehicles. To motivate students to investigate and research new technologies and systems, motivate the innovative thinking, search for new scientific knowledge. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -111 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIM19201 | Computer-Aided Engineering (CAE) | Master Degree Studies | 9 | Concept of finite element method. Definitions. Standard discrete system. Diskretization of continua. Interpolation functions. Two-dimensional elements. Three-dimensional elements. Thin walled elements. Non-linear and time dependent problems. Applications to aerospace structures. Data procession technologies. Elements types and discretization procedures. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To provide knowledge on backgrounds of Finite Elements Method, FEM based computational technology and application to engineering (incl. aerospace structures) problems. To get the ability and skills to practical application the FEM software. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -176 |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVA20902 | Computer-Aided Engineering (CAE) | Integrated Studies | 6 | Drawings based on 3D model. CAE analysis tools and methods for aircraft (CFD, FEM, etc.). CAM software for manufacturing, links to CAD packages. Creating of simple machining programs by means of CAM software. Students must attend at least 60% of the time scheduled practical lectures. | Providing the understanding of CAD / CAM / CAE (Computer Aided Design, Analysis, Manufacturing) theoretical background and integration of the computer-based tools with the specific of aviation projects. Introduction to the basic design/analysis/manufacturing methods and application of them in the standard aviation projects. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVA16111 | Master Graduation Thesis | Integrated Studies | 30 | Conducting research, completing the Master of Aeronautical Engineering thesis and preparing for the defense. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To carry out the main scientific research of the aeronautical engineering master's thesis, to prepare a report at a scientific conference, to prepare an explanatory letter and to defend the thesis. | - |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVA16803 | Course Project | Integrated Studies | 3 | The integrated course project is focused on the integration of the knowledge and skills, acquired during the studies of the following subjects: "General Knowledge about Aircraft", "General Navigation", "Principles of Flight" and "Aerodromes and Ground Lights". During the development the knowledge and skills of the parallel subjects "Meteorology" and "Aviation and Flight Safety" are deepened. During the development of the integrated course project, the knowledge and skills are applied in practice to develop an aeronautics systems, acquired skills of reasonable selection of the methods and software tools for solution of the problem and related tasks. The course project prepares for the completion of the final thesis second and third stages, defence of the thesis. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | The aim of the subject is to apply the knowledge and skills acquired in studied subjects to develop an aeronautic system accordingly to the set parameters and application destination, learn to design the structure of the system, analyse it and plan the development timing. | Full-time studies: Lectures -0 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -63 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIM17195 | Master Graduation Thesis | Master Degree Studies | 30 | Completion of the research work preparation of Master thesis report. Analysis and generalization of the results. Preparation of the material the scientific conference (or a paper for a scientific journal). Preparation and defense of the prepared Master Thesis in order to substantiate that the obtained knowledge, experience and competence corresponding to the Aeronautical Engineering Master level. The prepared conference report or paper must be presented in an appendix of the Master thesis. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | Completion of the research work. Analysis and generalization of results. Preparation and defense of the prepared Master Thesis in order to substantiate that the obtained competence corresponds to the Aeronautical Engineering Master level. | - |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIM17188 | Research Work 2 | Master Degree Studies | 3 | Analysis of theoretical methods and their application for the selected problem. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | Analysis of theoretical methods and their application for the selected problem. | - |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVB22605 | Air Traffic Organization | Integrated Studies | 6 | Air traffic organization deals with navigation and air traffic control systems for short and long ranges flights. Students must attend at least 100% of the time scheduled practical lectures. | To grow in air traffic control experience for traffic control license. | Full-time studies: Lectures -48 Practical works -36 Laboratory works - 0 Consultations -4 Individual work -72 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIA22702 | Remote Sensing and Analysis of Geospatial Data | Integrated Studies | 6 | The concept of modern aviation organization and the use of new production technologies in organizing production are analyzed. The place of production and new technologies in business. The main production technologies are analyzed. The concept of the product, its levels, service marketing is discussed. Introduces the main pricing strategies for placing products on the market. Distribution channels and their selection strategies are discussed. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To provide students with theoretical knowledge of product modeling and practical skills to make marketing decisions by forming the systematic approach required for successful product design, implementation and development, budget management and risk management. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIA22601 | Aircraft general knowledge: instruments | Integrated Studies | 3 | Navigation parameters Sensors and instruments. Measurement of air data parameters. Magnetizm - direct reading compas and flux valve. Giroskopic instruments. Aircraft computers. Students must attend at least 100% of the time scheduled practical lectures. | Provide theoretical background about aircraft navigation and engine control instruments, introduce to principles of operation of aircraft navigation and engine control instruments, provide theoretical and practical knowledges about use of navigation and engine control instruments in aircraft. | Full-time studies: Lectures -24 Practical works -24 Laboratory works - 0 Consultations -2 Individual work -30 |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVA22601 | Meteorology | Integrated Studies | 9 | Aeronautical meteorology international standards and recommended practices. Meteorological service for international air navigation. The influence of meteorological conditions on aircrafts and helicopters flights with new normative documents taken into account the principles and techniques of meteorological provision of the aviation that more effective performance characteristics make flights safe, regular and economic. Students must attend at least 100% of the time scheduled practical lectures. | To give knowledge how meteorological elements and parameters influence on aircrafts flights, international, national requirements for meteorological flight documentation, weather reports forecasts then interpret and apply information to flight situation | Full-time studies: Lectures -72 Practical works -48 Laboratory works - 0 Consultations -6 Individual work -114 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIM22100 | Spacecraft System Engineering | Master Degree Studies | 6 | During the course students get familiar with main elements of the Unmanned Aerial Vehicles and Automated Space Vehicles elements of technology like: powerplants, energy storage and supply, attitude and position determination systems and algorithms, thermal systems, radio communication systems, surveillance systems etc. Since in these days similar systems and algorithms on Unmanned Aerial Systems and Space Vehicles are used, the course includes both subjects. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To understand and learn how to practically apply systems engineering methodology in the design process of a spacecraft. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVA19603 | Aviation English 4 | Integrated Studies | 3 | Aviation English 4 increasing lexical and grammatical knowledge alongside with speaking and listening skills in the range of leaving the aerodrome traffic zone. Students must attend at least 60% of the time scheduled practical lectures. | To learn speaking Aviation English up to the II level according to ICAO requirements | Full-time studies: Lectures -0 Practical works -24 Laboratory works - 0 Consultations -2 Individual work -54 |
| Antanas Gustaitis' Aviation Institute | Department of Aviation Technologies | AISVA19801 | Aviation English 6 | Integrated Studies | 6 | Aviation English 6 examines various flight phases, emergency and non routine situations, enabling students to develop their speaking, listening and comprehension abilities with complicated English language units. Students must attend at least 60% of the time scheduled practical lectures. | The aim of the module is to train language skills - grammar, lexis and pronunciation, to use standard phraseology fluently and to apply language skills to non routine flight situations. | Full-time studies: Lectures -0 Practical works -60 Laboratory works - 0 Consultations -4 Individual work -96 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIA19801 | Unmanned Aerial Vehicles and their Systems | Integrated Studies | 3 | The course of Autonomous aircraft and systems provides knowledge of autonomous aircraft, control principles, applied technical equipment and software. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To provide knowledge about autonomous aircraft and their systems, provide skills for searching and reviewing information on autonomous aircraft, to understand impact of autonomous aircraft on human activities and natural environment. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 |
| Antanas Gustaitis' Aviation Institute | Department of Aeronautical Engineering | AIAIM22200 | Astrodynamics | Master Degree Studies | 6 | During the course students get familiar with the fundamentals of astrodynamics: body motion subject to gravitational and other (thrust and aerodynamic drag) forces, reference frames and orbital elements, two-, three-body problems are analyzed, including interplanetary trajectories and relative spacecraft motion. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | Astrodynamics is the keystone of every space mission, thus the aim of the course is to provide the fundamental knowledge regarding body motion subject to gravitational and other forces. Students will learn to describe and analyze spacecraft trajectories, focusing on the mathematics and physics behind these concepts. The acquired knowledge will be applied by simulating body motion in Matlab and Simulink. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -111 |
| Faculty of Environmental Engineering | Department of Geodesy and Cadastre | APGDM17040 | Geodetic Laser Scaning Technologies (with course project) | Master Degree Studies | 6 | Laser scanning technologies, operating principles and use in geodetic measurements are discussed. Measurements are performed, data processing with various software and results output. | Knowledge about laser scanning technologies, their constructions and abilities of use it in geodetic measurements. Ability to perform measurements, process data and compute its accuracy. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 30 Consultations -0 Individual work -115 |
| Faculty of Environmental Engineering | Department of Environment Protection and Water Engineering | APAVB19404 | Waste Management and Reuse Technologies (with course project) | Bachelor Degree Studies | 6 | It is a body of theory and practise that includes waste management, from waste prevention and generation to sustainable disposal, use, or recycling. Therefore, it is necessary to understand the principles of waste management, the legal regulation of management, the properties of waste, and to know waste collection and processing technologies. Students must participate in at least 60% of exercises during the scheduled time. | To form a general system of theoretical and practical knowledge about waste generation, waste prevention measures and waste management priorities, waste management, processing, and recycling technologies. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -8 Laboratory works - 0 Consultations -20 Individual work -122 |
| Faculty of Environmental Engineering | Department of Environment Protection and Water Engineering | APAVM17134 | Physical Pollution and Reduction Technology | Master Degree Studies | 6 | The study subject examines the sources of noise, vibration, ionising and non-ionizing electromagnetic radiation, their origin, and physical, technical and mathematical evaluation. Physical pollution reduction measures and applied technologies are introduced. The dispersion in the environment and its effects are examined. During the classes, one gets acquainted with modern methods of research and measurement and principles of dispersion modelling. | To provide knowledge about the conditions for the formation of noise, vibration, ionising and non-ionizing electromagnetic radiation. It introduces how to choose methods of physical pollution reduction and protection and acquire competences in evaluating their effectiveness and impact. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Environmental Engineering | Department of Building Energetics | APPEB16202 | Educational Practice | Bachelor Degree Studies | 3 | Induction of students with the most common and modern heat supply for buildings, indoor climate, environment and resources saving systems and technologies. For this purpose students visit boiler houses, heat and gas supply enterprises and buildings with advanced heating, ventilation and air conditioning systems as well as industries enterprises and laboratories. Students must participate in at least 60% of the practice listed in the timetable. | To introduce students with the practical examples of buildings energetic systems. | Full-time studies: Lectures -0 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -63 |
| Faculty of Environmental Engineering | Department of Environment Protection and Water Engineering | APAVB19403 | Atmosphere Protection (with course work) | Bachelor Degree Studies | 6 | It is a set of theory and practice that helps to select air treatment devices and evaluate the impact of air pollution on the environment and people. The change can be local or global, therefore, it is very important to be able to evaluate it, understand its causes and possible consequences. The subject also includes a broader understanding of air pollutants in order to identify them, quantitatively and qualitatively assess of environmental air pollution. Students must participate in at least 60% of exercises during the scheduled time and must complete all laboratory work. | To provide fundamental knowledge about the properties of air pollutants, to develop the ability to select air pollution detection methods, to understand and be able to apply knowledge and skills and them to the determination of air pollutants, to be able to design air purification technologies. Prepare specialists who, thanks to the knowledge gained in this module, will be able to analyze air pollution and to select air pollution control and air cleaning methods. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 8 Consultations -20 Individual work -116 |
| Faculty of Environmental Engineering | Department of Geodesy and Cadastre | APGDM17043 | Real Estate Cadastre | Master Degree Studies | 6 | The content of the module: Policies regulating real estate formation, cadastre and registration; real estate formation methods; measurements for real estate cadastre; data collection and analysis for real estate registration. Also, the existing international practices of real estate cadastre and registration to be analyzed. | To acquaint students with the main trends in real estate management. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Environmental Engineering | Department of Geodesy and Cadastre | APGDM17041 | Remote Sensing Methods | Master Degree Studies | 6 | Spatial data is obtained on the basis of remote sensing without physically touching the objects. Students are introduced to remote research equipment: satellite systems, sensors for various purposes, platforms that integrate sensors, data types and their processing methods. The use of data in various fields is discussed. | Teach students to analyze and process satellite images and apply remote sensing methods in various fields. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Environmental Engineering | Department of Environment Protection and Water Engineering | APAVM23203 | Advanced Environmental Management Systems (with course work) | Master Degree Studies | 9 | Advanced environmental management systems and their principles; cleaner production, environmental management and audit concepts and their implementation methodologies; application of advanced environmental management systems in companies; policies of government and financial institutions in implementing advanced environmental management systems and their future development prospects. | To provide knowledge about advanced environmental management systems, their development; to provide knowledge about the possibilities of implementing these systems, about the application of their methodologies and innovations in companies. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -195 |
| Faculty of Environmental Engineering | Department of Geodesy and Cadastre | APGDB16054 | Engineering Geodesy | Bachelor Degree Studies | 3 | In the study subject of engineering geodesy, knowledge is gained about geodesy science, geodetic measurements, topographical, control geodetic photographs, other geodetic works in the construction sector. The ability to perform the inspection of geodetic devices and measurements of individual elements in laboratory conditions is provided, as well as to solve geodetic tasks and perform other work in the field of geodesy. Students must participate in at least 60% of exercises during the scheduled time and must complete all laboratory work. | Gaining knowledge of mathematical models of the Earth, coordinates and elevation systems. Learning to read maps, topographical plans. To be able to select the appropriate measurement method and apparatus engineering geodetic surveying tasks. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 30 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -16 Practical works -20 Laboratory works - 0 Consultations -2 Individual work -42 |
| Faculty of Architecture | Department of Urban Design | ARURA17003 | Urban Structures | Integrated Studies | 15 | Students are familiarized with the process of urban development, as well as methodology and princi-ples of integrated urban development. Practical work is composed of successive tasks which develop professional skills in the fields of urban analysis, urban planning and urban design. Urban analysis of selected Lithuanian town is performed and findings are summarized. After assessment of the quality of town's urban structure, alternative urban growth models are prepared, combining of external and internal development opportunities. Selected urban model is further developed into urban concept, unfolding major proposals for modernizing of urban structure and sustaining spatial identity of the town. Later detailed urban design solutions for the site in the central part of the town are prepared. Participation in at least 60% of the scheduled exercises is mandatory | To provide students with knowledge necessary for understanding of contemporary urban development processes (trends and challenges) and solving complex urban design and planning tasks, as well as to develop professional skills in the fields of urban analysis, urban design and planning. | Full-time studies: Lectures -45 Practical works -150 Laboratory works - 0 Consultations -10 Individual work -195 |
| Faculty of Architecture | Department of Architecture | ARARA22006 | Architecture and Heritage | Integrated Studies | 15 | The combination of theoretical knowledge and practical workshops are addressed to solve the regeneration of urban structures and building renovation tasks. The abandoned or devoured blocks of the towns' central parts as well as the conversion industrial areas or the Soviet residential areas waste-lands are selected for the course project. The aim of the projects urban design part is a new urban design quality of the historic environment and harmony without violation of the existing or new spatial structure creation in wasteland. The aim of the project architectural part is a renovation project of a real building in the present situation, which is being prepared in consideration of the existing property values and new social, artistic and technical requirements arising during the renovation process. | To get acquainted with the innovation, diversity and potential of modern architecture, to draw up a specific destination pioneering, innovative architectural object design using progressive design methods and tools. | Full-time studies: Lectures -15 Practical works -75 Laboratory works - 0 Consultations -10 Individual work -300 |
| Faculty of Architecture | Department of Architecture | ARARA17005 | Architecture and technology | Integrated Studies | 15 | Course content is based on the architectural design of the building and technological solution to complex issues, the development of a multistory (residential and public) facility project in a real urban environment. The module consists of three blocks of different subjects, tutored individual university departments: - Residential building conceptual architectural and reduced technical- work project (main Department- Architectural); - Residential buildings, mechanical stability, structural systems and materials, fire safety (Faculty of Civil Engineering Department); - Building energy and HVAC systems (buildings Energy Department); Module separate subjects exercises are practical capacity-building complex in architectural designing process. | To acquire the object of architecture integrated design approach to understanding and appreciating the artistic and technological knowledge and skills to apply them to the importance of high-quality, sustainability-based architecture artistic expression. | Full-time studies: Lectures -75 Practical works -120 Laboratory works - 0 Consultations -10 Individual work -195 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA17005 | Contemporary art Project and Architecture | Integrated Studies | 3 | Visual art module provides knowledge about relevant ideas and methods of contemporary art practice and supports students in the development and realization of the art project contextually and conceptually related to architecture. The emphasis of the module is on innovative multidisciplinary art practice with aesthetic and critical capacity to rethink social space.Participation in at least 70% of the scheduled exercises is mandatory. | Comprehension of theoretical background and practice of contemporary art. The aim is to foster critical thinking and skills of innovative interdisciplinary artistic production as well as understanding of possibilities to apply it in rethinking of architecture and activation of urban public spaces. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -2 Individual work -33 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA17015 | History of Urban Form and Composition | Integrated Studies | 6 | The evolution of the permanent settlements is presented in the first part of the course (Urban history). The peculiarities of Physical and functional organization and the influencing factors (evolution of the worldview, social, economical changes, condition of nature) are analyzed. The relations between the historical knowledge and professional culture are discussed to. Taking the course of Urban Composition students are introduced to the key elements of urban structure, theories of its analysis, principles and instruments of urban space formation as an object of artistic creation, as well as their application possibilities in creative practice.Participation in at least 70% of the scheduled exercises is mandatory. | The aim of urban form history is to help the intended architects to understand the formation of surroundings and corresponding professional activity as the historical, evolutionary phenomenon. The module should give the basics of knowledge, necessary for the professional activity, directly or indirectly touching the field of cultural heritage. The Urban Composition course aims at the following: to provide students with theoretical knowledge and basic practical experience about a city as the pro | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -98 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA17024 | Protection of Immovable Cultural Heritage | Integrated Studies | 6 | Protection requirements of architectural heritage buildings, their complexes, sites, and cultural landscape, are presented, interrelation of their evaluation and treatment with problems of urban development are analyzed. The principles of safeguarding, established by international, foreign and Lithuanian cultural heritage protection documents and projects, are revealed. The targets of recording and preservation of buildings and sites under restoration or rebuilding are analyzed in situ. The development of the structural elements of the architectural styles and their architectural forms is analyzed through the resources of iconography and historiography as the fundamentals for the identification of the architectural styles. | Training of expert abilities of students in the field of contemporary problems of immovable cultural heritage protection. To provide the knowledge on the identification of the architectural styles of the objects of the architecture and the ability to apply them. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA17012 | Architectural Theory and Composition | Integrated Studies | 6 | The discipline consists of two parts: theoretical and practical. During the lectures, the essential moments of the formation of the theory of architecture are revealed, starting from Vitruvius' treatise to the present day. The paradigmatic changes in thinking about architecture in the 20th century are analyzed in detail. During the workshops and practical classes, the historical architectural object is studied according the structural analysis method, and the causality of the building composition is highlighted. The results of the study are used for the formation of the abstract artistic spatial composition.Participation in at least 70% of the scheduled exercises is mandatory. | To provide knowledge of the theory of architecture, highlighting important changes in the way of thinking about architecture since Vitruvius, and observing modern and postmodern times in detail. To master the method of structural analysis, while studying the composition of historic building and to give the ability to apply the results of analysis for creative work.Attendance of 70 percent of exercises is mandatory for students. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -98 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA17003 | Drawing 2 | Integrated Studies | 6 | Visual art module provides knowledge and skills of graphic representation of spatial forms by exercising sketch, study and interpretation types of free hand drawing. Attendance of 70 percent of exercises is mandatory for students. The ability to represent construction, proportions, character and atmosphere of spatial and volumetric forms, architectural objects and spaces are developed by drawing buildings, interior and exterior views and imaginary spaces. The problems of assignments progress from the representation of what is seen, to the conveying of personal perception of space and representation of imaginary spaces. Mastering of the use of various means of drawing - graphite, charcoal, ink.Participation in at least 70% of the scheduled exercises is mandatory. | To train perception of space and to develop free hand drawing skills as means to record and express the construction, proportions, character and atmosphere of spatial forms - buildings, interior and exterior views and imaginary spaces. | Full-time studies: Lectures -0 Practical works -60 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA22025 | Theory of City Culture and Architectural Criticism | Integrated Studies | 3 | City culture theory part contains discussion of city origins, choosing a site and the role of ritual in the process of city-making. The origins and development of ideal cities is considered as well as its relation to later tradition of utopianism in urban imagination as well as urban dystopias. The most essential concepts of a city in modern period and their relation to the processes of urban renewal are anlyzed (P. Geddes, C. Sitte, F.L.Wright, L.Mumford, C.A.Doxiadis, J. Jacobs, etc. The present concepts and models of future cities: cities of consumption, green, creative, sustainable ant other as well as their causes are considered. The architectural criticism part deals with issues: what is architectural criticism; what makes the specificity of architectural criticism; the cultural, aesthetic and social role of architectural criticism are considered. Forms, types and genres of architectural criticism are scrutinized; essential skills of analysing architecture are developed through writing an essay, principles and strategies of essay writing are discussed. | To get acquainted with the developments of most essential problems of city culture as well as historical development of city culture models and their reflection in academic literary sources as well as providing an understand in of most recent concepts related to city culture and its renewal. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 0 Consultations -0 Individual work -50 |
| Faculty of Architecture | Department of Urban Design | ARURA16006 | Architecture and Heritage | Integrated Studies | 15 | The combination of theoretical knowledge and practical workshops are addressed to solve the regen-eration of urban structures and building renovation tasks. The abandoned or devoured blocks of the towns' central parts as well as the conversion industrial areas or the Soviet residential areas waste-lands are selected for the course project. The aim of the projects urban design part is a new urban design quality of the historic environment and harmony without violation of the existing or new spa-tial structure creation in wasteland. The aim of the project architectural part is - a renovation project of a real building in the present situation, which is being prepared in consideration of the existing property values and new social, artistic and technical requirements arising during the renovation pro-cess. | Architect professional abilities to regenerate the urban fabric and renovate the existing buildings, taking in to account the evaluation of historically developed urban structure, values of architectural objects and different social need are educated. | Full-time studies: Lectures -15 Practical works -75 Laboratory works - 0 Consultations -10 Individual work -300 |
| Faculty of Architecture | Department of Architectural Fundamentals, Theory and Arts | ARPGA17010 | History of Architecture 1 | Integrated Studies | 3 | This course transverses through the development of Western architecture from its prehistoric origins to the end of the 19th century. Along the study of architectural forms, a great emphasis is given to a particular context and reasons that contributed to the development of styles. This course introduces to the fundamental writings on architecture that shaped it then and in the centuries that followed. The lectures bring the fundamental events within the history of landscape architecture. Short weekly reading and short writing are required. Exam contains written/oral and drawn tasks. | To get acquainted with architectural features and contexts from the oldest civilizations to the end of the 19th century, to provide skills to analyse their causes and interactions. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16602 | Digital Signal Processing | Bachelor Degree Studies | 6 | In this subject the fundamentals, approaches, methods and algorithms of digital signal processing are presented. The abilities to program digital signal processing (DSP) algorithms using MATLAB software and qualified application of it are acquired in this subject. Facilities to combine theoretical and practical elements of the discrete time systems are assured during the time, spend in laboratory. Lecture schedule.Individual study of the literature during the preparation to the exam and laboratory tasks acquires cognitive abilities to work individually and apply DSP theory in practical situations. Abilities to work independently and responsibly are acquired thoroughly schedule own work tasks and time. Students must complete all scheduled laboratory work. Students must complete at least 80% of the course laboratory according to the semester Lecture schedule. | The aim is to acquire knowledge on the fundamentals of DSP, to assure abilities to design and implement digital filters and analyse discrete-time signals in time and frequency domains using approaches, and algorithms of DSP by means of computer. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16661 | Automatic Control Devices and Systems | Bachelor Degree Studies | 6 | Principles of automatic control. Linear, nonlinear, pulse and adaptive automatic control systems. Theory, construction, operation and application of electronic, electromechanical, hydromechanical and pneumatic control systems. Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Gain knowledge of principles, structure, elements and applications of automatic control devices and systems, acquire skills in experimental investigation of control systems. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -16 Practical works -0 Laboratory works - 6 Consultations -4 Individual work -134 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16612 | Microcontrollers Systems | Bachelor Degree Studies | 6 | The study module of microcontroller systems provides knowledge about 8 and 32 bit microcontrollers. The architecture of microcontrollers is discussed in details: kernel, registers, memory types, general purpose and specific pins, interrupts, timers-counters, analog to digital converters. The communication interfaces are also presented in details. The programming of peripheral devices such as sensors, displays, external memories, is discussed. Students must complete all scheduled laboratory work. Students must complete at least 80% of the course laboratory according to the semester Lecture schedule. | To provide students with sufficient knowledge of microcontroller architecture and programming and to develop the ability to apply that knowledge in engineering activities. To develop the need to seek for the knowledge of programming of embedded systems. To develop the ability to maintain their professional competence by life-long learning. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16402 | Signals and Circuits 1 | Bachelor Degree Studies | 6 | Interfaces of applications of superposition priciple with frequency characteristics of circuits, frequency characteristics of bipolar and quadripolar, frequency characteristics of RR, RC and RL, circuits which are connected in cascade, features of resonant circuits, quadripolars and their empty running, short operation and general parameters, electrical filters, circuits of distributed parameters. Students must complete all scheduled laboratory work. Students must attend at least 60% of the practical exercises (practical work) according to the semester Lecture schedule. | To provide basic knowledge of linear circuits, to develop the ability to analyze, design and apply linear circuits in order to process simple forms signals and to be able to select the solutions reasonably by working independently or in a group. | Full-time studies: Lectures -45 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16603 | Digital Signal Processing | Bachelor Degree Studies | 6 | In this subject the fundamentals, approaches, methods and algorithms of digital signal processing are presented. The abilities to program digital signal processing (DSP) algorithms using MATLAB software and qualified application of it are acquired in this subject. Facilities to combine theoretical and practical elements of the discrete time systems are assured during the time, spend in laboratory. Individual study of the literature during the preparation to the exam and laboratory tasks acquires cognitive abilities to work individually and apply DSP theory in practical situations. Abilities to work independently and responsibly are acquired thoroughly schedule own work tasks and time. Students must complete all scheduled laboratory work. Students must complete at least 80% of the course laboratory according to the semester Lecture schedule. | The aim is to acquire knowledge on the fundamentals of DSP, to assure abilities to design and implement digital filters and analyse discrete-time signals in time and frequency domains using approaches, and algorithms of DSP by means of computer. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16562 | Automatic Control Systems (with course project) | Bachelor Degree Studies | 6 | Automatic control theory provides knowledge about design strategies of automatic control systems: open loop and closed loop systems, disturbance compensating systems and feedback control systems, the basis of mathematical models of systems: differential equations of linear systems, analysis in time domain, Laplace transform, transfer functions and stability analysis in frequency domain (Mikhailov, Nyquist methods) and Bode diagrams; and knowledge, required for system synthesis: principles of design proportional, integral, integral proportional and proportional integral derivative controllers and compensating elements; knowledge about modeling of transient processes using MATLAB software. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Provide knowledge about design and analysis strategies of automatic control systems, design controllers matching specifications of closed loop control system, acquire ability to apply those for control of various dynamic systems and be able to use advanced informational technologies for assessment results of automatic control systems synthesis and analysis. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16823 | Microtechnologies | Bachelor Degree Studies | 3 | Acquiring knowledge of the key technological processes for embedded computers(EC) and systems manufacturing technologies: methods of formation geometry components by lithografies and wet and dry removal processes, doping an deposition, interconnection and packing technologies, challenges of microtechnologies and future features and developed abilities to analyze and simulate microtechnology processes and EC elements. Students are required to complete all specified laboratory works. | Teach to understand, analyze and simulate processes of microtechnologies and develop skills to choose a reasoned decision, an independent or in group | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 12 Consultations -2 Individual work -42 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIM17204 | Electronic Converters (with Course Project) | Master Degree Studies | 9 | Principle of operation of electronic converters, analysis and design energy systems are described. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; | To acquire the knowledge and competence in electronic converters, planning, design and operation. | Full-time studies: Lectures -42 Practical works -15 Laboratory works - 0 Consultations -3 Individual work -180 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRM17208 | Systems Design Using VHDL Language | Master Degree Studies | 6 | Digital system description languages VHDL, Verilog and SystemC. System design and modeling at structural, register transfer and functional levels. Designed systems analysis and synthesis using ASIC or programmable logic technological libraries. System testbench implementation using VHDL, Verilog and SystemC language features. Top-down design strategy. Bottom-up design strategy. Mixed design strategies. Complex system design and implementation using different design strategies. Practical digital system architectures, components, internal communication, design tools, implementation problems and testing. Digital system analysis and defect detection. Students must complete no less than 80% of the scheduled laboratory works | Learn digital system design languages VHDL, Verilog, SystemC and use them to design and implement complex digital devices. | Full-time studies: Lectures -28 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -115 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16201 | Electronics and Electrical Engineering | Bachelor Degree Studies | 3 | In the module, you will become acquainted with the basic principles of electrical engineering, learn methods of circuit connection. You will be able to distinguish between direct current and alternating current. You will familiarize yourself with digital electronic devices and their operating principles. You will learn to be friends with electricity. Students must complete at least 80% of the laboratory work during the scheduled time. Students must complete all scheduled laboratory work. | To master basic laws of electronics and electrical engineering, principles of working of electrical and electronics devices and equipment's, to develop abilities for the independent decision of electrical engineering questions, to understand principles of work digital electronics devices and areas of their application. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -8 Practical works -0 Laboratory works - 6 Consultations -14 Individual work -52 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16613 | Microwave Technology | Bachelor Degree Studies | 3 | Microwave technologies subject gives knowledge about propagation of radio waves around Earth surface, elementary and real antennas, microwave transmission lines. Students are required to complete all specified laboratory works. | To soak up peculiarities of microwave band, pick up to design antennas, microwave transmission lines with due properties, make reasoned solutions on one's own and with group. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16403 | Electrical Engineering | Bachelor Degree Studies | 3 | Basic circuit concepts. DC circuit laws, algebraic circuit analysis. Sinusoidal electrical quantities. Idealized circuit elements. Sequential and parallel circuit elements. Resonance phenomena. Sinusoidal AC circuit analysis. Sinusoidal AC power circuits.Transition Processes, magnetic circuits. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Provide knowledge about linear DC, AC single-phase and three-phase circuits, transients in linear DC and AC circuits, magnetic circuits. Develop the ability to experimentally investigate and develop these circuit using various methods. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -10 Practical works -0 Laboratory works - 8 Consultations -2 Individual work -60 Part-time, distance learning studies: Lectures -16 Practical works -0 Laboratory works - 8 Consultations -0 Individual work -56 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16201 | Computer Logic | Bachelor Degree Studies | 3 | Propositional Calculus, Truth Table, Logical Circuits, Predicate Calculus, Predicate and Quantifiers, De Morgan laws, Statements with Quantifiers, Elementary Number Theory, Proof Theory, Methods of Proof, Contradiction and Contraposition, Algorithms, Sequences, Mathematical Induction, and Recursion, Correctness of Algorithms, Recursion of Sequences, Set Theory, Operations on Sets, Boolean Algebras, Russell's Paradox, Efficiency of Algorithms, Analysis of Algorithms' Complexity. Students must attend at least 80 per cent of the practical exercises (practical work) during the scheduled time | To acquaint students' with basic concepts of computer logic and develop ability to solve typical problems of discrete mathematics. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -8 Individual work -56 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16404 | Computer Engineering Practicum | Bachelor Degree Studies | 3 | Computer engineering practicum delivers knowledge and practical skills about circuit schematic component and footprint library creation, circuit schematic design, printed circuit board design, soldering and assembling, and about advanced printed circuit board design. Students are required to complete all specified laboratory works | The aim of this course is to understand the operation of semiconductor devices, to design electronics circuits and printed circuit boards, to perform assembly, testing and research of these printed circuits boards. | Full-time studies: Lectures -0 Practical works -0 Laboratory works - 30 Consultations -2 Individual work -48 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIM17202 | Master's Research Work 2 | Master Degree Studies | 3 | Analytical review of literature. Theoretical investigations in the trend of Thesis Partial or full realization of theoretical part of Thesis. Formuliation of tasks of the Master Thesis. Preparing of primary version of the text of analytical review and theoretical part. correction of task of Master Thesis. | To analyze scientific materials on a subject of job and to prepare conclusions | - |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16651 | Human Safety | Bachelor Degree Studies | 3 | Introduction to the subject matter of the issues. The legal protection of people - a legislative regulation. Safety of human activities. Risks and their classification. General work safety. Occupation safety. Electrical protection. Accident investigation Features. Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | To provide knowledge about legal - normative work safety organization principles, electric current hazard criterias and safety measures, work environment design key indicators, occupational risk assessment aspects, accident investigation and accounting, fire safety organization principles, to apply the acquired knowledge in solving engineering management issues, to develop broad expertise, to have an ability to critically analyze and develop creative solutions for professional challenges. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -18 Practical works -0 Laboratory works - 8 Consultations -8 Individual work -46 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16861 | Industrial Logical Controllers | Bachelor Degree Studies | 3 | PLC definition, design, structure, operation, software tools and the structure of the programming components, the IEC 61131 standard programming language. | Gaining theoretical and practical knowledge about modern programmable logic controller types, structure, programming and application of automated systems and mechatronic systems. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 12 Consultations -2 Individual work -42 Part-time studies: Lectures -10 Practical works -0 Laboratory works - 8 Consultations -8 Individual work -54 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16251 | Electrical Engineering | Bachelor Degree Studies | 6 | Basic concepts of electrical circuits. Direct current circuits laws, algebraic methods for circuit analysis. Circuit's properties, characteristics, replacing. Two-ports. Sinusoidal electric values, main characteristics, phasors diagrams. Idealized circuit elements. Series and parallel connection of elements. Voltage and current resonances. Analysis of sinusoidal electric circuits. Alternating circuit power. Energy Supply. Mutual inductance circuits. Three-phase circuits: connection modes, analysis. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Provide knowledge about linear direct current circuits, single-phase alternating current circuits and three-phase circuits; develop the ability to apply the acquired knowledge in engineering activities; acquire the experience of practi-cal investigation, develop the abilities to analyze electric circuits; develop the abilities to analyze electric circuits using computer; acquire the ability to work individually and in group. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -18 Practical works -8 Laboratory works - 8 Consultations -16 Individual work -110 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIM17201 | Control of Electrical Energy Systems | Master Degree Studies | 6 | Module covers the theory of the control of the electrical systems, system operation mode planning, respective reglaments and standards, the power flow distribution tasks are overviewed and the skills to practically determine and select the electrical system components, based on the analytical and mathematical modelling are developed. | Provide knowledge about control of electrical systems, elevate the practical skills to select and calculate the components of the electrical systems, optimize the power flow in electrical energetics systems. | Full-time studies: Lectures -42 Practical works -0 Laboratory works - 0 Consultations -3 Individual work -115 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16612 | Microprocessors | Bachelor Degree Studies | 6 | In the microprocessors course knowledge about microprocessor systems, their creation principles and architectures, concepts of microprocessors, general and special purpose microprocessors structures, their operation principle, data and instruction formats, operand addressing modes, memory organization, instruction set, and modern microprocessors technologies are provided. Students are required to complete all specified laboratory works. | To provide students with sufficient knowledge about general and special purpose microprocessors, to develop the need to be interested in microprocessor systems programming, to develop the ability to apply the acquired knowledge in engineering practice and to develop the ability to maintain their professional competence through lifelong learning. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -0 Laboratory works - 8 Consultations -14 Individual work -130 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16618 | Development of Embedded Computers | Bachelor Degree Studies | 6 | The knowledge about the planning of projects, design of analogue and digital circuits of the embedded computers are delivered. The knowledge about sensors, electromagnetic disturbance compatibility, PCB design and virtual design systems dedicated to embedded computers are provided. The skills how to choose the kernel and components for embedded computer and projects documentation creation knowledge are given as well. Students are required to complete all specified laboratory works. | To learn to develop and upgrade the embedded computers, create development project documentation, be able to substantiate solutions working individually or in the team. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIM17200 | Systemotechnique and Sensors | Master Degree Studies | 6 | Resistive, inductive, capacitor, photoelectric gauges used in power electronics. DAC and ADC. Microprocessors and use of him for processing the information and control. | To analyze principles of work of gauges and converters, to be able to project circuits of the automated measurement and control. | Full-time studies: Lectures -28 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -115 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB20801 | Development of Embedded Systems | Bachelor Degree Studies | 6 | The integrated project "Embedded systems design" is focused on the integration of the knowledge and skills acquired during the studies of the following subjects: Electronic Devices, Signals and Circuits, Digital Devices, Microprocessors, Microcontrollers, Programable Microsystems, to develop an embedded system. During the project, the knowledge and skills are applied in practice to develop an embedded system, to chose the methods, software and hardware tools for solution of the problem. The project prepares for the completion of the 2nd and 3rd stages of the graduation thesis and for the defence of the thesis. Students must attend at least 80 per cent of the practical exercises (practical work) during the scheduled time | The aim of the subject is to apply the knowledge and skills acquired during the studied subjects for the development an embedded systems, which would meet the requirements, working individually or in the team. | Full-time studies: Lectures -0 Practical works -36 Laboratory works - 0 Consultations -0 Individual work -124 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB16252 | Electrical Engineering | Bachelor Degree Studies | 6 | Basic concepts of electrical circuits. Direct current circuits laws, algebraic methods for circuit analysis. Circuit's properties, characteristics, change. One-ports. Sinusoidal electric values, main characteristics, phasors diagrams. Idealized circuit elements. Series and parallel connection of elements. Voltage and current resonances. Analysis of sinusoidal electric circuits. Alternating circuit power. Energy Supply. Mutual inductance circuits. Three-phase circuits: connection modes, analysis. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Provide knowledge about linear direct current circuits, single-phase alternating current circuits and three-phase cir-cuits; develop the ability to apply the acquired knowledge in engineering activities; acquire the experience of practi-cal investigation, develop the abilities to analyze electric circuits; develop the abilities to analyze electric circuits using computer; acquire the ability to work individually and in group. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16822 | Internet Technologies | Bachelor Degree Studies | 3 | At studying a Internet technologies subject are acquired knowledge of the basic protocols of TCP/IP stack, of WEB-technologies (static, dynamic, and active WEB-documents), technologies of transfer of files, e-mail, p2p-networks, security of networks, access to a Internet network, commercial use Internet Students are required to complete all specified laboratory works. | To learn to develop, improve and apply the decisions based on Internet technologies as in information systems of a general purpose, and specialized systems with the WEB-interface, about also to be able is given reason to prove decisions, working independently and in group | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 12 Consultations -2 Individual work -42 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16202 | Databases | Bachelor Degree Studies | 3 | In Databases course the main database (DB) design phases, the canonical schemes and principles of their creation and use are presented. The focus is on the management of relational databases. Briefly discussed the models of DB logical structure, operations of relational algebra and the SQL language, used for their description. The design of relational databases is trained. Self-sufficiency and responsibility during studying, the thoroughness of work and time planning is trained. Students are required to complete all specified laboratory works | To understand the physical, conceptual and logical database (DB) organization. Learn to design relational DB and their support, learn relational algebra and relational computing language SQL. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -10 Practical works -0 Laboratory works - 10 Consultations -2 Individual work -58 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRM17210 | Microcontrollers and Their Programming (with Course Project) | Master Degree Studies | 9 | The knowledge about the main microcontroller families and their characteristics are obtained in the course of Microcontrollers and their Programming. The PIC18 microcontroller family has been studied. The representative of this family microcontroller PIC18F47K42 is studied in details. The development board dedicated to the design of electronic equipments based on the PIC18 family microcontrollers and C compiller MicroC PRO for PIC used for the creating of PIC microcontroller programs using C programming language have been studied as well. The development of concrete microcontroller programs dedicated to the processing of the analogue signals transmitted by the sensors and programs that are used for the time measurement, which can be employed during the research work, is studied. Students must complete no less than 80% of the scheduled laboratory works | To learn the principles of development of microcontroller-based devices dedicated to the scientific investigations. To choose the microcontroller and other elements for the microcontroller-based devices and to create the microcontroller programs using C programming language. To be able to substantiate solutions working individually or in the team | Full-time studies: Lectures -28 Practical works -0 Laboratory works - 30 Consultations -2 Individual work -180 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIB18401 | Electrical Engineering | Bachelor Degree Studies | 3 | The module provides basic knowledge of electrical engineering, general knowledge of electrical circuits. Students must complete at least 80% of the laboratory work during the scheduled time; Students must complete all scheduled laboratory work. | Provide knowledge about linear DC, AC single-phase and three-phase circuits, transients in linear DC and AC circuits, magnetic circuits. Develop the ability to experimentally investigate and develop these circuit using various methods. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -10 Practical works -0 Laboratory works - 8 Consultations -2 Individual work -60 Part-time, distance learning studies: Lectures -16 Practical works -0 Laboratory works - 8 Consultations -0 Individual work -56 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16604 | Computer Networks | Bachelor Degree Studies | 6 | Subject focuses on common OSI model, principles of data exchange (communication medium, data coding, data transmission interface, control of the data transmission channel, data compression). The protocols of the computer network are reviewed (the protocols of interaction between computer networks, transport protocols). The term LAN is introduced, the LAN technology, LAN systems are analyzed in this subject. The term WAN is introduced, the channel switching, packet switching technologies, ATM and Frame Relay protocols are analyzed. The subject also focuses on the security of the computer network, distributed computer network systems, tools for computer network administration. Students must complete all scheduled laboratory work. Students must complete at least 80% of the course laboratory according to the semester Lecture schedule. | The aim of the subject is to acquire knowledge on the computer network fundamentals, acquire the abilities to describe structure, architecture and operation of computer networks, to investigate topology and function of a network, to plan and develop a computer network, carry out the tasks of network administration. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16805 | Network Programming | Bachelor Degree Studies | 3 | The subject includes the fundamentals of the client server model, OSI model and other important technologies used during the network programming and design. The socket API, IPv4 and IPv6 addresses, network masks and Port numbers are reviewed. The analysis of the TCP and UDP protocols, socket IP, Client and Server programming is performed using C and JAVA languages in Linux and Windows operating systems. The knowledge of the advanced sockets: iterative, concurrent, non-blocking, multiprotocol, multiservice servers, unicast, multicast, broadcast is acquired. Students must complete all scheduled laboratory work. Students must complete at least 80% of the course laboratory according to the semester Lecture schedule. | The aim of the subject is to acquire knowledge of the concepts of client server model, to analyse sockets and acquire skills of its implementation in various systems. | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 12 Consultations -2 Individual work -42 |
| Faculty of Electronics | Department of Electronic Systems | ELESB16801 | Multimedia Systems | Bachelor Degree Studies | 3 | In this subject the innovative multimedia systems are presented. The subject begins with discussion on the multimedia systems evolution, short review of the innovative multimedia devices and new standards. The human hearing systems is reviewed, its relations with innovative audio processing, storage, transmission and restoration. Innovative digital audio and video technologies are presented and new tendencies of the audio technology are discussed. Students must complete all scheduled laboratory work. Students must complete at least 80% of the course laboratory according to the semester Lecture schedule. | The aim of this subject is to acquire knowledge about the fundamentals of the multimedia systems, its design, analysis and applications. Educate the cognitions to combine theory and practice to develop and analyse innovative multimedia systems. | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 12 Consultations -2 Individual work -42 |
| Faculty of Electronics | Department of Computer Science and Communications Technologies | ELKRB16617 | Computer Peripherals | Bachelor Degree Studies | 3 | In the Computer Peripherals subject knowledge about data communication principles, data communication systems and their characteristics, protocols and protocols architecture, interfaces for PC and peripheral devices, data encoding and modulation techniques, serial data interfaces, microcontroller interfacing techniques, IrDA and Bluetooth technology, modems and power supply units is provided. Students are required to complete all specified laboratory works. | Learn to develop, improve and apply the modern tools of communication and interaction between computers and various hardware components, so that they can exchange data, communicate with each other and send messages and commands, develop the ability to apply the acquired knowledge in engineering practice. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIM17203 | Modern Electrical Engineering | Master Degree Studies | 6 | In Modern electrical engineering discipline students gain knowledge in principles of operation of modern electrical engineering equipment and smart electric grids, analysis and design. Students must attend at least 80 per cent of the practical exercises (practical work)during the scheduled time; | To acquire the knowledge and competence in modern electrical engineering, analisys, design and operation of modern electric systems. | Full-time studies: Lectures -42 Practical works -0 Laboratory works - 0 Consultations -3 Individual work -115 |
| Faculty of Electronics | Department of Electrical Engineering | ELEIM17400 | Master Graduation Thesis | Master Degree Studies | 30 | Completion of theoretical and experimental parts of Master Thesis. Generalization of the rezults received. Analysis and generalization of the results. Preparation of the material of a report for a scientific conference (or a paper for a scientific journal). Preparation and defence of the prepared Master Thesis in order to substantiate that the obtained knowledge, experience and competence correspond to the Electrical Engineering Master level. (The prepared conference report or paper must be presented in an appendix to the Master thesis). | To finish and present final work with the research elements, proving, that during study and scientific research the competence and abilities meet the requirements of a qualifying degree of the master. | - |
| Faculty of Electronics | Department of Electronic Systems | ELESB16401 | Electronic Devices | Bachelor Degree Studies | 3 | Introduction. Semiconductor diodes. Bipolar transistors. Field effect transistors. Thyristor devices. Semiconductor integrated circuits technology. Bulk and surface acoustic wave devices. Optoelectronic devices. Display devices. Summary. | Providing knowledge of matematics and physics and ability to apply knowledge in design and optimization of electronic devices. Providing knowledge of modern electronic devices and their applications in various fields of science and technology. Preparation for further studies of electronic circuits and other subjects. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -20 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -58 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB16610 | Image Analysis Fundamentals (with course project) | Bachelor Degree Studies | 6 | Digital image fundamentals. Human visual perception. Image enhancement in the spatial domain. Image enhancement in the frequency domain. Image noise in image processing. Color image processing. Image restoration. Image segmentation. Morphological image processing. Binary image feature extraction and analysis. Students must attend at least 70% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To introduce the main methods of digital image processing, with main algorithms and their practical realization. To gain skills to work with the commercial image processing program and to learn its advanced possibilities. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -4 Laboratory works - 4 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16207 | Discrete Mathematics | Bachelor Degree Studies | 3 | Combinations of elements in finite sets. Combinatorial numbers. Generating functions. Recursive equations. Relations theory. Ordered sets. Relations between rates of increase and decrease of number sequences elements. Graphs theory. Oriented graphs and relations. Loops in graphs. Algorithms of graphs analysis. Complicated tasks. Elemets of the information theory. Students must attend at least 60% of the time scheduled practical lectures. | Acquaint with the main concepts, problems and sollution methods of discrete mathematics. Students should know how to solve classical discrete mathematics problem after this course. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -12 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -62 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB16227 | Mathematics 2 | Bachelor Degree Studies | 6 | The module covers the basic methods of vector algebra and analytic geometry. It also covers basic linear algebra methods concerning linear equations system solvability, solution by Gauss method, matrix eigenvalue problem, linear programming and their applications. Several variables calculus including partial derivative, total differential, the gradient of the function, its double and iterated integrals with possible applications are considered. Students must attend at least 80 % of the time scheduled practical lectures. | Provide the students with mathematics knowledge and enable them to understand the possible applications. | Full-time studies: Lectures -45 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -81 Part-time studies: Lectures -12 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -136 |
| Faculty of Fundamental Sciences | Department of Physics | FMFIB16216 | Applied Physics | Bachelor Degree Studies | 3 | This module gives knowledge on electrostatic field effects, explains appearance and dynamics of electric conductivity, voltage, potential and electromotive force. Explained how electric current generates a magnetic field. It explains physical properties of electromagnetic waves, main laws of optics and it applications, the structure of atoms, crystalline structure of solids. It discusses a nature of atom's nucleus and gives most modern ideas regarding composition of nucleons and describes a state of electrons in a crystal by means of theory of energy bands and principles of semiconductor devices operation. Students must attend at least 60% of the time scheduled practical lectures. | To give knowledge on subject of the behavior of charge in electric and magnetic fields, electromagnetic waves, their energy spectrum and application. To explain the quantum nature of electromagnetic waves, to describe the academic achievements of emerging technologies in the content, to develop scientific thinking skills, To give knowledge on subject of the behavior of materials in electric and magnetic fields, electromagnetic waves, their energy spectrum and application. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -62 |
| Faculty of Fundamental Sciences | Department of Physics | FMFIB16220 | Applied Physics | Bachelor Degree Studies | 3 | Materials in electric and magnetic fields. Electromagnetic oscillations and waves, their characteristics and laws. Photometry. Waves and quantum phenomena determined by electromagnetic radiation. Electrographic and neutronographic methods of the researches of materials and their application. Nuclear energy. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To give knowledge about materials in electrical and magnetic fields, electromagnetic waves, the spectrum of their appliance and the use in technique and technologies. To explain the nature of electromagnetic wave, to give modern view about the atom and nuclear physics, to characterize the content of created technologies achieved by physics science, to teach to estimate theoretical and experimental got data and their reliability, to prepare for the bioengineering studies. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 |
| Faculty of Fundamental Sciences | Department of Engineering Graphics | FMIGB16204 | General Engineering Graphics | Bachelor Degree Studies | 3 | Drawing devices, tools and accessories. Formation of drawings: standards, scales, lines, fonts. Projection methods, projections of points, lines and planes. Projection of parts into three projection planes; viewing of international holes, cavity; views and their displacement in drawings. Surface modeling. Surfaces intersection and their developments. Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time dooring the semester. | To present graphical problem-solving algorithms, to develop abilities to read and make engineering drawings, adapting theoretical knowledge and taking into account the requirements of drawing standards; and also to manage computer- aided design tools, to develop spatial imagination. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16201 | Integral Calculus | Bachelor Degree Studies | 6 | Integral calculus of functions of one variable: anti-derivatives, indefinite and definite integrals, the basic definitions, methods of integration, the properties of indefinite and definite integrals, Newton-Leibnitz formula, applications of definite integrals, multivariable functions, double and line integrals, ordinary differential equations and their solutions. Students must attend at least 60% of the time scheduled practical lectures. | The aim of this course is to provide the knowledge from integral calculus, to achieve the ability to analyze situation, to choose the appropriate problem solving method, to present and clarify the obtained results, to develop the ability use the knowledge and practical abilities in the study process. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -26 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -110 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16209 | Probability Theory and Mathematical Statistics | Bachelor Degree Studies | 6 | The basic probability theory concepts and theorems. The distribution functions of random variables and numerical characteristics. The problems of mathematical statistics. Empirical characteristics. The point and interval estimates of unknown parameters. Statistical hypothesis testing, elements of correlation theory, regression. Students must attend at least 60% of the time scheduled practical lectures. | To introduce basics of probability theory and mathematical statistics, to train a student to use obtained knowledge for solving of real world problems. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHM17212 | Nanomedicine | Master Degree Studies | 6 | Nanomedicine, the application of nanotechnology in health care, offers numerous very promising possibilities to significantly improve medical diagnosis and therapy. It exploits the improved and often novel physical, chemical and biological properties of materials at the nanometric scale. Nanomedicine has the potential to enable early detection and prevention, and to essentially improve diagnosis, treatment and follow - up diseases. The three areas are addressed in the present course: Nano-diagnostics, Nano-pharmaceutics and Regenerative Medicine. | Providing the interdisciplinary knowledge on the newest scientific achievements and developing methods in the field of nanotechnology, its applications in the studies on biological objects and for the needs of health care. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHM17214 | Immunotechnology | Master Degree Studies | 6 | The application of the immune system elements in the development of new immune technolgies and bioengineering. Manipulation with immune system cells and generation of advanced therapy medicinal products. Immunotechnology and modern methods of immunotherapy. Practical aspects of antibody engineering and manufacturing. Use of immunobiotechnology in diagnostics, medicine and industry. | To provide with knowledge, necessary for undestarding of immunotechnological processes and their control. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -0 Individual work -100 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHM17213 | Research and Innovations | Master Degree Studies | 6 | Science and its classification. Fundamental and applied research. Organization and planning of research process. Collection of experimental data and their confidence. Dissemination of research results. Electronic resources of scientific publications. Bioethics issues in biotechnology. Patents and their registration. Patent resources. Patents in biotechnology. Innovations, the importance and types. Innovations in biotechnology. | To acquaint with the organization and planning of research process ant with the dissemination of research results. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHM17211 | Stem Cell Biology and Technology (with course work) | Master Degree Studies | 6 | The biology and technology course of stem cell has to deal with ethical questions which are related to stem cell research and use in development of technologies. It examines the types of stem cell, their characteristics and their secretion sources. The course is provided the mechanism of stem cell cell-renewal ability and a stem cell cycle regulation during the development. The course brings a fundamental knowledge of stem cell differentiation. During the course you can get an interpretation about the multipotence basis of the stem cell in adult organisms and to find their recesses in the human body. In practice classes students will be able to observe and to document the changes in the morphology of individual cells during differentiation. Students are introduced to nanotechnologies in stem cell biology and technology. The course gives a comprehensive explanation about the cell transplantation technologies in case of different diseases and about the developed cell-based Nano biotechno | To familiarize students with the types and characteristics of stem cells, which make them different from other cells. To present them new research-based materials on the development of stem cells biology and how it could be used in tissue engineering and by creating new medical technologies. To familiarize students with nanotechnology in stem cell biology and technology. To introduce students to the fundamental features of cell technology including disease treatment and legal aspects. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB19402 | Chemistry of Natural Compounds | Bachelor Degree Studies | 9 | Chemistry and bioorganic chemistry of amino acids, peptides and proteins. Carbohydrates, monosaccharides, polysaccharides, glycosides. Components of nucleic acids, DNA and RNA. Lipids, steroids, terpenes. Naturally occurring biologically active compounds. Structure determination methods of bioorganic molecules. Students must attend at least 70 % of the scheduled practical sessions. Students are required to complete all scheduled laboratory work. | Aware of the biologically important organic substances (proteins, carbohydrates, lipids, DNA and RNA, bioreguliators). | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 30 Consultations -6 Individual work -144 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB19605 | Fundamentals of Bioinformatics (with course work) | Bachelor Degree Studies | 6 | Bioinformatics is becoming essential to the work of every biologist. The course introduces the aims and objectives of bioinformatics, familiarises students with structures and functions of DNA and proteins, and demonstrates different ways of finding, comparing, and predicting different biological sequences and structures. Students are required to complete all the laboratory activities scheduled. | To enable students to practice in silico bioanalysis using open biological databases, and familiarize students with fundamental bioinformatics algorithms and their application. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -111 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB19401 | Chemical Kinetics | Bachelor Degree Studies | 6 | Main concepts of chemical kinetics. Formal kinetics: rate equations of elementary and complex chemical reactions. Rate dependence of temperature, energy of activation. Dynamics of chemical reactions: effective collisions and transition state theories. Marcus electron transfer theory. Electrode processes. Bioelectrocatalytic systems. Kinentics of DNA/RNA and protein synthesis. Students must attend at least 80% of the time scheduled practical lectures. Students must attend 100% of the time scheduled laboratory work. | Introduction to chemical kinetics and its applications. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 30 Consultations -4 Individual work -81 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB19602 | Fundamentals of Gene Engineering | Bachelor Degree Studies | 6 | The fundamentals of gene engineering investigate structure of prokaryotic and eukaryotic genes, regulation of gene expression; characteristics and structure of vectors; enzymes involved in gene engineering process; construction of recombinant DNA and introduction into tested organism as well as methods of gene detection; theoretical and practical basis of isolation, purification, qualitative and quantitative analysis of recDNA. Students must attend at least 70 % of the scheduled practical sessions. Students are required to complete all scheduled laboratory work. | The main purpose of the course is to assimilate the concept of gene engineering and understand the practical possibilities of implementation of gene engineering. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 30 Consultations -4 Individual work -81 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB19601 | Biochemical Methods | Bachelor Degree Studies | 6 | The course mainly focuses on biochemical recognition process and its implementation in different analytical methods. Spectral and electrochemical methods and their application in analysis of biomolecules, as well as enzymatic analysis methods, methods of biomolecules immobilization and methods of immunoanalysis are analyzed in detail. A lot of attention is paid for application of statistical methods in laboratory. Students must attend at least 70 % of the scheduled practical sessions. Students are required to complete all scheduled laboratory work. | Introduction to the biochemical analysis methods in biochemistry, medicine, food quality control and environmental protection. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 30 Consultations -4 Individual work -81 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB19603 | Fundamentals of Chromatography (with course work) | Bachelor Degree Studies | 6 | Classification and basic principles of chromatography. Fundamentals of modern column liquid chromatography. Principles of column liquid chromatography modes according to the mechanism of separation. Students must attend at least 80% of the time scheduled practical lectures. Students must attend 100% of the time scheduled laboratory work. | To introduce students with the basic terms of chromatography, the methods of liquid chromatography and principles of their application. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 30 Consultations -4 Individual work -81 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB20437 | Database Management | Bachelor Degree Studies | 6 | This course introduces the basic concepts and terminology of relational databases, as well as to the concepts of data modelling and the creation of entity relationship diagrams (ERD) and the corresponding representation of the ERD, the features of DB design. Provides information about possible actions with database data using SQL commands and operators. The course also introduces the design features of relational databases. During the course, students will create projects designed to demonstrate a database solution for a business or organization. Students must attend at least 80% of the time scheduled laboratory work. | To provide information about the stages of database development with the help of entity relationship diagrams, to learn how to design a database, use SQL language and create data entry forms for database end users. | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 24 Consultations -4 Individual work -108 Part-time, distance learning studies: Lectures -14 Practical works -0 Laboratory works - 8 Consultations -2 Individual work -136 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAM18258 | Programming for FinTech (with course project) | Master Degree Studies | 9 | The module examines the main elements of FinTech programming. Introduces with Python programming language syntax, the main Python modules for FinTech. | To introduce the main peculiarities of programming Python and the possibilities of using this programming language for FinTech. | Full-time studies: Lectures -20 Practical works -0 Laboratory works - 20 Consultations -15 Individual work -185 Part-time, distance learning studies: Lectures -6 Practical works -0 Laboratory works - 4 Consultations -8 Individual work -222 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB17802 | Financial Information Systems and their Integration | Bachelor Degree Studies | 6 | Students get knowledge on different types and purpose of financial information technologies. The importance of financial information technologies as well as data exchange is analyzed. Currently existing different type financial information technologies and other systems, services, components, which can be used for extension of existing systems are analyzed and adapted. Big attention is dedicated to banking systems, its integration to existing systems. Students understand different solutions (REST, SOAP, API, shared database etc.), deditated to integrate different systems and is able to evaluate its suitability and limitations. Students must attend at least 60 % of the time scheduled practical lectures and at least 80 % laboratory works. | The subject is dedicated to provide students a knowledge on the purpose of financial information technologies and provide competences to select needed solutions for financial information technologies , apply it and integrate with other systems. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 24 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -12 Practical works -0 Laboratory works - 10 Consultations -2 Individual work -136 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB18211 | Mathematics 2 | Bachelor Degree Studies | 6 | Antiderivative. Definite integrals and their application. Functions of several variables. Partial derivatives. Extreme values. First order differential equations. Higher order differential equations. Higher order linear differential equations with constant coefficients. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To introduce the methods of calculation of indefinite and definite integrals and their applications. Present classification of differential equations and their solutions. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Physics | FMFIB19223 | Applied Physics | Bachelor Degree Studies | 3 | Applied Physics module gives knowledge on electrostatic field effects, explains appearance and dynamics of electric conductivity of materials and electric current that generates a magnetic field. Electromagnetic induction in vehicles. It explains physical properties of Electromagnetic waves that propagate through various media, laws of optics and it engineering applications, solid body concept, modern concept of atomic nuclear and connection with transport engineering. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To give students the theoretical knowledge of modern physics and practical skills required in analysis and application of fundamental laws of nature. To describe the academic achievements of emerging technologies in the content, to teach how to evaluate the theoretical and experimental data and their reliability. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB19369 | Econometrics | Bachelor Degree Studies | 6 | The main conceptions in creating linear regression and time series statistical models are presented in this course. The questions of a model identification, fitting the models parameters, model diagnostic and forecasting are considered. Besides theoretical knowledge students have to solve tasks on the black board and using the special statistical program package for full statistical analysis. Students must attend at least 80 % of the time scheduled practical lectures. | The aim of this course is to introduce the main econometrics models and to consider their application in practice. | Full-time studies: Lectures -45 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -12 Practical works -0 Laboratory works - 12 Consultations -4 Individual work -132 Part-time, distance learning studies: Lectures -12 Practical works -0 Laboratory works - 12 Consultations -4 Individual work -132 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB19370 | Econometrics (course work) | Bachelor Degree Studies | 3 | The main conceptions in creating linear regression and time series statistical models are presented in this course. The questions of a model identification, fitting the models parameters, model diagnostic and forecasting are considered. Besides theoretical knowledge students have to solve tasks on the black board and using the special statistical program package for full statistical analysis. Students must attend at least 100 % of the time scheduled laboratory work. | The aim of this course is to introduce the main econometrics models and to consider their application in practice. | Full-time studies: Lectures -0 Practical works -0 Laboratory works - 30 Consultations -0 Individual work -50 Part-time studies: Lectures -0 Practical works -0 Laboratory works - 10 Consultations -0 Individual work -70 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB19206 | Probability Theory and Mathematical Statistics | Bachelor Degree Studies | 9 | The course is devoted to the basics of the probability theory and mathematical statistics. The definitions for random event and probability are formulated, their main properties are presented. Random variables and their properties are studied, acquaintance with some discrete and continuous random distributions is made further. The second part of the course consists of the main principles of mathematical statistics. Methods for population parameter estimation and statistical hypothesis testing are overviewed. Each topic is illustrated by applications and solutions of practical tasks. Computer software application in statistics is introduced for students. Students must attend at least 80 % of the time scheduled practical lectures and at least 80 % laboratory works. | To provide students with an understanding of the probability theory, to develop their ability to solve problems of mathematical statistics and apply their knowledge for statistical data analysis. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 15 Consultations -6 Individual work -159 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 10 Consultations -6 Individual work -184 Part-time studies: Lectures -18 Practical works -10 Laboratory works - 8 Consultations -6 Individual work -198 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB19209 | Integral Calculus | Bachelor Degree Studies | 6 | This module is designed to familiarize students with various methods of integral calculus and their applications in geometry, mechanics, and engineering. Upon completing this module, students will have the skills to apply integral calculus methods in different situations and understand their importance and applicability in solving various problems. Additionally, they will be capable of critically evaluating and analyzing the obtained results. Students must attend at least 80 % of the time scheduled practical lectures. | The aim of the course is to introduce notions of indefinite, definite, improper, multiple integrals, to discuss applications of the integral, to present elements of differential equations and infinite series. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -12 Practical works -10 Laboratory works - 0 Consultations -20 Individual work -118 Part-time, distance learning studies: Lectures -12 Practical works -10 Laboratory works - 0 Consultations -20 Individual work -118 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16412 | Algorithms that are Changing our World | Bachelor Degree Studies | 6 | Examples of algorithms. The main data structures and their implementation. Data search and sorting algorithms. Basic principles for development of algorithms. Complexity of algorithms. Greedy algorithms, dynamic programming. Algorithms for solution of graph problems. | To introduce data structures, to present principles for development and implementation of algorithms, to show how the complexity of algorithms is analyzed, to solve sorting, search, combinatorial, graph problems. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16414 | Differential Equations and Their Applications | Bachelor Degree Studies | 6 | The Ordinary Differential Equations course consists of general theory of ordinary differential equations and their applications for modelling various real world processes. The basic topics: deffinitions, various first order differential equations (ODE) and their solutions, existence and uniqueness theorems, phase space, direction field, various higher order differential equations and their solutions, fundamental solutions system, systems of differential equations and analysis, a qualitative approach in the plane, the applications of differential equations and systems of differential equations (creating mathematical models, problem solving and analysis). | Differential equations course is designed to provide knowledge Ordinary Differential Equations and their systems, relating it to the various application areas, to develop the ability to explore some real processes and to describe them using the differential equations, get the results, analyze and interpret them. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB16612 | Visualization Systems | Bachelor Degree Studies | 3 | Visualization pipeline. Data representation and formats. Basic algorithms of information visualization. Architecture of distributed visualization systems. Visualization software. Interaction of visualization systems. Classification of visualization systems and common challenges. Students must attend at least 70% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | Basic knowledge of developing visualisation systems. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -4 Practical works -4 Laboratory works - 4 Consultations -2 Individual work -66 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB16613 | Web 3D Graphics | Bachelor Degree Studies | 3 | To provide knowledge about the 3D object models and web animation applications. Presents the main principles of the Internet 3D graphics. Discussed in detail the international standard X3D. Provided general and specific methods for creating 3D scenes. Interactive 3D virtual space visualization techniques. Students must attend at least 70% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | Practice will be able to create interactive 3D graphics models for Internet applications in WebGL library and other graphics engines. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -4 Practical works -4 Laboratory works - 4 Consultations -2 Individual work -66 |
| Faculty of Fundamental Sciences | Department of Engineering Graphics | FMIGB16202 | General Engineering Graphics | Bachelor Degree Studies | 3 | Module contains the information about general principles of drawing making, standards applying, theoretical basic of engineering graphics and about computer modeling potentialities. Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time dooring the semester. | To present graphical problems solving algorithms, to develop abilities to read and make engineering drawings, adapting theoretical knowledge and according to drawing standards requirements and also to manage computer - aided design tools, to develop spatial imagination. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 6 Consultations -2 Individual work -60 |
| Faculty of Fundamental Sciences | Department of Engineering Graphics | FMIGB16003 | General Engineering Graphics | Bachelor Degree Studies | 6 | This course focuses on building essential skills and understanding for effective work in automated design. It covers theory, practical examples, software overview, and fundamentals of applying automated design systems in engineering graphics. Topics include drawing preparation technology, architectural and mechanical aspects, drawing standards, 2D geometric object modeling, spatial object representation, volumetric modeling, projection methods, surface modeling, and more. The goal is to teach users to adapt automated design methods, create parametric models. Acquired knowledge ensures students are well-equipped for the job market. Students are required to attend at least 60% of the practical and complete all laboratory work. | To present the general engineering and computer graphics fundamentals necessary in engineering design. To acquaintance with basic methods of general descriptive geometry, principles of orthographic projections, design methods, to introduce with modern compute aided design systems. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 30 Consultations -4 Individual work -96 Part-time studies: Lectures -2 Practical works -4 Laboratory works - 12 Consultations -20 Individual work -122 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB16203 | Analytical Chemistry | Bachelor Degree Studies | 6 | It is a set of theoretical knowledge and practical skills that help to understand the types of material analysis tasks, samples preparation, analysis method selection, which are very important in the field of biotechnology. The accuracy is very important for the analysis results. Students must attend 100% of the time scheduled laboratory work. | To enable students to pursue chemical knowledge by applying various analytical methods, devices and strategies to obtain information about the composition and structure of substances. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB16204 | Biology | Bachelor Degree Studies | 6 | Exploring life on its different levels. The chemistry of life and the structure of procariotic and eucariotic cell. The eucarytoic cell cycle, mitosis and meiosis. The role of meiosis in an organism life cycle. G. Mendel's discoveries. Mendelian inheritance in humans. Basics of human genetics. DNA as the genetic material, DNA replication. The chemical structure and function of carbohydrates, lipids and proteins. Concept of transcription and translation. The organization of eukaryotic genomes. DNA cloning and practical application. An introduction to the viruses, viroids and bacteriophage, their genomes and reprodutcion. The evoliution of populations, the factors affecting the evolution. Students must attend at least 70 % of the scheduled practical sessions | To understand the basics of general biology. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16202 | Discrete Mathematics 2 | Bachelor Degree Studies | 6 | Discrete mathematics is a branch of mathematics that studies discrete structures and discrete mathematical models of real phenomena. It emerged as an independent field in the middle of the 20th century due to the emergence of cybernetics and computer science and the development of computer technology. Discrete mathematics deals with combinatorics, graph theory, mathematical logic, information coding, finite automata, formal grammars, etc. It also covers issues of number theory, computational mathematics, probability theory, and mathematical programming. Discrete mathematics is important in informatics and cybernetics and has practical application possibilities in algorithms, data storage and transmission, and information processing. Students must attend at least 60% of the time scheduled practical lectures. | To acquaint with basic concepts of graph and number theory, complexity of algorithms, informatikon theory. Students must be able solve typical problems, apply modern mathematical methods to solve real life problems. | Full-time studies: Lectures -45 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -81 |
| Faculty of Fundamental Sciences | Department of Information Systems | FMISM20202 | Ethical Hacking Techniques (with course work) | Master Degree Studies | 6 | Ethical hacking and vulnerability scanning technologies are evaluated as compulsory part of any organization's information system security evaluation. While studying this course students will get familiar with different vulnerability scanning technologies and learn how to act as an ethical hacker, detecting existing vulnerabilities in organization's IT infrastructure without harming its functioning. The possessed understanding of methods and techniques used by hackers will also help the security specialist to plan appropriate countermeasures and evaluate their effectiveness. | To provide students with knowledge and skills necessary to evaluate information systems security from outside of the organization. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Fundamental Sciences | Department of Information Systems | FMISM20201 | Computer Networks and Operating System Security | Master Degree Studies | 9 | Appropriate computer network and operating system exploitation is a part of company's information security policy that requires specific knowledge and practice. Efficiency of information security measures is directly proportional to understanding of information systems interconnections and their application as a complex of measures. The module reviews the main problem areas in computer network and operating system security and provides possible solution scenarios. | The module aims at providing students theoretical and practical knowledge on computer network and operating system secure exploitation and management. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -0 Individual work -180 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB20400 | Database Systems | Bachelor Degree Studies | 6 | The course is designed to acquaint students with the concepts of relational databases and relational database management systems, the principles of their work. Provides information on possible actions with database data using commands and operators. Normalization of databases to the third normal form is introduced. Students must attend at least 80% of the time scheduled laboratory work. | To get acquainted with the main principles of database work using SQL. | Full-time studies: Lectures -24 Practical works -0 Laboratory works - 24 Consultations -4 Individual work -108 |
| Faculty of Fundamental Sciences | Department of Physics | FMFIB20401 | Ultrasound and Waves | Bachelor Degree Studies | 6 | The study subject is designed to provide the basics of ultrasound and waves required for further study. Studies will examine: sound, ultrasound, vibration and waves. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To provide knowledge from ultrasound and waves. To lay the foundations for studying special disciplines. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB21201 | Object-Oriented Programming (with course work) | Bachelor Degree Studies | 6 | To provide basic knowledge of object-oriented design and programming in the C++ language. Considering object-oriented design rules, form the foundations of rational software design. The knowledge gained during this course becomes an introduction to studying other programming languages. After mastering the course, the student must be able to design and create object-oriented software and use tools to develop this equipment. Students must attend at least 80% of the time scheduled laboratory work. | To provide basic knowledge of object-oriented design and programming in C++ programming. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB22301 | Discrete Mathematics | Bachelor Degree Studies | 3 | This course introduces students to fundamental concepts in Discrete Mathematics, providing a solid foundation for understanding and solving problems in various areas of computer science, information technology, and engineering. The course begins by exploring the basics of mathematical logic, covering logical operations, truth tables, logic formulas, and the fundamental laws governing logical reasoning. Next students will acquire the knowledge and skills to analyze Boolean functions and comprehend functionally complete sets of Boolean functions. The course extends to the realm of sets and relations, examining properties of binary relations, composition, and transitivity. Equivalence and order relations are introduced, providing a foundation for more advanced concepts. The course further includes basics of graph theory, focusing on undirected simple graphs, graph measures, and metrics. Additional attention is given to stable sets, Eulerian and Hamiltonian cycles, emphasizing their significance in practical applications. Students must attend at least 60% of the time scheduled practical lectures. | To acquaint with the main concepts and tasks of mathematical logic, set theory, relation theory, graph theory and methods for solving them. To develop the ability to solve classical problems in discrete mathematics. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16212 | Mathematics 2 | Bachelor Degree Studies | 6 | Integral calculus of functions of one variable: anti-derivatives, indefinite and definite integrals, the basic definitions, methods of integration, the properties of indefinite and definite integrals, Newton-Leibnitz formula, applications of definite integrals, multivariable functions, double and line integrals, ordinary differential equations and their solutions. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | The aim of this course is to provide the knowledge from integral calculus, the theory of differential equations and series elements, to achieve the ability to analyze situation, to choose the appropriate problem solving method, to present and clarify the obtained results, to develop the ability use the knowledge and practical skills in the study process. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -98 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16211 | Mathematics 2 | Bachelor Degree Studies | 6 | Integral calculus of functions of one variable: anti-derivatives, indefinite and definite integrals, the basic definitions, methods of integration, the properties of indefinite and definite integrals, Newton-Leibnitz formula, applications of definite integrals, multivariable functions, double and line integrals, ordinary differential equations and their solutions. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | The aim of this course is to provide the knowledge from integral calculus, the theory of differential equations and series elements, to achieve the ability to analyze situation, to choose the appropriate problem solving method, to present and clarify the obtained results, to develop the ability use the knowledge and practical abilities in the study process. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -18 Practical works -12 Laboratory works - 8 Consultations -6 Individual work -116 Part-time, distance learning studies: Lectures -20 Practical works -20 Laboratory works - 10 Consultations -0 Individual work -110 |
| Faculty of Fundamental Sciences | Department of Mathematical Modelling | FMMMB16210 | Integrals, Differential Equations and Series | Bachelor Degree Studies | 6 | Integral calculus of functions of one variable: anti-derivatives, indefinite and definite integrals, the basic definitions, methods of integration, the properties of indefinite and definite integrals, Newton-Leibnitz formula, applications of definite integrals, multivariable functions, double and line integrals, ordinary differential equations and their solutions. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | The aim of this course is to provide the knowledge from integral calculus, the theory of differential equations and series elements, to achieve the ability to analyze situation, to choose the appropriate problem solving method, to present and clarify the obtained results, to develop the ability use the knowledge and practical abilities in the study process. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -18 Practical works -8 Laboratory works - 8 Consultations -4 Individual work -122 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB16202 | Chemistry | Bachelor Degree Studies | 3 | It is a set of theoretical knowledge and practical skills that help understand the formation and properties of non-elektrolyte and elektrolyte solutions, oxidation-reduction processes, which are taking place in electrochemical devices, electrolysis, and corrosion of metals, which are very important in rapidly changing in operational situations in the field of elektronics engineering. Understanding of the studied chemical processes or phenomena and the ability to manage them will contribute to effective work in this field of engineering. Students must attend at least 70 % of the scheduled laboratory work. Students are required to complete all scheduled laboratory work. | To provide the students with chemistry knowledge necessary in the studies of the general and special courses as well as in the practice activities. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -10 Practical works -0 Laboratory works - 10 Consultations -2 Individual work -58 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB16429 | Programming Techniques (with course project) | Bachelor Degree Studies | 6 | Object-oriented programming course based on the Java programming language. The course will cover principles of object oriented programming: classes, objects, encapsulation, inheritance, polymorphism, visibility of class elements. Memory management, exception management, standard Java libraries, networked features of Java technology are introduced. The course provides examples on good programming practice and Java language usage for development of mobile applications (Android) and web systems (JEE). Students must attend at least 60 % of the time scheduled practical lectures and at least 80 % laboratory works. | To provide object oriented programming knowledge and skills to apply it in Java programming language. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 24 Consultations -4 Individual work -96 Part-time studies: Lectures -12 Practical works -0 Laboratory works - 10 Consultations -4 Individual work -134 Part-time, distance learning studies: Lectures -16 Practical works -0 Laboratory works - 10 Consultations -5 Individual work -129 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB16202 | Integral Calculus | Bachelor Degree Studies | 6 | In the course variuos methods of integration and aplication of the integral calculus in geometry, mechanics, etc., are discussed. Multiple and line integral are evaluated using polar, cilindrical, spherical coordinates, their aplication are discussed. Differential equations of the first and higher orders as well as system of differential equations are solved. Infinite series are aplied for variuos approximations. Students must attend at least 80 % of the time scheduled practical lectures and at least 80 % laboratory works. | The aim of the course is to introduce notions of indefinite, definite, improper,,multiple integrals, to discuss aplications of the integral, to present elements of differential equations and infinite series. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 6 Consultations -4 Individual work -134 |
| Faculty of Fundamental Sciences | Department of Physics | FMFIB16229 | Physics 2 | Bachelor Degree Studies | 3 | Electrostatics. Electrical properties of substances, theory of their conductivity. Magnetic field in vacuum and material. Maxwell's equations for electromagnetic field. Wave optics. Light interaction with materials. Quantum mechanics. Laser. Biological effects of radioactive radiation. . Students must attend at least 80% of the time scheduled laboratory work. | To give students the theoretical knowledge and problem-solving skills required in analysis and application of fundamental laws of nature. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -14 Practical works -0 Laboratory works - 8 Consultations -2 Individual work -56 Part-time, distance learning studies: Lectures -20 Practical works -0 Laboratory works - 10 Consultations -0 Individual work -50 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB23401 | Design of Multimedia Elements | Bachelor Degree Studies | 6 | This course introduces with multimedia design elements, promotional products design features, their aesthetic, expression and the importance of conveying and expressiveness of information. The presentation of multimedia design elements for the specifics of using graphical means of expression and compositional principles. Analyzing visual design and development cycle of the imaged object. Taught create abstracted image of the object, to create the specific environment. Introduced in style design, taught to create a representative multi-media product design. Taught to choose and combine font style, proportions, composing. | Be able to apply the principles of multimedia design, to select right elements of artistic expression, to create aesthetically, expressive and evocative computer visualization. | Full-time studies: Lectures -15 Practical works -30 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -4 Practical works -8 Laboratory works - 4 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB23402 | Artificial Intelligence in Computer Games | Bachelor Degree Studies | 6 | Both traditional and modern artificial intelligence (AI) techniques that are applied in computer games are studied. At the beginning, general concepts of AI are discussed such as common models, algorithms, data structures. Later the focus of the lectures shifted to the aspects of AI in computer games: character movement, pathfinding, decision-making, strategy, tactics, learning, and creativity. | Know and be able to use artificial intelligence methods for modeling the behavior of characters. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Mathematical Statistics | FMSAB23201 | Object-Oriented Programming (with course work) | Bachelor Degree Studies | 6 | The study subject is intended for students to acquire knowledge of the theory of object-oriented programming and to develop object-oriented programming skills using the Python programming language. By studying this subject, students will acquire knowledge of functional and object-oriented programming in the Python programming language. Will be able to work with classes and objects, get acquainted with SOLID principles. Students must attend at least 80 % of the time scheduled laboratory work. | The aim of the study subject is to provide students with knowledge of the theory of object-oriented programming and to develop object-oriented programming skills using the Python programming language. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB23201 | Geometrical Modelling | Bachelor Degree Studies | 6 | During the course, students will be introduced to the classification and types of 3D models, their modeling methods, the creation of virtual materials and UV maps, and visualization of 3D models. Upon completion of the learning process, students will be able to model precise solid objects and organic surface objects by using AutoCAD and Blender software. Students will also be able to texture and visualize the created models. Will be able to choose the right type of model to solve a specific modeling task, prepare the created models for work in other applications. Students must attend at least 70% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | After completing the learning process, the students will be able to use create organic and precise 3D models. Students will understand the structure of 3D objects and will be able to apply universal and typical geometrical modeling methods, including polygonal and spline curve-based methods, to create them. Students will also be able to texture and visualize created 3D objects and prepare them for work in other applications. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 30 Consultations -4 Individual work -96 Part-time studies: Lectures -4 Practical works -4 Laboratory works - 8 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB23403 | Video Technologies (with course project) | Bachelor Degree Studies | 6 | Video technologies course combines the most important aspects of modern video creation, processing and evaluation in post-production - creation of graphic elements, video effects and motion graphics, their compositing, integration and management in video content or their composition. During the course students are taught to create video supplemented with fictitious elements or video effects, where creation of graphic content, motion graphics and their management processes are automated by expressions, expressions controls and scripts using Adobe After Effects. | Having finished the course the students will have knowledge of: 1. Selection and evaluation of suitable technologies and methods for video processing; 2. Structuring, importing, and usage of external vector data for video content creation; 3. Creation of motion graphics and its management in video content using expressions and expressions controls; 4. Writing scripts of creation and management of video project and its elements. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -4 Laboratory works - 4 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB24601 | Basics of Distributed Systems | Bachelor Degree Studies | 6 | Students will be introduced to principles of distributed systems, will analyze how can be distributed data within different systems or services, how it is processed and used. Subject is oriented to programming, application solutiosn ratgher than technical details. Therefore topics of MySQL, Oracle databases are included to address existing solutions for data distribution, distributed file systems, P2P, RMI and other similar techynologies are analyzed. Students must attend at least 80% of the time scheduled laboratory work. | To teach students properly understanding of project management concept, as a view to modern method of management, to give theoretical and practical knowledge about types of projects, their purposes, cycle of project implementation, structure of business (activities) plan, to provide knowledge on the principles of project team formation, peculiarities of supervisor selection, business project control and changes performance management, project risk evaluation and management methodology, project m | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 12 Consultations -4 Individual work -108 Part-time, distance learning studies: Lectures -12 Practical works -6 Laboratory works - 6 Consultations -4 Individual work -132 |
| Faculty of Fundamental Sciences | Department of Engineering Graphics | FMIGB24000 | General Engineering and Digital Graphics | Bachelor Degree Studies | 6 | While studying the subject, the concept of engineering graphics was presented during the semester. The subject provides knowledge on how to use graphic tools in the preparation of engineering documentation, will be able to find and use suitable standards, and will understand how to apply appropriate information technologies. The combination of theory and practice will help to understand the possibilities of applying CAD systems in the preparation of technical drawings, paying attention to the requirements of the standards. The subject will not only introduce the basic methods of representing spatial objects on a plane and in space. Still, it will also encourage creative thinking when making appropriate decisions for drawing up a technical document. Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time dooring the semester. | To present the general engineering and computer graphics fundamentals necessary in civil engineering design. To acquaintance with basic methods of general descriptive geometry, principles of orthographic projections, design methods, to introduce with modern computer aided design systems. Projection drawing. Views, arrangement of views in drawings. Simple and complex sections. | Full-time studies: Lectures -15 Practical works -45 Laboratory works - 0 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -10 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -116 |
| Faculty of Fundamental Sciences | Department of Engineering Graphics | FMIGB24002 | Object-Oriented, Parametric Modeling BIM 1 | Bachelor Degree Studies | 3 | Building Information Modelling (BIM) application using engineering graphics software. Building information modeling computer software, and it's features for civil engineering. Parametric modeling of building elements and their descriptive information. Preparation of building three-dimensional models. Building element and construction (concrete, metal, wood) detailing using building information modeling tools. Preparation of the drawings. Views arrangement in the drawings. Construction drawing. Material schedules and bill of materials. Building plan, section, elevation formation. Building construction drawings. Reinforced concrete, metal, wood, geotechnical design and detailing drawings. BIM and CAD data management and standards. The building structure design schemes. Plotting graphs and using them in documents. Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time dooring the semester. | To introduce the basic princips of building information model (BIM) and it's management requirements, using computer-aided design systems. After completing this course will be able to read and understand building construction drawings. To present general engineering and computer graphics fundamentals necessary in civil engineering design. To provide with knowledge how engineering graphics methods are applied in building information modeling (BIM) design. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -0 Practical works -20 Laboratory works - 0 Consultations -2 Individual work -58 |
| Faculty of Fundamental Sciences | Department of Information Systems | FMISB23605 | Electronic Operation Systems | Bachelor Degree Studies | 6 | Provides general knowledge of electronic operations, transactions and their usage. Introduction to the monetary system, its different types and electronic payment methods. Electronic payments are analyzed from the point of view of both operation and implementation technologies, delving into the authentication solutions used by users and related devices. Much attention is paid to the mastering of the principles of the BlockChain (from the point of view of users, programmers, cashiers, exchange offices). Not only theoretical principles of BlockChains and cryptocurrencies, operating schemes and regulatory mechanisms are analyzed, but also BlockChain programming technologies are examined and used. | To provide knowledge of transactions and electronic payment solutions used in modern systems, being able to apply them in practice. Students must attend at least 80% of the time scheduled laboratory work. | Full-time studies: Lectures -24 Practical works -24 Laboratory works - 0 Consultations -4 Individual work -108 Part-time, distance learning studies: Lectures -12 Practical works -6 Laboratory works - 0 Consultations -4 Individual work -138 |
| Faculty of Fundamental Sciences | Department of Information Systems | FMISB23800 | Information Security Managment | Bachelor Degree Studies | 6 | The course content oriented toward state of the art in information security management problems and solutions. The content contains most relevant and important topics about information security management purpose, tools and organization, processes and information sources particularities, vulnerabilities and associated risk. Students must attend at least 60% of the time scheduled practical lectures. Students must attend at least 80% of the time scheduled laboratory work. | To provide students with knowledge and skills necessary manage information security related processes of an organization. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 24 Consultations -0 Individual work -100 Part-time, distance learning studies: Lectures -10 Practical works -0 Laboratory works - 8 Consultations -0 Individual work -142 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB24201 | Human Computer Interaction | Bachelor Degree Studies | 6 | Students are acquainted with human-computer interaction (HCI) theory, psychological factors of HCI, general HCI design principles, guidelines and templates. They are also introduced to user interface types and their design peculiarities. During the practices, students perform independent tasks, which include the theoretical (analysis) and practical parts, and the analysis of scientific articles, usability testing of the digital products. The development of user interfaces for mobile apps based on user-centred design principles is analysed during the course. FIGMA software is used for the design of the interactive prototype of a mobile app user interface. Students must attend at least 70% of the time scheduled practical lectures. | After this course students should be able to: apply basic knowledge of HCI principles and techniques; - be able to design user interfaces of the digital products applying the user-centred design principles; - be able to analyze user needs, - be able to analyze the usability of the digital products - work effectively in teams developing digital products | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB24409 | Computer Graphics | Bachelor Degree Studies | 6 | Applications of computer graphics. Graphics hardware. Graphics primitives and their implementation in software. Transformation engine. Fixed function graphics pipeline. Rendering algorithms. Visibility algorithms: Z buffers. Culling. Light sources. Illumination. Shading algorithms (Flat, Gouraud, Phong). Programming of special-purpose computing devices. GPU programming. Programming of interaction between graphical application and user. Students must attend at least 70% of the time scheduled practical lectures. | Basic knowledge of computer graphics algorithms and programming technologies of computer graphics. After this course students will be able: to develop application of computer graphics; to render 3D objects; to implement user interaction. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Graphical Systems | FMGSB24601 | Audio Technologies | Bachelor Degree Studies | 6 | During theoretical lectures students are introduced to acoustic and psychoacoustic, digital audio signals, their characteristics, most widely used standards and formats. Deeper understanding is provided about digital audio signals processing methods, various kinds of noises and their cancelation methods, audio editing technologies. In laboratory, the students code audio processing systems with MATLAB, edit audio files with Adobe Audition. There is coursework which consists of a theoretical analysis and practical part, during which are created sound processing systems or produced audio records. Students must attend at least 70% of the time scheduled practical lectures. | After completion of this course students will be aware of: 1. basic parameters, properties, standards and formats of sound; 2. audio files editing methods, techniques and technologies; 3. digital audio signal processing principles and algorithms; 4. will be able to create various sound signal processing systems. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Fundamental Sciences | Department of Information Technologies | FMITB24610 | Software Systems Testing | Bachelor Degree Studies | 6 | Practical and theoretical knowledge about software testing is presented in this module. Testing principals, levels, taxonomy are introduced. Testing methods and tools for funcional and nonfuncional testing are described. The tools and methods are used practically during lab works. Web application testing, web services testing are introduced. Automation of testing is described. Automated tests' generation and execution frameworks and tools are presented and used by the students during therethical course and labs. Students must attend at least 80% of the time scheduled practical work. | Obtain basic software testing theoretical and practical knownledge. | Full-time studies: Lectures -24 Practical works -24 Laboratory works - 0 Consultations -4 Individual work -108 |
| Faculty of Fundamental Sciences | Department of Chemistry and Bioengineering | FMCHB24708 | Ecological Biotechnology | Bachelor Degree Studies | 3 | Pollutants. Risk assessment. Microorganisms and biodegradation. Technologies of pollutants decontamination. Bioreactors. Treatment of polluted water bodies. Treatment of wastewater. Treatment of polluted soil. Decontamination of solid waste, composting. Plants for pollutant treatment. Students must attend at least 70 % of the scheduled practical sessions. Students are required to complete all scheduled laboratory work. | Awareness of the environmental biotechnology purposes, concepts and principles and the use of contaminated environmental cleaning | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 |
| Faculty of Fundamental Sciences | Department of Engineering Graphics | FMIGB17001 | General and Applied Engineering Graphics | Bachelor Degree Studies | 6 | Drawing devices, tools and accessories. Formation of drawings: standards, scales, lines, fonts. Projection methods, projections of points, lines and planes. Projection of parts into three projection planes; viewing of international holes, cavity; views and their displacement in drawings; sections, incomplete sectional views, enlarged part view elements, corditionalities and simplifications. Solid modeling according to pictorial projections and to the views given. Surface modeling. Surfaces intersection and their developments. Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time dooring the semester. | To present graphical problems solving algorithms, to develop abilities to read and make engineering drawings, adapting theoretical knowledge and according to drawing standards requirements and also to manage computer - aided design tools, to develop spatial imagination. | Full-time studies: Lectures -15 Practical works -30 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -6 Practical works -10 Laboratory works - 10 Consultations -4 Individual work -130 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 10 Consultations -0 Individual work -120 |
| Faculty of Creative Industries | Department of Philosophy and Cultural Studies | KIFSB17107 | Philosophy | Bachelor Degree Studies | 3 | The course examines the origin of philosophy and the role of philosophy in the development of European cultural history. Course presents the topics of being, the nature of things and ideas, knowledge, the relationship between science and philosophy, the human place in cosmos, in a society and in the state. The main focus is placed upon antique philosophy and its subsequent interpretations. Participation in at least 60% of the scheduled exercises is mandatory. | The course is intended to introduce students to the basic problems of philosophy and to provide with skills for critical thinking. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -8 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB23185 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at the development of Electronics Faculty students' C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and Professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -0 Practical works -18 Laboratory works - 0 Consultations -2 Individual work -60 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17129 | Speciality English Language 1 | Bachelor Degree Studies | 3 | The course is targeted at students of Business Management Faculty with a B1-B2 level of the English Language knowledge and skills, and who seek to gain professional language skills to communicate more effectively in English in daily and in Professional situation on topics covered in the list. During the course, students develop the independent user's (B) language skills: reception (listening and reading comprehension), production and interaction (speaking and writing), and mediation (translation). Students also master basic professional vocabulary, gain knowledge of the correct technical and scientific language usage, develop skills in analysing the speciality literature. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -0 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17188 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at the development of Mechanics Faculty students' C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and Professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -0 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -62 Part-time, distance learning studies: Lectures -0 Practical works -20 Laboratory works - 0 Consultations -2 Individual work -58 |
| Faculty of Creative Industries | Department of Philosophy and Cultural Studies | KIFSB17109 | Philosophy | Bachelor Degree Studies | 3 | The course examines the origin of philosophy and the role of philosophy in the development of European cultural history. Course presents the topics of being, the nature of things and ideas, knowledge, the relationship between science and philosophy, the human place in cosmos, in a society and in the state. The main focus is placed upon antique philosophy and its subsequent interpretations. Participation in at least 60% of the scheduled exercises is mandatory. | The course is intended to introduce students to the basic problems of philosophy and to provide with skills for critical thinking. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -48 Full-time weekend learning studies: Lectures -10 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -58 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 Part-time, distance learning studies: Lectures -10 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -68 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17119 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at the development of Environmental Engineering Faculty students' C1 level of the English language competences, further development of skills gained in the course English language for communication in both daily and professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -0 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -70 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17152 | English Language | Bachelor Degree Studies | 3 | The course covers an important aspect of academic language study relevant to all subject areas. The aim of the course is to reach a high (B2-C1) level of English to study in an academic institution. The course is aimed at the first-cycle students with B1-B2 level of English. The integrated skills course will develop students' reading, writing, listening and speaking skills in an academic context. It will enable students to prepare assignments, write a research paper in English. Participation in at least 60% of the scheduled exercises is mandatory. | To help students develop linguistic and communicative skills, acquire knowledge according to CEFR B2 - C1 level in order to communicate spontaneously both in written and spoken forms on daily, cultural and professional topics.. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -0 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -68 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17123 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at students' C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Creative Industries | Department of Entertainment industries | KIPIB17081 | Media Projects | Bachelor Degree Studies | 6 | During the course students will improve knowledge of project management, useful tools for managing different media projects. During the semester, students will analyze different media projects, generate ideas, deepen their knowledge in the areas of communication, risk management, leadership, and expand their argumentation competencies. Participation in at least 60% of the scheduled exercises is mandatory. | To introduce activities of media projects, its practice and application methods in various organizations. To get knowledge in differentiation of project types and applicable project management tools, instruments and methods. To get knowledge about effective project preparation and management tools. | Full-time studies: Lectures -24 Practical works -24 Laboratory works - 0 Consultations -4 Individual work -108 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Creative Industries | Department of Entertainment industries | KIPIB18602 | Urban Studies | Bachelor Degree Studies | 3 | The course analyses the city as a creative communicative field and explores the concept of the creative city as a new model for urban regeneration and development in a globalised world. The course teaches the principles of field research, teamwork and project management. The course consists of theoretical and practical parts. The course introduces students to urban public space interventions from the point of view of creative and entertainment industries; introduces the types of urban spaces in the city, their research and methodology, the topicalities and peculiarities of the system of public spaces; the concept of the creative city and the city as a medium. Practical creative activations are prepared, implemented and publicised during the course. Students plan creative activations in urban spaces, develop vision, identify limiting factors for implementation. The course promotes result orientation, discusses the issues of consistency of the goal, the means and the result. To optimise the implementation process of the creative project, the issues of teamwork, project management phases, the links between punctuality, fulfilling commitments and real work in creative industries are discussed. Course also focuses on the planning and implementation of communication of creative intervention. The course concludes with a discussion on the progress and results of the implemented creative project, possibilities for further development, the potential for the development of urban interventions, future directions and scenarios for the development of cities, creative industries and media relations Participation in at least 60% of the scheduled exercises is mandatory. | The aim of the course is to introduce students to the basic concepts of urban studies and current debates on the principles of urban development and cultural urban planning; to develop students' ability to analyse urban spaces on their own and in teams, to develop and implement group creative intervention projects in public spaces; and to develop students' ability to act professionally in the creative industries labour market. | Full-time studies: Lectures -15 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -4 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB18401 | Visual Communication (with Course Paper) | Bachelor Degree Studies | 6 | In this module students will learn about complexity of visual communication theory: semiotics (formation of content in visual message), psychology of Art (visual perception and perceptual mechanism), and communication (general principles of social communication). During practical work students will apply the knowledge in methods of message visualization and rhetoric, the graphic design tools and ways to send a visual message to a target audience. The coursework will analyze the visual image strategies of a specific company and present options for their improvement. Participation in at least 60% of the scheduled exercises is mandatory | In this module students will learn about complexity of visual communication theory: semiotics (formation of content in visual message), psychology of Art (visual perception and perceptual mechanism), and communication (general principles of social communication). In parallel they will gain some understanding in methods of message visualization and rhetoric, the graphic design tools and ways to send a visual message to a target audience. During practical work students apply the knowledge in semio | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB18202 | Mass Communication | Bachelor Degree Studies | 6 | To introduce the mass communication theories, their problems, old and new media, and their interaction. Understand what separates and share new media with the old, the traditional media. Find out what are the signs of new media and how it changes the traditional concepts of mass communication; new media as part of a research in mass communication research field. Coursework consists of theoretical-descriptive and critical, analytical parts (estimated at 33.3 percent.). The student chooses one of mass communication theory, it describes from the scientific literature, and later analyzed on the basis of the theory of criticism in the scientific literature and provide the overall picture, as far as theory is relevant today as it has changed, what can be studied on the basis of the theory today.Participation in at least 60% of the scheduled exercises is mandatory | The course aims to familiarize with the classical and modern theories of mass communication, a review of the most important means of mass communication theories and methodological problems studied. Historical development of mass communication theories overview. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB18601 | Advertising (with course work) | Bachelor Degree Studies | 6 | Basics of Advertisement module is complex and covers theoretical, practical, creative activites which refers to holistic approach and form contemporary understanding of advertising as a organizational tool of cummunication. Participation in at least 60% of the scheduled exercises is mandatory | Acquaint with objective of advertisement, its history, forms, ways of application, integration with other communication activities, tendencies, creation, evaluation of effectiveness, pecularities of analysis data. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -111 Part-time studies: Lectures -8 Practical works -4 Laboratory works - 0 Consultations -4 Individual work -144 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB18402 | Qualitative Research (with Course Paper) | Bachelor Degree Studies | 6 | Course creates possibility for students to get acquainted with theoretical presumptions of qualitative research methods, to find out purpose and specifics of qualitative research, to get acquainted with data collection in qualitative researches. Students perform qualitative research: prepare research programme, perform interviews and focus group discussions. Students prepare research report - course-paper. Students have to demonstrate ability to choose appropriate research methods, to perform the research and to interpret and present research findings Participation in at least 60% of the scheduled exercises is mandatory | To get knowledge and skills necessary for doing qualitative research. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -4 Laboratory works - 0 Consultations -4 Individual work -144 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17146 | Speciality English Language 2 | Bachelor Degree Studies | 3 | The course is targeted at the development of Business Management Faculty students' C1 level of the English Language competences, for further development of skills gained in the course Speciality English Language 1 for communication in both daily and Professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -0 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSA17005 | Speciality English Language | Integrated Studies | 3 | The Speciality English Language course is targeted at students of the Faculty of Architecture with the B2 level of English. The course is designed to help students to master the Speciality English Language which would enable them to effectively communicate in English in any professional situation both in oral and written forms. Special skills and general abilities are developed through speciality topics presented in the course. After acquiring communicative (reading, writing, listening and speaking), cognitive, general and intercultural competences, students are able to successfully apply them while searching for specific information or while adapting to international market. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB93101 | French for Beginners | Bachelor Degree Studies | 3 | The course of the subject The French Language for Beginners is meant for students,who haven,t learnt French before or who know it a little bit and want to achieve level A1 according to Common European languages Framework. | The development of the main communication skills using the Common French language as a basis, mastering all types of language activities-reading, speaking, understanding from listening and writing in order to acquire the knowledge of vocabulary, grammar and phpnetics according to the requirements of Common European languages Framework as well as the development of intercuktural communication and cooperation skills. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -0 Individual work -35 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB93103 | German for Beginners | Bachelor Degree Studies | 3 | The course of the subject The German Language for Beginners is meant for students,who haven,t learnt German before or who know it a little bit and want to achieve level A1 according to Common European languages Framework. Participation in at least 60% of the scheduled exercises is mandatory. | The development of the main communication skills using the Common German language as a basis, mastering all types of language activities-reading, speaking, understanding from listening and writing in order to acquire the knowledge of vocabulary, grammar and phpnetics according to the requirements of Common European languages Framework as well as the development of intercuktural communication and cooperation skills. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -0 Individual work -35 |
| Faculty of Creative Industries | Department of Philosophy and Cultural Studies | KIFSB17159 | Social Responsibility | Bachelor Degree Studies | 3 | The course focuses on analysis of the basic concepts and main issues of social responsibility. The philosophical origin of social responsibility is demonstrated by analysis of classic philosophical texts. The individual and political responsibility of contemporary social problems is discussed from historical and problematic perspectives. Participation in at least 60% of the scheduled exercises is mandatory. | To introduce problematic field and genesis of social responsibility. Students will be able to identify realm of social responsibility, to analyze it and make legitimate conclusions. This module aims to provide the competencies and skills that would enable students' critical thought, engage them for socially responsible activities and enable to take socially responsible decisions. | Full-time studies: Lectures -16 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -46 Part-time studies: Lectures -4 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -70 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17142 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at the development of Aviation institute of Aviation Mechanics Engineering and Avionics students' C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17116 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at the development of Civil Engineering, Architectural Engineering, Construction Technology and Management students' C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -0 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -70 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB17185 | Speciality English Language | Bachelor Degree Studies | 3 | The course is targeted at the development of Electronics Faculty students' C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and Professional situations. The course develops the independent user's language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time, distance learning studies: Lectures -0 Practical works -18 Laboratory works - 0 Consultations -2 Individual work -60 |
| Faculty of Creative Industries | Department of Philosophy and Cultural Studies | KIFSA17003 | Philosophy | Bachelor Degree Studies | 3 | The course examines the origin of philosophy and the role of philosophy in the development of European cultural history. Course presents the topics of being, the nature of things and ideas, knowledge, the relationship between science and philosophy, the human place in cosmos, in a society and in the state. The main focus is placed upon antique philosophy and its subsequent interpretations. | The course is intended to introduce students to the basic problems of philosophy and to provide with skills for critical thinking. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -8 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -70 Part-time, distance learning studies: Lectures -20 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -58 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB20102 | Digital Communication | Bachelor Degree Studies | 6 | The course provides balanced and well-designed training in the principles of digital and social marketing communication. The syllabus is a combination of theoretical knowledge and practical skills. By the end of this course, the students will be able to understand the core processes of planning a digital marketing strategy by employing the major online channels Participation in at least 60% of the scheduled exercises is mandatory | The main aim of the course is to provide students with a comprehensive understanding of how digital technologies and the rise of social media are changing communication and marketing strategies across different industries. This includes learning about marketing concepts that are relevant in the digital environment, analysing best practice examples, and developing skills for creating, delivering and communicating value by using digital communication tools and social media platforms | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB18110 | English for Specific Purposes | Bachelor Degree Studies | 3 | The module Speciality English Language is targeted at the development of Creative Industries and Entertainment Industry students' C1 level of the English language competences, for further development of skills gained in the module English for Creative Communication for communication in both daily and professional situations. The course develops the independent user's language skills, professional vocabulary (through media topics), the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. | To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and professional situations. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -0 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -62 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB20107 | Creative Industries Studies (with Course Paper) | Bachelor Degree Studies | 6 | Familiarize with Creative Industries conception and phenomena, reveal CI links with changes in economic and ITC. Explain CI structure, principles of action, business forms and main skills, important in CI business. Participation in at least 60% of the scheduled exercises is mandatory | Provide main knowledge and skills to organize and implement communication products and services in the creative services sector companies | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB22102 | Electronic Communication and Social Networks | Bachelor Degree Studies | 6 | In the course, through theoretical studies and practical tasks, the most important features of human experience and social design, which are formed by electronic communication, are revealed, paying special attention to the so-called culture of algorithms. The subject analyzes the most important social media, the structure of their algorithms, creates forms of textuality, visuality and social interaction. Participation in at least 60% of the scheduled exercises is mandatory | The purpose of the Electronic Communication and Social Networks course is to acquaint the students who have chosen the Bachelor of Communication Sciences with the place of electronic communication in the context of other communication methods, to highlight the most important features of electronic communication that connect and distinguish it from the other two fundamental communication methods of Western civilization - oral and written. In the course, through theoretical studies and practical tasks, the most important features of human experience and social design, which are formed by electronic communication, are revealed, paying special attention to the so-called culture of algorithms. The subject analyzes the most important social media, the structure of their algorithms, creates forms of textuality, visuality and social interaction. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Creative Industries | Department of Entertainment industries | KIPIB23804 | Organisational Culture | Bachelor Degree Studies | 6 | During the Organizational Culture course, students will learn about theories, models, and practices of organisational culture, change communication, and organizational image. Students will discuss the communication processes and characteristics of a successful organisation: values, models, habits and traditions, specifics of encountering different cultures. The course analyzes models for classifying organizational cultures (G.Hofstede, K.S. Cameron and R.E. Quinn et al.), Methods for identifying and evaluating organizational cultures, communication solutions for innovation, technology, creativity, digital, decentralized, and other types of organizational cultures. The course will analyze cases from global organizations where organizational culture is an important factor for success and exclusivity. Practical skills to use organisational culture identification, creation and communication tools are developed, communication projects for practical real-life situations will be developed. Participation in at least 60% of the scheduled exercises is mandatory. | To get acquainted with the concepts and models of organisational culture, its creation and communication; the characteristics of successful cases and their mindset and behavior, and to test knowledge in practice. | Full-time studies: Lectures -24 Practical works -24 Laboratory works - 0 Consultations -4 Individual work -108 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -142 |
| Faculty of Creative Industries | Division of Foreign Languages | KIUSB93113 | German for Intermediate | Bachelor Degree Studies | 3 | The course of the subject The German Language for Intermediate students is meant for students who achieved level A1 according to Common European languages Framework and who want to achieve language competence necessary to attain level A2 - B1. Students who will successfully finish the course will be able to effectively communicate in both formal and informal situations in the limits of topics covered during the course. Participation in at least 60% of the scheduled exercises is mandatory. Participation in at least 60% of the scheduled exercises is mandatory. | The development of the main communication skills mastering all types of language activities reading, speaking, understanding from listening and writing according to Common European languages Framework requirements for level A2 - B1 as well as the development of intercultural communication and cooperation skills. | Full-time studies: Lectures -0 Practical works -45 Laboratory works - 0 Consultations -0 Individual work -35 |
| Faculty of Creative Industries | Department of Creative Communication | KIKOB17065 | Public Relations | Bachelor Degree Studies | 6 | Public relations course consists of theoretical part in which the students will be introduced with fundamental concepts of public relations, its history, formation, strategies and tactics of public relations, planning and evaluation; and practical part in which students will perform individual and group real life public relation practice illustrating tasks. In this course students should learn how to identify and to communicate with various publics, to analyze and to organize public relations campaigns and media relations, as well as to integrate social media. Participation in at least 60% of the scheduled exercises is mandatory | To train in-depth understanding of principles of public relations, to develop basic communications with publics and media skills, to present theoretical and practical basis of public relations along with its problematic, application and tendencies. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -8 Laboratory works - 0 Consultations -4 Individual work -140 |
| Faculty of Mechanics | Department of Biomechanical Engineering | MEBIB17030 | Materials in Medicine | Bachelor Degree Studies | 3 | The subject is intended to introduce students to the requirements for materials used in medicine, to provide an understanding of the selection of materials for implants and prostheses, and develop the ability to independently analyze the biocompatibility, durability and other problems of materials in medicine. Students must participate in at least 70% of the exercises during the scheduled time. | To introduce students to the classification and properties of biomaterials (polymers, metals, bioceramics, carbon fiber, new nanomaterials), to provide an understanding of material selection for implants and prostheses, to ensure that students are able to identify and solve material selection problems | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 |
| Faculty of Mechanics | Department of Biomechanical Engineering | MEBIB23036 | Design of Technical Assistance Devices for Disabled | Bachelor Degree Studies | 6 | Technical assistance devices are necessary for the majority of persons with various forms and levels of disabilities, as they become an integral part of life, and also provide independence and psychological comfort. During this course, you get to know not only the variety and availability of technical aids, but also their technical characteristics, individual application, and also design features. It is learned to select or design technical support measures according to individual situations. | To acquaint students with the diversity of technical aids for the disabled, the principle of operation, application, design and production features, and to provide the ability to apply knowledge when selecting, adapting or designing technical aids for the needs of the disabled.Students must attend at least 60% of the time scheduled exercise. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17166 | Design of Machines and Instruments 1 | Bachelor Degree Studies | 3 | Machine design process. Selection of motors. Methods of design of drives. Design of gear boxes. Design of spindles, using various bearings: sliding bearings (hydrodynamic type, hydrostatic type), rolling bearings. Design of summing of motions mechanisms, traction mechanisms. Particularities of design of instruments. | To get acquainted with methods of the design of machines and instruments, allowing to get required force and speed characteristics of the machine, with designing of precise mechanisms, mechanism of summing of motions, traction mechanisms, particularities of mechanisms of instruments. Develop skills to apply this knowledge to the selection of main machine and instrument components and assemblies. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -16 Practical works -0 Laboratory works - 8 Consultations -0 Individual work -56 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17180 | Production Technologies | Bachelor Degree Studies | 6 | Production and technological processes, operations, their division to separate parts. Machine as production object. Specifications of a machine and its parts, their research, methods of quality assurance. Design and rating of technological process of parts production. Evaluation of effectiveness of technological process Processes plans for production of machine parts of different types. Documentation of technological processes. Creation of operation programs. | To prepare the specialist which according to drawings of machine parts and their specifications would rightly understand processes of their production and itself could create, select, and improve technological processes of their production thanks to which quality of a machine and its parts would be achieved with a minimal cost. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -22 Practical works -10 Laboratory works - 10 Consultations -4 Individual work -114 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17167 | Quality Management | Bachelor Degree Studies | 3 | Conception of quality, prime rates of quality. Terms and descriptions. System of quality and its structure. Requirements and principles of quality system. Control of quality, administration of quality. Methods of quality control. Planning and organization of quality control. Methods of productions presentation for control. Internal audit of quality, its organization and planning. Methodology of quality audit. Concepts and terms of marketing. Requirements of quality for marketing. Quality of marketing. Price of quality and its optimization. Participation in practical works at least 60% of the scheduled exercises is mandatory. | To give knowledge about terms of quality and indexes, systems, control of quality, administration of quality and quality of marketing. To determine what is dependence between quality of product and price. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -20 Practical works -8 Laboratory works - 0 Consultations -0 Individual work -52 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17176 | Master Graduation Thesis 4 | Master Degree Studies | 30 | Information forthcoming from earlier modules last processing, application of suitable software, result presenting, conclusions and recommendations. Preparation of final work, report in conference, defense. | To develop wide erudition, ability to observe and critically analyze, investigate and creatively solve technical, administrative and juridical problems of design, manufacturing and maintenance questions for mechanics and mechatronical systems in global market conditions, understand influence and importance of made solutions in to society evolution, constantly improve professional skills when learning whole life. | - |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17113 | Mechatronic Systems 2 | Bachelor Degree Studies | 6 | Overview of mechatronic systems control, types of controllers. Different types of mechatronic systems. Synthesis of desired properties in mechatronic system design. Parameters of control of different types of mechatronic systems, dynamics of mechatronic system control. Design of real systems using digital modeling without solving differential equations analytically. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | Introducing students with control of mechatronic systems. Control of discreet, continuous and proportional systems. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -8 Individual work -128 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17120 | Design of Mechatronic and Robotic Systems (with course project) | Bachelor Degree Studies | 6 | There is an intention to introduce general methods of design of machines and equipment. To introduce with design of mechatronic systems, selection of components, design of control systems. Overview of program driven system types, and their design, balance between software emulated and hardware released elements in mechatronic systems. Modernization of old mechanical equipment by implementing modern control systems. Choose of rational depth of modernization. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | Introducing students with design process of mechatronic and robotic systems : methods of design of frames, drives, power elements and sensors. | Full-time studies: Lectures -24 Practical works -24 Laboratory works - 0 Consultations -4 Individual work -108 Part-time studies: Lectures -10 Practical works -8 Laboratory works - 0 Consultations -10 Individual work -132 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17379 | Materials Science 1 | Bachelor Degree Studies | 3 | The basis of structural materials and treatment processes is presented in the module. Tasks and development of materials science. Mechanical and physical tests of materials properties. Metal production and casting. Forming by extrusion and cutting technologies of materials. Materials joining process and coating technologies. Polymeric, composite and ceramic materials and their technologies. Powder and additive manufacturing technologies. Non-destructive control of materials. | To provide knowledge about materials used in the mechanical and production engineering, their properties, processing and application. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -16 Practical works -0 Laboratory works - 6 Consultations -2 Individual work -56 Part-time, distance learning studies: Lectures -20 Practical works -0 Laboratory works - 10 Consultations -0 Individual work -50 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17164 | Master Graduation Thesis 2 | Master Degree Studies | 3 | Further profounding in to problem under investigation, working out of experiment methodic, experimental equipment gathering, analysis of other similar work results and publications. | To develop experiment plan, to give competences to solve specialized mechanics and mechatronical systems problems, which are needed to perform scientific investigations, to obtain new knowledge and improve research methodics and to integrate knowledge from different fields. | - |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17123 | Bachelor Graduation Thesis 3 | Bachelor Degree Studies | 9 | Calculation correction, selection of the schemes and the workflow. In design final works are made 4 of A1 size drawings - general view, assembly drawings of separate mechanisms and drawings of parts. In technological final works are made 4 of A1 size schemes of the technological processes and economical evaluation. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them | - |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17255 | Fundamentals of Innovation Management | Bachelor Degree Studies | 3 | This module presents key concepts and principles of innovation and innovation management process, innovation clasification, creativity stimulation tools and methods, ideas generation and evaluation process, management of innovation develoment team, development of innovation project, sources of innovation financing, innovation comercialisation process, intelectual property rights, licencing. Participation in practical works at least 60% of the scheduled exercises is mandatory. | The course aims to provide students with the knowledge and skills necessary for innovation development. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -42 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -62 Part-time, distance learning studies: Lectures -16 Practical works -8 Laboratory works - 0 Consultations -0 Individual work -56 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17360 | Master Graduation Thesis 2 | Master Degree Studies | 3 | The Master Graduation Thesis 2 is focused on analysis of empirical researches, their methods and instruments, and selection methods and instruments which will be used for empirical part of Master thesis. The students will prepare a survey questionnaire, and will make other preparation for empirical research. | To make analysis of scientific literature, formulate the goal, tasks, problem of the empirical part of the Master thesis and choose particular methods which will be used for an empirical research of Master thesis: develop survey questionnaire and etc. | - |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17122 | Bachelor Graduation Thesis 2 | Bachelor Degree Studies | 6 | According to the work task are developed the schemes of construction of mechanisms and devices, are calculated construction, kinematical and other parameters are creating the control schemes and algorithms. On the basis of loading are calculated the main construction sizes of the parts. The common wiews, assembly drawings and diagrams are creating of devices and their parts. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them. | Full-time studies: Lectures -0 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -144 Part-time studies: Lectures -0 Practical works -8 Laboratory works - 0 Consultations -8 Individual work -144 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17114 | Robotical Technology | Bachelor Degree Studies | 6 | Introduction. Main tasks. Practical and economic aspects. Areas of application. Micro robotics. Nano systems. Widely used robotic systems and specific of application. Optical recognition tasks and applications. Methods of robotic systems integration. Programming of industrial robots. Languages and systems. Levels of robot programming. Problems related with robot programming. Recommended solutions. Off-line industrial robotic programming systems. Technical requirements for CAD/CAM models. Practical aspects of TCP control scenario. Tool control task. Commonly used robotic systems. Technical and practical aspects robotic systems. Commonly used robotic system control software. Recommendations for practical applications. | To familiarize students with the practical application of industrial robots, typical robotic solutions and the latest software packages used for these purposes. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 8 Consultations -18 Individual work -118 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17165 | Sensors in Mechatronics | Master Degree Studies | 6 | There are delivered detailed overview of sensors in mechatronics. Detailed description of their design features, methods and possibilities of their implementation in mechatronics. There are discussed possibilities of sensor design and enhancement. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To introduce with design features of sensors and their implementation in mechatronics. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17163 | Diagnostics in Mechatronics | Master Degree Studies | 6 | Provides information about the structure of mechatronics systems, methods of structure investigation and diagnostics of failures. Provides an overview of diagnostic equipment, introduces the circumstances of potential fault location of mechatronic systems. A description of the course of diagnostic testing of mechatronic systems is provided. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To deliver knowledge about structure of mechatronic systems, to introduce with diagnostic equipment and their implementation methods of such systems. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17238 | Tribology | Bachelor Degree Studies | 3 | General conceptions. Principles of tribology. Friction. Wear. Lubrication. Participation in practical works at least 60% of the scheduled exercises is mandatory. | To familiarize with mechanisms of friction and wear processes that proceeds in the components of machines. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -42 Part-time studies: Lectures -10 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -60 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -0 Individual work -50 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17352 | Marketing of Innovative Products and Investment Management (with course work) | Master Degree Studies | 9 | Marketing of innovative products and investment management course covers innovative product idea generation and initial business model creation using Strategyzer Canvas model, marketing of innovative products and its process overview, industrial activities and competitors analysis, quantitative and qualitative demand analysis, innovative products marketing planning, strategy and development, marketing of innovative products in internet, investment management concept and investment planning, investment appraisal methods and investment climate analysis. | The module shall provide knowledge and develop students' skills in innovative product marketing and investment management. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -0 Individual work -180 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17166 | Modelling of Mechatronic Systems | Master Degree Studies | 9 | Methods of modelling. Analysis of mechatronic systems on basis of their modelling possibility. Modelling of components of mechatronic systems. Jointed mechatronic systems, influence of control. Synthesizing of new mechatronic systems with desired properties in case of modelling new systems. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | Introducing students with various methods of mechatronic system modelling. | Full-time studies: Lectures -45 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -180 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17401 | Machine Elements (with course project) | Bachelor Degree Studies | 6 | Machine elements. The criteria of operation. Joints of elements. Welded, pressed, riveted, glued joints. Thread, wedge-shaped, splined, pin joints (connections). Friction drives. Belt drives. Gear drives: cylindrical and conical gear drives. Worm gear drives. Shafts, bearings, couplings, sealing and lubricating equipment. Laboratory works. The course project. Students must participate in at least 75% of the lectures, exercises and complete at least 75% of the laboratory work in the scheduled time. | Introduction to machine elements and various joints of them. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 15 Consultations -4 Individual work -81 Part-time studies: Lectures -18 Practical works -8 Laboratory works - 8 Consultations -4 Individual work -122 Part-time, distance learning studies: Lectures -30 Practical works -10 Laboratory works - 10 Consultations -0 Individual work -110 |
| Faculty of Mechanics | Department of Biomechanical Engineering | MEBIB17034 | Medical Equipment (Course project) | Bachelor Degree Studies | 3 | In this course are presented knowledge about medical equipment, classification, components of medical equipment, structural and electronic schematics, main linear and non-linear characteristics of medical equipment: sensitivity, accuracy, stability, frequency and temperature intervals, calibration, usage aspects, medical equipment constructions based on energy types. | To provide knowledge about types of medical equipment, their main characteristics and constructional aspects. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17358 | Manufacturing Simulation and Industrial Production Systems | Master Degree Studies | 6 | Study course covers simulation, models of discrete and random processes, forming principles of random process models on the samples of computer simulation by the use of "Arena" program facilities, comparing of model and system structure, analysis of results, machining operations simulation, safeguarding of their productivity simulation and optimization, procedures and basic principles of work flow of manufacturing companies, general economic and manufacturing KPI's, compatibility of information systems of production management with modern production strategies, basic rules and planning of technological resources and human resources, production management decisions' economic evaluation and modeling, integration of sales, supply chain and financial procedures into manufacturing. | To acknowledge with principles of process, especially random, simulation and with manual and computer simulation, and simulation programs. Acknowledge with different manufacturing processes simulation, their features and optimization. Introduce with objectives, tasks, designing of information systems of production management also with enterprise resource planning system. | Full-time studies: Lectures -15 Practical works -30 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17121 | Quality and Certification in the Automated Industry | Bachelor Degree Studies | 6 | The module introduces the concept of quality, the quality assurance system and its components and the functioning of the quality management process. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To get acquainted with the system of quality management and automated production conditions | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 12 Consultations -4 Individual work -108 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 8 Consultations -10 Individual work -126 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17375 | Master Graduation Thesis 4 | Master Degree Studies | 30 | The Master Graduation Thesis 4 subject is focused on a final preparation of Master Thesis by the Vilnius Gediminas technical university guidelines; also, on presentation of obtained research results at a scientific conference, and on defence of Master Thesis. | To prepare a Master thesis for defence on the basis of the researches already made in parts 1, 2 and 3 of the Master Thesis, present the research' results at a scientific conference and defend the Master's thesis at the Master degree awarding commission. | - |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17344 | Human Resource Management and Leadership | Master Degree Studies | 6 | The human resource management and leadership course presents the theoretical models of human resource management (HRM), stages and principles of HR strategy formation. The relationship between HRM strategies and organizational culture & business ethics is revealed. Issues of individual and collective behavior of employees are discussed. The aspects of group and team work in an industrial company, the formation and management of an innovation team, the issues of employee integration in the company, group, and team, as well as the manager's functions, role, and leadership competencies are examined. The concept of the phenomenon of leadership is presented, the differences between leadership and management and the relations of interaction are identified. While examining the theoretical aspects of leadership, leadership styles are overviewed, the principles of practical applicability of leadership competencies and skills are revealed. | To provide academic knowledge and abilities to apply human resource management and leadership in manufacturing practice, consultation activity, academic researches. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17168 | Ecological Design | Bachelor Degree Studies | 6 | The material properties of ecological assessment. Clean production process for the design of new facilities. Material and energy cost reduction in the production process. Device design optimization, reducing their performance and recovery costs. Understanding of the technical system, and the human role in it. Participation in laboratory works in all scheduled exercises is mandatory. Understanding about technical system and human role in it. Social result of automation. Automation influence to technologic processes. Peculiarities of design of technologic processes. Robots and their role in manufacturing. Automation of technologic processes. | Learn the rational use of material and energy resources in the design of new products that their operation would have the lowest impact on the environment, using the minimum amount of energy. To get knowledge about automation of technical systems and processes, to learn to analyze, to choose and to design the means of automation. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -25 Practical works -10 Laboratory works - 10 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17156 | Theory and Practice of Measurements (with course project) | Bachelor Degree Studies | 6 | Rudiment of metrology and measurement theory. The principles of statistical measurement theory. Transformation of measurement signals. Measuring instruments and methods. Measurement of process parameters. | To get acquainted with the theory and practice of measurements. General knowledge of the technologies required in mechanical engineering. knowledge of the laws of engineering mechanics, the principles of applied mechanics, designing of mechanisms, appliances, devices and apparatus, mathematical methods and laws applicable for description, analysis and designing of the objects of production in mechanical engineering. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -14 Practical works -10 Laboratory works - 10 Consultations -4 Individual work -122 Part-time, distance learning studies: Lectures -22 Practical works -10 Laboratory works - 10 Consultations -0 Individual work -118 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17350 | Design of Mechanical Systems (with course project) | Master Degree Studies | 12 | Mechanical elements, structure, principles of design, components of mechanical systems. Constituent parts of manipulators, their structure and composition principles. Determination of positioning accuracy. Direct and inverse kinematic problems of manipulators, the velocity problem, problems of static forces, dynamic problems. The mechanical systems, their execution systems and their strength calculations. Grippers and principles of their calculations. Sensors, control systems. | To get acquainted with the structure of mechanical systems, their constituent parts, methods of estimation of the mechanical part of system during the analysis of mechanical system operation. To get acquainted with simulation of mechanical systems.To get acquainted with the structure, principles of their creation, calculations, which are peformed during the designing, sensors used in systems, actuators, control systems. To present information. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -15 Individual work -245 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17357 | Innovation Strategy and Tactics | Master Degree Studies | 6 | At the end of the course, students will get knowledge on innovation development and its impact on society and economic growth. They will learn the basics of firm theory; will understand innovation in the context of digital economy development, relationships between innovation and R&D. The students will also learn linear and nonlinear innovation development models such as Stage-gate, Toyota/Oobeya, Design thinking, System innovation, technological products development methods and will obtain the skills how to use them for innovation development. The module presents innovation development strategies, concept of open innovation, crowdsourcing, networking, creativity flow theory for innovation development, ideas generation and evaluation methods, the Progress principle. The students will learn how to develop product innovations, to prepare innovation projects and to create prototypes. | The course aims to provide students with the knowledge and skills necessary for innovation development. Students will learn patterns and peculiarities of innovation management, will be able to analyze innovation activities, open innovation processes, and will be able to develop organization's innovation strategy and perform tactical solutions. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17109 | Elements of Mechatronics | Bachelor Degree Studies | 3 | Overview of elements of mechatronic systems, main their types. Properties of elements of mechatronic systems having different physical nature. Drives ant their systems, power elements. Sensors - from physical properties to data. Mechanical and structural elements. Definition of parameters of elements using theoretical and experimental methods. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | Introducing students with elements of mechatronic systems and their interaction. Joint of components of different physical nature to united mechatronic systems. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -8 Practical works -0 Laboratory works - 8 Consultations -8 Individual work -56 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB17112 | CAD/CAM/CAE | Bachelor Degree Studies | 6 | Overview of computer aided design and manufacturing. Computer aided design (CAD) and computer aided manufacturing (CAM) components, hardware and software. Concept of CAD: three-dimensional (3D) modeling, virtual modeling, integrated quality control. Interface between CAM and CAD. Fundamentals of CAM. Computer aided engineering. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | Implementation of modern 3D systems for geometric form generation, construction parameters analysis and preparation of computer aided manufacturing. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -12 Laboratory works - 0 Consultations -8 Individual work -130 Part-time, distance learning studies: Lectures -22 Practical works -16 Laboratory works - 0 Consultations -0 Individual work -122 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM17351 | Engineering Ecology | Master Degree Studies | 3 | Theoretical basics of engineering ecology. The conception of ecosystems and their interrelations. Energy in ecosystems and laws of ecosystems. Links and contrapositions of population ecology and engineering ecology. The criteria of ecological safety. Ecological expert's examination of projects. Methodology of assessing the environmental impact of anthropogenic activities. | Introduction to natural and anthropogenic ecological systems, their properties and the peculiarities of their interrelations. Learning to assess individually the efficiency of environmental protection measures and to settle technical problems upon the minimum environmental impact. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -50 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17162 | Control of Mechatronic Systems | Master Degree Studies | 6 | Continous time and discrete time systems, control algorithms, direct and closed loop control, system analysis, Laplace, Fourier and "z" transforms, signals, adaptyve control, neutral networks, computer based data acquisition and control devices. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To give knowledge on mechatronical systems control theory, signals and control implementation using computer (controler) based data acquisition and control systems, to explain the methods of control systems analysis and synthesis, to give knowledge on adaptyve control systems and neural networks. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 Part-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -10 Individual work -105 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSM17159 | Diagnostics in Mechatronics | Master Degree Studies | 6 | Provides information about the structure of mechatronics systems, methods of structurw investigation and diagnaostics of failures. Provides an overview of diagnostic equipment, introduces the circumstances of potential fault location of mechatronic systems. A description of the course of diagnostic testing of mechatronic systems is provided. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To deliver knowledge about structure of mechatronic systems, to introduce with diagnostic equipment and their implementation methods of such systems. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -10 Individual work -105 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB17239 | Equipment Assembly Technologies | Bachelor Degree Studies | 3 | Fundamental of accuracy achievement in assembly. Methods of assembly organization. Technological preparation. Division of an equipment into units, junctions, subjunctions. Assembly and control of typical connections and junctions. Mechanisation and automatization of assembly works. Comparison of ekonomical efficiency of clifferent processes of assembly. Participation in practical works at least 60% of the scheduled exercises is mandatory. | To provide knowledge of various equipment assembling technologies as well as devices and means usable. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -42 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -0 Individual work -50 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM20101 | Reliability of Mechanical Systems | Master Degree Studies | 6 | Object of the reliability theory, main conceptions and definitions. A methodology of the reliability theory. Basic probabilistic and statistical (empirical) indexes of the reliability of the mechanical systems and basic random variables. Calculations of these indexes. Calculation of reliability of the complex repairable and non-repairable technical systems. Reliability of the structural elements and main calculation methodologies. | To obtain acquainted with the reliability theory science, its purposes, methods of estimation of technical objects reliability, of the reliability improvement ways. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -15 Individual work -115 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKM20201 | Theory of Engineering Experiment (with course work) | Master Degree Studies | 6 | Engineering experiment, errors and uncertainties of experiment, selection of variables, continuity of experiments and plan of experiment, statistical analysis of data, computer packages, control and analysis of experiment. | To acknowlege with fundamentals of experiment planing, give knowledge about correlation of the real experiment and theoretical generalization and also about computerized data processing. To acquire the competence to compare theoretical and experimental results. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -15 Individual work -115 |
| Faculty of Mechanics | Department of Biomechanical Engineering | MEBIB20035 | Design and Manufacturing of Orthopedic Equipment | Bachelor Degree Studies | 6 | During this course, design and manufacturing of orthopedic equipment are analyzed. Course introduces orthopedic disorders and their diagnostic methods, classification of orthopedic equipment, its manufacturing stages, tools, machinery and materials used in manufacturing process. Students are required to complete all scheduled laboratory work. | To provide knowledge about design and manufacturing of orthopedic equipment. To develop ability to use this knowledge while applying, designing or manufacturing such equipment to people with different orthopedic disorders. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -0 Individual work -100 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB21201 | Tools and Technologies of Applied Artificial Intelligence | Bachelor Degree Studies | 6 | The advancement of digital technologies in the context of the fourth industrial revolution is largely driven by artificial intelligence (AI) as a key technology. The abundance of data, powerful algorithms, and the significantly more powerful field of computing and the Internet of Things (IoT) are influencing social and political aspects of life. Mechatronic systems, robotics, digitization are significantly changing and will continue to change various aspects of our lives. This Applied Artificial Intelligence Tools and Technologies course will cover the fundamentals of AI, the tools used to achieve human-specified goals with some autonomy of action. This course is a comprehensive undergraduate introduction to artificial intelligence, covering the context of fields such as technology, ethics, law, statistics, economics, technology and the social sciences, with touches on the arts, natural sciences, medicine and health sciences. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To introduce various technologies applied to artificial intelligence, to learn how to apply various advanced reinforcement learning algorithms, tools (such as TensorFlow, Caffe, Keras, PyTorch, Auto ML, H20: Open-Source AI Platform, etc.) to any problem | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB21402 | Design and Analysis of Applied Artificial Intelligence | Bachelor Degree Studies | 9 | This module provides a comprehensive introduction to deep learning, a subfield of artificial intelligence that involves the use of neural networks to learn and make decisions. The module begins with an overview of linear models, which are used to make predictions based on a set of input variables. It then introduces the concept of information and maximum likelihood, which are used to estimate the parameters of a statistical model. Next, the module covers logistic regression, a widely used statistical technique for predicting the probability of an event. It also covers modular backpropagation, a method for training neural networks by adjusting the weights and biases of the network in response to errors in the output. In addition to these foundational concepts, the module also explores more advanced topics such as convolutional neural networks, which are used for image recognition and processing; max-margin learning, a method for training support vector machines; and recurrent neural networks, which are used for tasks involving sequential data. The module also covers the use of game theory in deep learning, as well as best practices for designing and implementing neural networks. It concludes with a discussion of variational autoencoders and image generation, as well as the use of deep reinforced learning and neuro-dynamic programming in artificial intelligence. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | The aim of this module is to provide a comprehensive introduction to deep learning, including both foundational concepts and advanced topics. It covers a wide range of techniques and applications. Through this module, students will gain a strong foundation in deep learning and be well-prepared to tackle more advanced topics in the field. | Full-time studies: Lectures -45 Practical works -30 Laboratory works - 0 Consultations -6 Individual work -159 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB21401 | Systems and Devices of Applied Artificial Intelligence (with Course Project) | Bachelor Degree Studies | 9 | The Systems and Devices of Applied Artificial Intelligence course explores the intersection of artificial intelligence and mechatronics. It aims to equip students with the knowledge and skills required to design, develop, and implement intelligent systems and devices that integrate with mechanical and electrical components. Mechatronics, which is the combination of mechanics, electronics, and computer science, plays a crucial role in the implementation of intelligent systems. The course delves into the fundamentals of mechatronics, including sensors, actuators, control systems, and signal processing. It also covers various topics related to artificial intelligence, including machine learning, computer vision, natural language processing, and robotics. The main aim of the course is to provide students with a comprehensive understanding of the theoretical and practical aspects of integrating artificial intelligence and mechatronics. Students will learn how to apply artificial intelligence techniques to real-world problems in various fields, including manufacturing, healthcare, transportation. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | The aim of this course with a course project is to provide students with an opportunity to apply the knowledge and skills they have acquired throughout the course to a practical project. The course aims to enable students to design, develop, and implement an intelligent system or device that integrates with mechanical and electrical components, utilizing the concepts and techniques of artificial intelligence and mechatronics. The course project provides a platform for students to apply their theoretical knowledge to real-world problems, to gain hands-on experience with the tools and technologies used in the industry, and to develop critical thinking and problem-solving skills. It also helps students to develop teamwork, communication, and project management skills, as they work collaboratively with their peers to complete the project within the given timeline and budget. The aim of the course project is to enable students to gain practical experience in the integration of artificial in | Full-time studies: Lectures -45 Practical works -30 Laboratory works - 15 Consultations -6 Individual work -144 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB21601 | Machine Learning (with Course Project) | Bachelor Degree Studies | 6 | This comprehensive course on machine learning is designed for beginners who want to develop a solid foundation in the field. The course covers a wide range of topics, from the basics of machine learning, to pre-processing and feature selection, to building different types of models, and even delving into advanced topics like natural language processing. Each lesson provides a clear explanation of the topic, followed by examples and exercises to reinforce the concepts learned. The course also emphasizes the importance of evaluating and validating models, as well as best practices and tips for success. By the end of the course, students should have the skills and knowledge necessary to apply machine learning algorithms to real-world problems and continue their studies in the field. Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | The aim of this course is to provide beginners with a comprehensive understanding of machine learning, including its different types, pre-processing and feature selection, building models, and advanced topics. By the end of the course, students should be able to apply machine learning algorithms to real-world problems and have a solid foundation for further study in the field. The course also emphasizes the importance of evaluating and validating models, as well as best practices and tips for success, to help students develop a complete skillset in the field. Ultimately, the goal of this course is to provide students with the knowledge and skills necessary to become proficient in machine learning and begin applying it to solve real-world problems. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB21602 | Analysis and Reliability of Technical Solutions | Bachelor Degree Studies | 6 | The module introduces the methods of technical solution analysis and reliability assessment. The concept of quality and artificial intelligence based methods of its assurance is introduced as well | The module aims to introduce the methods used to analyse technical solutions and to introduce practices of mechatronic and robotic systems research and their reliability assessment Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB22401 | 3D, Laser and Another Manufacturing Technologies | Bachelor Degree Studies | 3 | Materials processing technologies: cutting (turning, milling, drilling, deepening, expansion, threading, scraping, abrasive processing, etc.), deformation processing (stamping, rolling, pressing, etc.), casting technologies; processing of concentrated energy - laser cutting, drilling, welding, hardening, electron beam processing, magnetic and electromagnetic fields technologies; processing of water and abrasive jet, magnetically abrasive treatment, ultrassonic technologies, electroerosol treatment; electroplating, electro-hydraulic impact and other technologies. Participation in practical works at least 60% of the scheduled exercises is mandatory. | To acquire knowledge about traditional mechanical and non-traditional and innovative materials processing technologies. Form the ability to correctly select materials and production technologies, to get to know some of the processing operations in practice. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -14 Practical works -12 Laboratory works - 0 Consultations -0 Individual work -54 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB22604 | Design of Tools and Devices (with course work) | Bachelor Degree Studies | 6 | Design of cutting tools. Calculation and design of specialized cutting-edged tools. Characteristics and use of abrasive tools. Design schemes of specialized devices, their use, design elements of devises, calculation and design of devices, accuracy securing. | Acknowledge with design schemes, materials, use, calculation and design of tools and devices, theory of their quality achievement. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -25 Practical works -10 Laboratory works - 10 Consultations -0 Individual work -115 |
| Faculty of Mechanics | Department of Mechanical and Material Engineering | MEMKB22603 | Machines of Energy Transformation | Bachelor Degree Studies | 3 | Heating systems using solar energy. Photo electricity and solar power plants. Wind power plants. Theory of flow machines. Steam and gas turbines. Hydraulic turbines. Thermodynamic processes bound with gas compression. Piston, rotary, screw compressors. Turbine compressors. The physical basics of creation of low temperatures. Compression refrigerating machines. Gas absorption refrigerating machines. Thermoelectric refrigerating equipment. | To provide knowledge of the principles of operation of various machines for energy transformation, the peculiarities of their structures, the opportunities of their use in various branches of industry and their integration in technological processes as well as the trends of their evolution. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -25 Practical works -12 Laboratory works - 10 Consultations -0 Individual work -33 |
| Faculty of Mechanics | Department of Mechatronics, Robotics and Digital Manufacturing | MERSB22402 | Engineering Programming | Bachelor Degree Studies | 6 | Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time. | To provide every major C++ language feature and the standard library facilities, to get understanding of the ideas presented in related lectures behind the language facilities, leading to mastery. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -0 Laboratory works - 6 Consultations -8 Individual work -138 |
| Faculty of Mechanics | Department of Biomechanical Engineering | MEBIB17033 | Medical Equipment | Bachelor Degree Studies | 6 | The course provides a comprehensive understanding of the fundamental principles, design, operation, and maintenance of various medical devices and equipment used in healthcare settings. This course delves into the technological advancements, safety protocols, and practical applications of a wide range of medical equipment utilized in diagnostic, therapeutic, and monitoring procedures. Students are required to complete all scheduled laboratory work. | Aims to equip students with an in-depth understanding of medical equipment components, characteristics, and applications, fostering their ability to analyze, operate, and maintain diverse medical devices within healthcare environments. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMB17105 | Numerical Analysis of Structures - BIM 2 | Bachelor Degree Studies | 3 | Calculation and application of nodal displacements and internal forces of structures using the finite element method based on the principle of minimum total potential energy. Analysis and structures optimization of elastic displacements and internal forces using mathematical modeling packages. Students must attend at least 70% of the time scheduled practical exercises. | To give knowledge about finite element method. To research design of bar structures displacements and internal forces by finite element method. To give knowledge about solution of various mathematical, mechanical and engineering problems using special software. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -20 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -46 |
| Faculty of Civil Engineering | Department of Steel and Composite Structures | STMEM17075 | Master Graduation Thesis | Master Degree Studies | 30 | 1st version- for research deviation of final work: literature analysis. Theoretical investigation - analysis of existing calculation methods. Experimental part - experimental investigation of chosen structure. Practical calculations. General conclusions and recommendations. Preparation and presentation of paper for scientific conference. Preparation of powerpoint material for defensive of the final work. 2nd version- for designing deviation of final work for principal structures of the chosen building: analysis and selection of possible structural solutions. Modelling of 2-3 principal structural versions and their technical and economic background and comparing. Selection of main structural version, correction of the model and analysis. Calculation and detailing of main structural components. Joint designing. Technological and economic evaluation. Development of working project. Preparation of powerpoint material for defensive. | Generalization and synthesis of knowledge and abilities gained during the study. | - |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMB17058 | Mechanics of Materials 2 | Bachelor Degree Studies | 6 | Deflection of beams. Techniques for determining beam displacements. Statically indeterminate beams. States of stress and strain. Strength and plasticity hypothesis. Strength of structural elements under compound stresses. Stresses in a thin-walled pressure vessels. Stress concentration. Contact stresses. Stability of columns. Buckling. Influence of dynamic loadings. Variable stresses. Fatigue. Brittle fracture of cracked elements. Experimental investigations of stress and strain of elements subjected to various loadings. Students must attend at least 70% of the time scheduled practical exercises and 100% laboratory works. | To provide knowledge of engineering methods for calculation strength and stiffness of structural elements subjected to compound stresses. To train up the potency of application of these methods by oneself. To develop the potency to analyse the mechanical peculiarities of structural elements under specific loadings. To prepare for the studies of the mechanics of various structures. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -18 Practical works -10 Laboratory works - 6 Consultations -4 Individual work -122 Part-time, distance learning studies: Lectures -16 Practical works -14 Laboratory works - 8 Consultations -0 Individual work -122 |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMB17053 | Mechanics of Materials | Bachelor Degree Studies | 6 | The study module is intended to provide professional knowledge and understanding of engineering methods for calculating the strength, stiffness and stability of structural members. By studying this module, students will acquire theoretical knowledge and practical skills about the methods of calculating the stiffness of beams, the methods of calculating internal forces, stresses and strains in case eccentric tension-compression, oblique bending, bending with rotation and other types of combined loading, will be able to evaluate the buckling of compressed elements as well as. Also, students will be introduced to the calculation of structural members under dynamic (incl. cyclic) loading, as well as the basics of fracture mechanics. Students must attend at least 70% of the time scheduled practical exercises and 100% laboratory works. | To provide the knowledge and to develop the engineering skills for analyzing strength and stiffness of deformable elements subjected to combined loading and computing skills for analysis of rods subjected to specific effects, to prepare for the studies of structural design. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -8 Practical works -6 Laboratory works - 4 Consultations -20 Individual work -122 Part-time, distance learning studies: Lectures -26 Practical works -18 Laboratory works - 12 Consultations -0 Individual work -104 |
| Faculty of Civil Engineering | Department of Building Materials and Fire Safety | STGSB17062 | Human's Safety and Environmental Protection | Bachelor Degree Studies | 3 | The legal regulation of human safety is introduced. Natural, technogenic and work environment hazards are annalyzed. Mechanisms of impact on humans, ways and means of possible consequences reduction are discussed. Knowledge is provided about environmental pollution caused by human activity and consequences for global pollution. Occupational risk and environmental safety management is analyzed. Students are required to complete all scheduled laboratory work. | To provide knowledge and develop skills to be able to analyze problematic situations and look for alternative solutions, assessing possible social and environmental consequences, to familiarize with the solution of safety problems. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -20 Practical works -0 Laboratory works - 12 Consultations -2 Individual work -46 |
| Faculty of Civil Engineering | Department of Building Materials and Fire Safety | STGSB17036 | Human's Safety and Environmental Protection | Bachelor Degree Studies | 3 | Natural and technogenic hazards, their nature, mechanisms of impact on humans and possible consequences of exposure are examined. Knowledge of reducing the consequences of exposure to humans is provided. Environmental pollution caused by human activity, its sources and consequences of global pollution are analyzed. Knowledge of ways and means of reducing environmental pollution is provided. Students are required to complete all scheduled laboratory work. | To provide knowledge and develop skills to be able to analyze problematic situations and look for alternative solutions, assessing possible social and environmental consequences, to familiarize with the solution of safety problems. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -8 Practical works -0 Laboratory works - 8 Consultations -2 Individual work -62 Part-time, distance learning studies: Lectures -16 Practical works -0 Laboratory works - 10 Consultations -0 Individual work -54 |
| Faculty of Civil Engineering | Department of Building Materials and Fire Safety | STGSB17174 | Materials Science and Building Materials | Bachelor Degree Studies | 6 | Loads of various purpose products are used in building construction, each of them made from different raw materials using specific manufacturing processes. Produced products are characterized by unique properties. These properties are determined using standardized and reliable methods. Considering all of this: product properties, purpose, end-user's expectations, building materials are used for various purpose building construction and good health creation. Obtained knowledge and skills will help to not get lost in the vastness of available information and make reliable decisions when working in the building industry. Students are required to complete all scheduled laboratory work. | Introduce students to products manufactured for building construction, introduce them to their structure, production principles and properties, as well as an understanding of the main methods used to study products and the ability to apply these products in construction according to their purpose. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -26 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -100 |
| Faculty of Civil Engineering | Department of Steel and Composite Structures | STMEM17148 | Integrated Computer Aided Structural Design (BIM) (with course project) | Master Degree Studies | 9 | Modeling of steel and timber frame and panel-type buildings using different finite elements soft-wares, such as Dlubal RFEM, Robot and etc. Automated finite elements design of steel and timber structures. Finite element analysis of Cross laminated timber (CLT) buildings. Computer based analysis of semi rigid connections and its implementation for the whole static model of the building. | To teach students to use computer based methods in the design of steel and timber structures. | Full-time studies: Lectures -15 Practical works -0 Laboratory works - 45 Consultations -0 Individual work -180 |
| Faculty of Civil Engineering | Department of Steel and Composite Structures | STMEM17150 | Structures for Composite Steel and Concrete Buildings | Master Degree Studies | 6 | Scope, definition, utilization and efficiency of composite structures, materials and properties. Stress - strain state of composite members and methods of its analysis. Peculiarities of behavior and design of composite structural members and joint connections in normal and fire situation. | Student will understand main peculiarities of behavior and design of steel - concrete composite structures. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMB17040 | Application Software for Mathematics | Bachelor Degree Studies | 6 | Systems of computer mathematics. Symbolic computations. Manipulations on mathematical expressions. Tools for solution of mathematical analysis' problems. Statements and expressions. Vectors and matrices. Solution of equations and non-equalities. Tools for processing of experimental data. Mathematical statistics. Programming, programming styles. Algorithms. Programming of selectional algorithms. Programming of looping algorithms. Functions and procedures. Input/output, files. Graphical means. Debugging. Coding is executed in syntax of Maple, Mathematica, Mathcad, Matlab and wxMaxima. Students must attend at least 80% of the time scheduled laboratory works. | To acquaint students with computer mathematics' systems (CMS) and their coding capabilities. To learn students coding in CMS, testing and documenting the programs. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 30 Consultations -4 Individual work -96 |
| Faculty of Civil Engineering | Department of Construction Management and Real Estate | STVNB17303 | Technology of Construction Processes | Bachelor Degree Studies | 6 | Knowledge on technology of construction processes is provided; construction phases, approaches and processes are analysed, technology of construction processes and its relationship with other disciplines, evolution of construction and its future; types of piles and deepening forms, hammering piles and ensuring their quality, installation of wringing pits, works withmoulds; reinforcement forms, their connection principles, their products, reinforcement of not tightened constructions, tightening of reinforcement, reinforcement of prestressed constructions, production of, feeding of concrete mix to falsework and consolidation of concrete mix. Students must attend at least 60% of practical works at the scheduled time. | Providing information on construction technology and developing skills of practical application of the acquired knowledge. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time, distance learning studies: Lectures -26 Practical works -24 Laboratory works - 0 Consultations -4 Individual work -106 |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMB17055 | Mechanics of Materials | Bachelor Degree Studies | 6 | General principle, hypothesis, assumption, conception. Tension and compression. Geometrical properties of cross sections. Shear. Torsion. Bending. Fundamentals of stress-strain state. Compound stresses. Dynamic and cyclic loading. Understanding of buckling and cracking. Students must attend at least 70% of the time scheduled practical exercises and 100% laboratory works. | To give knowledge and acquaint with engineering methods for simple strength and stiffness problems | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 6 Consultations -8 Individual work -130 |
| Faculty of Civil Engineering | Department of Building Materials and Fire Safety | STGSB17037 | Human's Safety | Bachelor Degree Studies | 3 | The legal regulation of human safety is introduced. Natural and technogenic hazards, their nature, mechanisms of impact on humans and possible consequences of exposure are examined. Knowledge of reducing the consequences of exposure to humans is provided. The management of professional risk is analyzed. Students are required to complete all scheduled laboratory work. | To provide knowledge and develop skills to be able to analyze problematic situations and look for alternative solutions, assessing possible social and environmental consequences, to familiarize with the solution of safety problems. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -4 Practical works -0 Laboratory works - 6 Consultations -8 Individual work -62 |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMM17132 | Mechanics of Continual Structures | Master Degree Studies | 6 | General information of curved surface theory. Generalized surface stress and strain state structural member. Main equations of geometrical linear and nonlinear structures in curvilineared coordinat system.Design models and algorithms for various types of shells. Structure on deformable soil design theory. Mechanical models for basement and mathematical equations. Extreme energy principles and mathematical models. Calculating algorithms of structures on deformable basement. | To explain mathematical models of structures on elastic basement. General theory of continual structures (plates, shells) stress strain design subjected by external loading. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Civil Engineering | Department of Building Materials and Fire Safety | STGSB17044 | Human's Safety and Environmental Protection | Bachelor Degree Studies | 3 | Human safety conception, meaning and tasks. Management of work safety. Legal reglamentation of human safety. Man and environment. Atmosphere pollution and protection. Waters pollution and protection. Wastes. Risk management. Occupational stress and management. Ergonomics, general principles. Electrical safety. Fire protection. Evacuation from buildings. | To provide knowledge on occupational safety legislation and principles of occupational safety and health, environmental protection, ergonomics and civil protection. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 15 Consultations -2 Individual work -33 |
| Faculty of Civil Engineering | Department of Construction Management and Real Estate | STVNB17311 | Building Construction Technology and Organization | Bachelor Degree Studies | 3 | Effective construction organizing and management, legal regulation of construction, principles of technological documentation, arranging building design, principles of calendar and network scheduling, streamlined approach to construction management, specialization and consistency of construction works, drawing up project of construction organization, engineering site preparation, supplying construction with resources, construction mechanization and management. Efficent preparation of construction site and safety of workers on site solutions. Questions regarding general design principles, management of construction quality, organization of construction companies and scheduling their work are discussed in background of efficient solutions of construction organization. Students must attend at least 60% of practical works at the scheduled time. | To provide general knowledge about efficient building construction technology and construction management. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -31 |
| Faculty of Civil Engineering | Department of Applied Mechanics | STTMB17042 | Engineering Mechanics | Bachelor Degree Studies | 6 | This course provides a comprehensive study of mechanics, focusing on the fundamental principles and concepts. It covers the object of mechanics, including idealizations and the fundamental axioms, laws, and notions that form the basis of this field. The course explores particles, rigid bodies, and mechanical systems, as well as the concepts of force, couple, moment, and link. It delves into forces in both two-dimensional and three-dimensional space, emphasizing the importance of free-body diagrams. The equilibrium of particles and rigid bodies is examined, along with the consideration of distributed loads and the concept of the gravity center. The course also covers the topic of friction.In addition to statics, the course introduces the basic principles of kinematics, including velocity, speed, acceleration, and path. Equations of motion are discussed, and the study progresses to kinetics, addressing the motion of particles and rigid bodies. Differential equations of motion are explored, along with the fundamental theorems of kinetics. The course also provides an introduction to analytical mechanics. To successfully complete the course, students are required to attend a minimum of 70% of the scheduled practical exercises. This ensures active engagement and practical application of the concepts learned throughout the course. | Studying mechanics involves gaining a deep understanding of various aspects. Firstly, it is important to grasp the fundamental principles of statics and dynamics, which govern the behavior of mechanical objects under the influence of forces. By exploring the general notions of mechanics and employing solution methods for statical, kinematical, and dynamical problems of rigid body mechanics, one can develop the necessary skills to solve practical problems in this field. Acquiring knowledge about the behavior of mechanical objects under known boundary and initial conditions is crucial in this process. By approaching mechanics in a systematic and study-oriented manner, one can effectively acquire and assimilate the required knowledge. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -14 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -130 Part-time, distance learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -0 Individual work -120 |
| Faculty of Transport Engineering | Logistics and Transport Management Department | TILTB16717 | Transport Management (organization) (with course work) | Bachelor Degree Studies | 6 | Transport management (organization) subject module is designed to provide students with theoretical knowledge about the structure of transport system and its functioning peculiarities. Transport business organization, planning and management. To familiarize students with separate modes of passenger and freight transportation technologies; to ascertain the impact of transport management on economic and social life. To provide practical skills connected with transport business, legislation, reduction of damaging outcomes of Transport activities. | Provide theoretical knowledge and practical skills about Transport system and functioning of its separate elements. Provide knowledge about organization of diverse activities within Transport Enterprises in order for students to become marketable in Transport Service Business upon completion of their studies. | Full-time studies: Lectures -45 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -16 Practical works -6 Laboratory works - 0 Consultations -4 Individual work -134 |
| Faculty of Transport Engineering | Department of Automobile Engineering | TIAIM17105 | Road Vehicle Safety (with course project) | Master Degree Studies | 9 | The active and passive vehicle safety. Driver's working place. Vehicle stability. Reliability of vehicle body construction. Modern transport traffic safety assurance systems. Students must attend at least 60 percent of the exercises during the scheduled time. | To acquaint students with the vehicle active and passive safety, define the basic vehicle safety determining measures, provide the theoretical basis for the design of individual systems on traffic safety. | Full-time studies: Lectures -45 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -180 |
| Faculty of Transport Engineering | Department of Mobile Machinery and Railway Transport | TIMGB17120 | The Elements of Transport System | Bachelor Degree Studies | 3 | Students seeking a Bachelor's degree get the information about all transport facilities, their functions and essential differences as well as their role in economic development of the state and the trends of improvement associated with their integration into the international transport system. The elements of the infrastructure of automobile roads and railway transport, their functions, structure, the required properties, the main principles of choosing optimal parameters and calculation methods as well as their role in transportation are studied Students must attent at least 60 percent of the practical exercises during the scheduled time. | To provide the students with the fundamentals of the roads for land transport, the required properties, the parameters of their elements and the effect on traffic, which are required for complex evaluation of the interaction between the material elements of vehicles and quality of transportation | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -62 Part-time, distance learning studies: Lectures -14 Practical works -8 Laboratory works - 0 Consultations -3 Individual work -55 |
| Faculty of Transport Engineering | Department of Automobile Engineering | TIAIB17058 | Vehicles Design | Bachelor Degree Studies | 6 | Available a historical overview of car components, its development, types currently in use, schemes, analysis of construction and operation. Further there are analysed their structure, interaction and operation, reviewed their characteristics and design. The presented material is aplenty illustrated with figures, diagrams and graphs. Students must complete at least 80 percent of the laboratory work in the time provided in the schedule. | Analysis of the main units of automobiles, their destination, classification, structure and working peculiarities. Develop skills to apply this knowledge to the selection of main car components and assemblies. Design and calculations of their main units and parts. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -16 Practical works -0 Laboratory works - 6 Consultations -4 Individual work -134 |
| Faculty of Transport Engineering | Department of Mobile Machinery and Railway Transport | TIMGB17121 | Vehicle Mechanics (with course project) | Bachelor Degree Studies | 6 | Main mechanical elements and gears of vehicles are investigated. Calculation examples of different elements and gears are presented. Students must attend at least 75 percent of the practical exercises during the scheduled time. Students must complete at least 80 percent of all laboratory work in the time provided in the schedule. | Indtroduction to the transport mechanisms and gears, the principles of functioning of mechanisms, calculation and selection methods. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 6 Consultations -4 Individual work -134 |
| Faculty of Transport Engineering | Department of Automobile Engineering | TIAIB17053 | Automotive Theory | Bachelor Degree Studies | 6 | The purpose of car theory. The forces acting on the car. Vehicle dynamics. Vehicle steerability. Vehicle stability. Vehicle cross-country ability. Vehicle exploitation economy. Students must complete at least 80 percent of the laboratory work in the time provided in the schedule. | To familiarize students with the forces operating in a moving car, the traction, braking, manageability, stability, uniformity of the movement, fuel economy and exploitation features. | Full-time studies: Lectures -45 Practical works -0 Laboratory works - 15 Consultations -4 Individual work -96 Part-time studies: Lectures -16 Practical works -0 Laboratory works - 6 Consultations -4 Individual work -134 |
| Faculty of Transport Engineering | Department of Mobile Machinery and Railway Transport | TIMGB17031 | Technologies of Vehicle Production and Repair | Bachelor Degree Studies | 3 | Basics of technologies of vehicles production and repair. Typical and special technologies in production and repair of vehicles' parts. Students must attend at least 60 percent of the practical exercises during the scheduled time. | Consistent patterns of technological processes and basics of their formation. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -10 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -62 |
| Faculty of Transport Engineering | Department of Mobile Machinery and Railway Transport | TIMGB17119 | Design Fundamentals | Bachelor Degree Studies | 3 | The information about the process of design, its stages and general methods of product design, construction and assessment as well as the unified system of product construction documentation is provided. General knowledge about standards, innovative activities and patents is given. Students are also acquainted with modular building and computer design of products. Students must attend at least 60 percent of the practical exercises during the scheduled time. Student must complete at least 80 percent of all laboratory work in the time provided in the schedule. | To acquaint the students with the main product design stages, general methods for designing and assessing products, the unified system of product construction documentation, standards and innovative activities. | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 15 Consultations -2 Individual work -33 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 4 Consultations -2 Individual work -62 Part-time, distance learning studies: Lectures -12 Practical works -10 Laboratory works - 0 Consultations -6 Individual work -52 |
| Faculty of Transport Engineering | Department of Automobile Engineering | TIAIM17106 | Researches of Internal Combustion Engines | Master Degree Studies | 6 | Standards of internal combustion engines (ICE) and statistical processing of results. Fuel properties determination by experimental and numerical researches. Principles of ICE numerical model design and combustion process analysis in spark ignition and compression ignition engines. Analysis of efficient and ecological ICE parameters and prediction using numerical simulation. Students must attend at least 60 percent of the exercises during the scheduled time. | Provide knowledge about determination possibilities of ICE efficient and ecological parameters during ICE experimental and numerical simulation researches. Analyze biofuel and alternative fuel characteristics, engine systems and mechanisms influence for ICE efficient and ecological parameters. Present main numerical analysis methods of ICE working process, which are designed for simulation and forecast purpose of qualitative ICE parameters. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -115 |
| Faculty of Transport Engineering | Department of Mobile Machinery and Railway Transport | TIMGB17030 | Energetics of Heat Engines | Bachelor Degree Studies | 6 | Technical thermodynamics. Labor body. Thermodynamic existence. Ideal and real gases. Gas mixtures. Thermodynamic process. The first law of thermodynamics. Specific heat. Basic thermodynamic processes. Thermodynamic cycles. The second law of thermodynamics. Heat engine cycles. Heat engine cycle performance. The realization of heat engine cycles in structures. Regulariteis of heat Exchange. Students must attend at least 60 percent of the practical exercises during the scheduled time. | To acquaint students with the technical concepts and consistent patterns of thermodynamics: thermodynamic consistent patterns of existence; consistent patterns of ideal and real gases and their mixtures; consistent patterns of thermodynamic processes; the first and second laws of thermodynamics; the concept of specific heat, definitions and characteristics of main thermodynamic processes; heat engine cycles and their characteristics; peculiarities of the heat engine realization in constructions. | Full-time studies: Lectures -45 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -16 Practical works -6 Laboratory works - 0 Consultations -4 Individual work -134 |
| Faculty of Transport Engineering | Department of Automobile Engineering | TIAIB17054 | Automotive Theory (course work) | Bachelor Degree Studies | 3 | Evaluation of forces acting on the car. Creation of the traction power dependence on car speed. Calculation of resistances to car motion. Calculation of the car dynamic factor and car acceleration. Creation of the power balance. Calculation of car stability. Creation of dependencies of the car braking distance and braking time on speed. Evaluation of efficiency of the car fuels. Students must attend at least 60 percent of the exercises during the scheduled time. | To learn to apply self-dependently the obtained theoretical knowledge, which is necessary in practical use for solution of the car theory problems, to be able to evaluate forces, acting the car in motion, to be able to calculate them and to analyse the created dependencies. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -0 Practical works -14 Laboratory works - 0 Consultations -2 Individual work -64 |
| Faculty of Business Management | Department of Law | VVTEB16401 | Copyright Law | Bachelor Degree Studies | 3 | The module involves the exploration of copyright rights and related rights among other types of intellectual properties, development of copyright law and its sources in Lithuania and other countries, the peculiarities of different types of copyrights and related rights, their subjects, objects, protection and the responsibility of copyright law infringements. Students must attend at least 60 % of the time scheduled exercises. | To provide students with the comprehensive knowledge on copyrights and related rights, as one of the types of intellectual property while dealing with the legal framework in Lithuania and other countries, to acquire skills to analyze the theoretical and practical problems in the copyright law and to expand students' capacity for self-absorption in this field. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -3 Individual work -32 Part-time studies: Lectures -8 Practical works -4 Laboratory works - 0 Consultations -3 Individual work -65 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB17603 | International Finance | Bachelor Degree Studies | 3 | Multinational Finance course analyses the principles how the international financial systems function, its importance, benefits and risk, as well as discloses its development trends, the role of the multinational finance managing the cross-border financial flows, extends the risks of currency exchange rate fluctuations, its trends, presents up-to-date knowledge of nowadays global financial system, market functioning and development, explains the role of the international financial institutions in the financial markets, as well as overviews fundamental and technical methods for corporate cross-border investments and investments into the financial markets, valuation. During the course, it is focused on development of practical and theoretical knowledge about the role of the multinational finance in nowadays modern and global world, as trends of the multinational finance system development, the role of the European monetary system and European monetary monetary union. Students must attend at least 60 % of the time scheduled exercises | The aim of the course is to teach students to understand the principles of functioning of the multinational financial system, its importance, benefits and risks, development trends, the role of the multinational finance managing the cross-border financial flows, be able to valuate the currency exchange rate fluctuation factors and trends, understand corporate cross-border investments and investment into the financial markets and fundamental and technical methods for such investment valuation. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB16601 | Pricing | Bachelor Degree Studies | 6 | Pricing discipline deals with instruments (e. g. pricing strategies and methods, data collection, quantitative and qualitative data processing methods, computer technology for addressing pricing issues) which are used in decision making process for effective pricing. It focuses on pricing factors (e. g. customers, competitors, the organization's scope and cost, ethics and laws) and their evaluation particularities, what on specific, but constantly changing market conditions enable to maximize the sustainable development. Students must attend at least 60 % of the time scheduled exercises. | Be able to formulate price policy and strategy adequate to the business general objectives and choose the justify main solutions for business. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -14 Practical works -14 Laboratory works - 0 Consultations -4 Individual work -128 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB16606 | Financial Markets and Institutions | Bachelor Degree Studies | 3 | The course Financial Markets and Institutions deals with the structure of contemporary financial institutions, their peculiarities, role in the economy, process of financial intermediation, basic instruments of money and capital markets, the theory of interest rate. Students must attend at least 60 % of the time scheduled exercises. | To provide with theoretical and practical knowledge about the structure of financial institutions, peculiarities of money and capital markets, basic types of securities, their characteristics and ratios, the role of financial institutions in the economy. To endow ability to assess processes in financial markets, summarise results and to make economically reasonable investment decisions. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Business Management | Department of Economics Engineering | VVEIM17346 | Engineering Economics | Master Degree Studies | 6 | This course is for students which know the basic economic and financial program, so here are formulated problematic, dependent of the current technological developments questions: Is the new technological wave compatible with the current economic rules of the game? Does getting larger and long-term investment requiring technological modernization and unprecedented pace of growth in productive efficiency does not interfere with traditional market mechanisms? Trying to answer similar questions we must to access the main economic technical systems description models. Accounting principles and financial mathematics, alternative comparison theory creates economic analysis assumptions. These theories finding, counting and derived economic criteria in drawing up technical investment, industrial property renovation, depreciation methods of analysis and capital formation principles. Students must attend at least 60 % of the time scheduled exercises. | The main aim of module is to introduce master degree students with engineering solutions to the economic evaluation, developing the ability to use financial-economic performance criteria performance of engineering analysis and apply this knowledge in practice. | Full-time studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -10 Individual work -110 |
| Faculty of Business Management | Department of Management | VVVKB17163 | Management | Bachelor Degree Studies | 3 | During the course the following topics are covered: essence of management, basic concepts and their interpretations, evolution of management theories, cyber management model: subject and object of management. There is analyzed organization as a system (systemic view application), types of organizations, elements and environment of organization, establishment of organizations and organization' management types of structures. Also there are analyzed functions of management: planning, organizing, leadership and controlling, administrative and economic as well as psychological methods of management, manager role in the system of organization management, management' decisions' preparation and adoption principles, pay systems and motivation. There are disputed change and conflict management. Students must attend at least 60 % of the time scheduled exercises. | To form basis of methodological knowledge for organization management, and educate capabilities to apply an acquired knowledge in examining real professional situations. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -8 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -64 Part-time, distance learning studies: Lectures -16 Practical works -8 Laboratory works - 0 Consultations -0 Individual work -56 |
| Faculty of Business Management | Department of Economics Engineering | VVEIA17125 | Construction and Architectural Organizations Economy | Bachelor Degree Studies | 3 | The course of Construction and architectural organizations economy deals with construction industry, its structure and participants, types of organizations, the demand of services of construction and architectural organizations. The competition in construction industry is explored. The movement of labour force and its demand in the construction industry is analysed. Students are introduced to methods of wage calculations, demand of production resources, and methods of allocation of material and human resources. The course covers the fundamentals of planing and managing construction and architectural project, cash flows, evaluation of project payback, project budgeting and its management. The causes of corporate bankruptcies are analysed. Students must attend at least 60 % of the time scheduled exercises. | The aim of the course is to provide fundamental theoretical and practical knowledge about construction and architectural organizations, their activities, the peculiarities of the construction sector, allocation of material and human resources, finance planning and management as well as the organising, planning and managing projects. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Business Management | Department of Business Technologies and Entrepreneurship | VVTVB17087 | Entrepreneurship (with course work) | Bachelor Degree Studies | 6 | Entrepreneurship as learning subject provides possibility for students to obtain economic, managerial, and sociologic (theoretical and practical) knowledge about inception and development of enterprises. A wide spectrum of theoretical and practical approaches towards specifics of contemporary business: recognizing and evaluation new opportunities, designing business models, choosing financing sources and predicting modes of business closing. Various types of organizations, their alliances, business growth specifics in Europe and USA are being considered. Students must attend at least 60 % of the time scheduled exercises. | To provide integrated system of theoretical and practical knowledge of entrepreneurship, which would allow students to orient themselves better in national and international environment while incepting and developing business companies. Knowledge of entrepreneurship would let to solve urgent management and economic issues in order to maintain performance sustainability and efficiency of business companies. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 Part-time, distance learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 |
| Faculty of Business Management | Department of Business Technologies and Entrepreneurship | VVTVB17173 | Logistics | Bachelor Degree Studies | 6 | During the course, the concept and tasks of contemporary logistics are analysed, the place in the life of enterprise and society is described. Such aspects of logistics as client service, order processing, organization of transportation, inventory and warehouse management as well as management of material flows are introduced and relations between these aspects are analysed. Students must attend at least 60 % of the time scheduled exercises. | To prepare Bachelors of Business Management who would have integrated knowledge of business logistics management and knowledge related to other professional activity and be able to apply general and special abilities of business planning, organising, coordination and implementation in the private and public sector and to use them constructively in wide range of professional activity, to create and develop business, to be prepared for constant improvement through lifelong learning. | Full-time distance learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 Part-time, distance learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB17191 | Macroeconomics | Bachelor Degree Studies | 6 | During the course of Macroeconomics the following issues are analysed: national product, its structure and volume; aggregated supply, aggregated demand and factors influencing them; recession, inflationary phase and business cycles; fiscal and monetary policy and tools and measures for their implementation; unemployment and inflation; economic growth, international trade and its policy. Students must attend at least 60 % of the time scheduled exercises. | To provide students with the basic knowledge in macroeconomics and with competences to identify them and to apply in the practice. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 |
| Faculty of Business Management | Department of Management | VVVKB17181 | Management | Bachelor Degree Studies | 3 | During management course contains management substance, basic concepts and their interpretation. The course conveys evolution of management, identified management object and subjects, organisation elements and surroundings, administrative solutions cycle and their phases, economic, psychological, administrative management methods. There are analysed management functions: prognostication, planning, organization, accounting, control and analysis, as well as projecting of management structures and adaptation, leadership, horizontal and vertical communication, employee evaluation, remuneration and motivation, organisation establishment and control. Students must attend at least 60 % of the time scheduled exercises. | To form basis of methodological knowledge of management and educate capabilities of professional logical thinking. | Full-time studies: Lectures -24 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -42 Part-time, distance learning studies: Lectures -20 Practical works -12 Laboratory works - 0 Consultations -2 Individual work -46 |
| Faculty of Business Management | Department of Management | VVVKM17288 | Learning Organization (with course project) | Master Degree Studies | 9 | Subject of Learning organization examines the concept of the learning organization, its importance in business and management processes and decision-making, disclosed a learning organization attributes and properties and methods of how to determine whether an organization is learning. Also analyzes issues favorable for the development of a learning environment: recognition of differences, feedback ensuring the promotion of new ideas and recognition of errors. Analysis of the learning process: information acquisition, evaluation and application stages. Much attention is paid to the analysis of learning methods: exploration, research, monitoring, practical learning, reflection, experimentation. This will enable students to understand the basic principles of Learning organization, mastering the techniques specificity and understanding necessity of systematic methods for Learning organization's management. | To get theoretical knowledge of the Learning organization, its methodological principles, to develop skills of applying theoretical knowledge in practice, allowing to identify conditions and motives for Learning organization, to assess the development of Learning organization and it's economic benefits, to choose models of renewal the learning process in various levels of the organization, to encourage innovative processes. | Full-time studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -15 Individual work -185 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB17801 | Microeconomics | Bachelor Degree Studies | 6 | Microeconomics course examines households, businesses, industries and other independent decision-making activities of economic entities in the various economic systems and market structures, resources and income distribution problems, i.e., allocations of scarce resources to meet the alternative, competing public and business needs. Students must attend at least 60 % of the time scheduled exercises. | Develop an economic way of thinking: the micro-economic laws and their perception of performance, the ability to analyze and assess the various economic entities operating conditions, mechanisms and influencing environment, to apply the acquired knowledge into practice. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 |
| Faculty of Business Management | Department of Management | VVVKB17813 | Management | Bachelor Degree Studies | 3 | During the course the following topics are covered: essence of management, basic concepts and their interpretations, evolution of management theories, cyber management model: subject and object of management. There are analysed organization as a system (systemic view application), types of organizations, elements and environment of organization, establishment of organizations and organization' management types of structures. Also there are analysed functions of management: planning, organizing, leadership and controlling, administrative and economic as well as psychological methods of management, manager role in the system of organization management management' decisions' preparation and adoption of principles, its process, pay for work and motivation. There are disputed change and conflict management. Students must attend at least 60 % of the time scheduled exercises. | To enable students to form a theoretical management knowledge base and to develop practical abilities by analyzing the management processes in electronic engineering organization and choosing the effective ways of solving problems of the organization. | Full-time studies: Lectures -30 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -20 Practical works -0 Laboratory works - 0 Consultations -2 Individual work -58 Part-time, distance learning studies: Lectures -18 Practical works -0 Laboratory works - 0 Consultations -8 Individual work -54 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB20601 | International Economics | Bachelor Degree Studies | 3 | During the course of International Economics the following scientific areas are explored: concept development of modern international economics; variety of international economics theories and their application; main sectors of international economics and their peculiarities; specific phenomenon of international economics; international business; conception of international business; international trade; international finance; direct foreign investment; international economic cooperation; countries and international organizations role in regulating the international economics, markets, competition, national economics; challenges of international economics development; global economics, its challenges and priorities for development. Students must attend at least 60 % of the time scheduled exercises. | To provide knowledge about the international economics, its evolution and changes and to develop the ability to understand international trade theories and instruments of policy, to analyze the international factor movements of production, their links with international business development, to discuss and make decisions using theoretical knowledge and economic challenges. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Business Management | Department of Management | VVVKB20401 | Human Resources Management | Bachelor Degree Studies | 3 | The main of concepts of human resources management, the significance of the strategic human resource management in the context of the organization, the main preconditions of human resources management system organization and management are presented in the course of human resources management. Students must attend at least 60 % of the time scheduled exercises. | To form theoretical understanding of human resources management and to train to practically apply these skills. | Full-time distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -6 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -64 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB20601 | Financial Analysis | Bachelor Degree Studies | 6 | Purposes, sources and methods of financial analysis. Absolute and relative ratios. Ways of evaluation, comparison and forecasting of financial results. Methods of analysis of enterprises' financial condition, creditworthiness, operations. Students must attend at least 60 % of the time scheduled exercises. | To provide theoretical and practical knowledge about role of financial analysis in financial engineering and management system, about its essence and fundamentals. To provide theoretical and practical knowledge about application of financial analysis methods, interpretation and summary of their results. To provide abilities to evaluate and absorb results of financial analysis and their importance in enterprises preparing the evaluation of absolute and relative financial ratios. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB19807 | Processes of Globalisation | Bachelor Degree Studies | 6 | In the processes of globalisation course is analysed contemporary conception of globalisation; historical and cultural assumptions of globalisation processes; economical globalisation; political, social, economical, cultural, also ecological, technological, military, legal, informational features of globalisation processes; globalisation and regionalisation processes; contradictions, conflicts, problems arised due to contemporary globalisation circumstances; international economical relations development as reaction on globalisation challenges. specialised international economic organisations and their policies. Students must attend at least 60 % of the time scheduled exercises. | To impart knowledge about modern globalization processes and their impact on economic development, realization of societal needs and governance at the national and regional levels with emphasis on ecological issues and cultural differences, and hone skills needed to analyze and compare different periods of,globalization ,evaluate positive and negative consequences of globalization. | Full-time distance learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 Full-time studies: Lectures -32 Practical works -16 Laboratory works - 0 Consultations -4 Individual work -108 Full-time weekend learning studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -146 Part-time, distance learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB19808 | Network Economics | Bachelor Degree Studies | 6 | The knowledge acquired in the study of the subject will allow to understand the essence of network economics, to evaluate and distinguish forms of business cooperation and economic activity from a systematic point of view, to describe the characteristics of mergers, business diversification and concentration. Assessment of business clustering and transaction cost analysis allows to develop the ability to make network-based economic decisions. Students must attend at least 60 % of the time scheduled exercises. | To develop students' theoretical and practical knowledge of network economics, its essence, tools, benefits and value creation; to provide abilities to evaluate the processes of network economics, to understand the principles of management of network organizations, to summarize the results and to form decisions related to the activities of network organizations. | Full-time distance learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 Full-time studies: Lectures -32 Practical works -16 Laboratory works - 0 Consultations -4 Individual work -108 Full-time weekend learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 Part-time, distance learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 |
| Faculty of Business Management | Department of Business Technologies and Entrepreneurship | VVTVB19801 | Information Management Systems | Bachelor Degree Studies | 3 | The concept of informaction management systems (IMS) and their support in diferent management layers. Information and Communication technologies (ICT). Business Management Systems, their classification. Information Management Systems, their impact on business: competitiveness, organizational management structure, corporate culture. Integrated management information systems. Information Management Systems development, planning and organization. Students must attend at least 60 % of the time scheduled exercises. | To prepare business intelligence specialists with integrated business analitics knowledge, able to integrate ICT, information systems, quantitative and qualitative analytical and research methods, integrate economic, information technology and management theories into their professional activities in search of practical solutions for the analysis, evaluation and forecasting of company activities taking into account changes and perspectives of the external and internal environment. | Full-time studies: Lectures -24 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -38 Full-time weekend learning studies: Lectures -16 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -54 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 Part-time, distance learning studies: Lectures -16 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -54 |
| Faculty of Business Management | Department of Management | VVVKB19815 | Marketing Research Complex Project | Bachelor Degree Studies | 6 | The Marketing Research Complex project is a written research work designed to deepen, improve, and reveal students 'knowledge in the field of marketing research and to acquire the ability to identify the marketing research problem, to apply the methodology to conduct research, organize and conduct marketing research, process and formalize research data, and provide possible solutions. Students must attend at least 60 % of the time scheduled exercises. | To provide students with theoretical and practical knowledge about the complex project of marketing research, its preparation parts, and applied methods for marketing research, to provide the abilities related to business excellence in marketing research needed to make data-informed marketing decisions. | Full-time distance learning studies: Lectures -0 Practical works -24 Laboratory works - 0 Consultations -0 Individual work -136 Full-time studies: Lectures -0 Practical works -32 Laboratory works - 0 Consultations -0 Individual work -128 Full-time weekend learning studies: Lectures -0 Practical works -24 Laboratory works - 0 Consultations -0 Individual work -136 Part-time studies: Lectures -0 Practical works -20 Laboratory works - 0 Consultations -0 Individual work -140 Part-time, distance learning studies: Lectures -0 Practical works -24 Laboratory works - 0 Consultations -0 Individual work -136 |
| Faculty of Business Management | Department of Management | VVVKB19814 | Marketing Research | Bachelor Degree Studies | 3 | Marketing Research is an intensive study subject that allows students to acquire the latest knowledge and develop the ability to independently conduct marketing research in national and international markets, which needs to be based on marketing decisions. Studying marketing research will provide students with up-to-date knowledge of marketing research, including e-market research and the methods used to conduct it, database structures and decision support systems, and target classical common marketing research methods such as surveys: interviews, observation, focus groups, and more. Students will be able to prepare and substantiate research methodology, organize and implement marketing research, correctly describe it. Students must attend at least 60 % of the time scheduled exercises. | To get knowledge in contemporary marketing research methods; to get competence in performing marketing research; to perceive advanced and innovative practice in marketing research. | Full-time distance learning studies: Lectures -8 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -66 Full-time studies: Lectures -24 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -38 Full-time weekend learning studies: Lectures -16 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -54 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 Part-time, distance learning studies: Lectures -16 Practical works -8 Laboratory works - 0 Consultations -2 Individual work -54 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB19880 | EU Economic Policy | Bachelor Degree Studies | 3 | The subject of EU economic policy is designed to examine the EU's economic priorities, policy development and implementation practices. While studying the subject students analyze the experience and achievements of the EU common economic space, examine the economic goals of policies pursued in various fields (business, environment, energy, education and research, transport, taxation, social and health affairs, agriculture);as well as the tendencies and directions of the formation of the EU regional policy, the EU budget and monetary policy and the EU structural funds are studied. Students must attend at least 60 % of the time scheduled exercises. | To provide knowledge about the principles of the formation of the EU economic policy and the possibilities of its implementation, to develop the ability to systematically examine the EU documents and databases and to make proper use of the opportunities created in the EU single market. | Full-time studies: Lectures -24 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -38 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Business Management | Department of Management | VVVKB17159 | Management | Bachelor Degree Studies | 3 | During the course the following topics are covered: essence of management, basic concepts and their interpretations, evolution of management theories, cyber management model: subject and object of management. There are analysed organization as a system (systemic view application), types of organizations, elements and environment of organization, establishment of organizations and organization' management types of structures. Also there are analysed functions of management: planning, organizing, leadership and controlling, administrative and economic as well as psychological methods of management, manager role in the system of organization management management' decisions' preparation and adoption of principles, its process, assessment of the job of employees, pay for work and motivation. There are disputed change and conflict management. Students must attend at least 60 % of the time scheduled exercises. | To form theoretical management knowledge base and to develop capabilities of using acquired knowledge in Management activity situation. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time, distance learning studies: Lectures -10 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -64 |
| Faculty of Business Management | Department of Management | VVVKM17108 | Strategic Management | Master Degree Studies | 6 | Strategic management course discusses implications of strategic management, business strategy, sources of competitive advantage, relationships between organization and competitive advantage, industry analysis, competition and market niches, competition in concentrated markets, entry in the market and competitive advantage, value creation in value chain, strategic management in changing environment, globalization and strategy, corporation strategy, strategy development process. Taking into consideration the peculiarities of contemporary strategies and analyzing international experience of organizations, the students are acquainted with the main models and tools of strategic management; the role of leadership is discussed; the factors impacting strategy are revealed; the problems and the means how to overcome these problems in order to successfully implement strategy are discussed. | STo provide a theoretical background of strategic management and comprehensive understanding of the strategic management process. To provide the knowledge and develop skills to apply strategic analyticall tools, which would help to make efective decisions and implement successful actions. To develop practical skills of strategic management. | Full-time studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -10 Individual work -120 |
| Faculty of Business Management | Department of Economics Engineering | VVEIM17108 | Quantitative and Expert Solution Methods | Master Degree Studies | 6 | The course "Quantitative Expert Solution Methods" is devoted to methods designed for both analysing complex socioeconomic processes, and for evaluation of influence of values of criteria of different formats on a chosen characteristic of such processes. Skills enabling students to make analysis of processes and entities of various social and economical sectors, to create mathematical models of such processes, to make quantitative evaluation of characteristics of a process, to use software are delivered to students Students must attend at least 60 % of the time scheduled exercises. | - to form the system of theoretical knowledge, which enables to make the multiple criteria analysis of processes and entitiesof various social and economic sectors - to teach students to perform empirical analysis of economic processes in various sectors of economy and entities, to maketheir evaluation by various multiple criteria evaluation methods - to teach students how to interpret and generalise results of multiple criteria evaluation by using theoretical knowledge of economics. | Full-time studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -10 Individual work -110 Part-time, distance learning studies: Lectures -4 Practical works -4 Laboratory works - 0 Consultations -6 Individual work -146 |
| Faculty of Business Management | Department of Management | VVVKB17033 | Marketing | Bachelor Degree Studies | 6 | During marketing course holistic marketing concept and main elements are analysed. For students variety of marketing objects is presented. Main marketing concepts: needs, wants and demands are presented. In the course main strategic marketing elements and marketing information systems are introduced. In the course external and internal marketing environment is analysed and practical analytical tools (PESTEL, SWOT, etc.) are presented. Also main marketing research methods and tools are discussed. For students marketing planning process and marketing plan are introduced. During the course main product concept, product level, service marketing is discussed. Main pricing, distribution channels, promotion strategies for marketing of products are presented. New communication trends and innovative internet tools and media are presented. Students must attend at least 60 % of the time scheduled exercises. | To provide students with theoretical knowledge in marketing and provide practical skills in making marketing decisions necessary financial engineering business-related activities and the implementation of the business development in the local and international markets. Students must attend at least 60 % of the time scheduled exercises. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 |
| Faculty of Business Management | Department of Management | VVVKM17054 | Marketing | Master Degree Studies | 6 | Marketing as the complex system of strategic decisions is described during the studies of this course. Marketing strategy creation and realization principles and methods, cases of marketing strategies creation and realization, diversity of them are characterized in details. Product marketing strategy, enterprise marketing strategy, institution and organization marketing strategy, international marketing strategies are described and analyzed in details. International competition as most important factor of decision making in the process of international strategy creation is defined and charakterized, many factors of market development, products development, technological changes, human resource development, as the basic factors of the decisions making and strategic solutions in the system of marketing are defined . Theoretical models and positive practical experiences of the marketing strategies creation are described in details. | Acquire theoretical knowledge and practical skills in marketing strategy, to get abilities to use these knowledge and skills in the scientific research and in marketing practice. | Full-time studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -10 Individual work -120 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB17099 | Economics of Enterprises (with Course Work) | Bachelor Degree Studies | 6 | The course of Economics of Enterprises provides systematized knowledge about an enterprise as an object of market economics. Economics of production, labor and material resources. Assets of an enterprise and their sources of financing. Economics of investment and innovations. Business risk. Measuresfor reducting risk. Financial statements. Taxation. Financial analysis of enterprise activity. Business development. Students must attend at least 60 % of the time scheduled exercises. | The aim of course is to provide fundamental knowledge about enterprises and their goals. Prepare professional specialists be able to make and implement decisions, flexible in using theoretical and practical knowledge about enterprises, be able to generate ideas, apply study material in new and rapidly changing business situations, estimate business perspectives. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -4 Individual work -111 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -126 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB17201 | Economics of Public Sector (with a course work) | Bachelor Degree Studies | 6 | The Economics of Public Sector familiarizes with the public sector role in the economy, public sector structure and key levers of economic management - fiscal and social policy, issue of State's finance, State's revenue and expenditure policy, unemployment, employment, labour market policy, social exclusion, social security and health security, the financing of education, job, it's remuneration and efficiency, analysis of socio-economic processes efficiency. Students must attend at least 60 % of the time scheduled exercises. | To provide basic knowledge about the principles of public sector economy and the practical problems of it's functioning and to train facilities and to assess the key issues of public sector economy. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 |
| Faculty of Business Management | Department of Management | VVVKB17157 | Management | Bachelor Degree Studies | 3 | During the management course the evolution of management theories is examined, key management functions - planning, organization, leadership, control - the essence and characteristics are disclosed, economic methods of management and their specifics of application, psychological management methods and their role, administrative management methods and their application specifics, management decision making. The importance of the external environment impact on the organization's management is explained. The most important organizations of competitiveness factors are considered. This will allow to understand basic management principles to master the specifics of the business management, understand the need for systematic management methods. Students must attend at least 60 % of the time scheduled exercises. | To form systematic logical management perception by providing knowledge about management science and practical skills needed to organize the preparation of managerial decisions and their implementation. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Business Management | Department of Law | VVTEB16403 | Business Law | Bachelor Degree Studies | 3 | Business Law is a branch of Civil Law which regulates relations settled in business. This course introduces students to fundamentals of Law, analyzes subjects of business Law and their legal aspects as well as establishment, activity, reorganization, liquidation, monopolistic activities of companies and main features of antimonopolistic Law. The course also introduces main aspects of Competition law and legal regulation of EU Company Law. Students must attend at least 60 % of the time scheduled exercises. | The aim of the course is to analyze and evaluate regulation of business relations. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 |
| Faculty of Business Management | Department of Law | VVTEB16204 | Business Law | Bachelor Degree Studies | 6 | Business Law is a branch of Civil Law which regulates relations settled in business. This course introduces students to fundamentals of Law, analyzes subjects of business Law and their legal aspects as well as establishment, activity, reorganization, liquidation, monopolistic activities of companies and main features of antimonopolistic Law. The course also introduces main aspects of Competition law and legal regulation of EU Company Law. Students must attend at least 60 % of the time scheduled exercises. | The aim of the course is to analyze and evaluate regulation of business relations. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 Part-time, distance learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 |
| Faculty of Business Management | Department of Law | VVTEB20201 | Copyright Law | Bachelor Degree Studies | 3 | The module involves the exploration of copyright rights and related rights among other types of intellectual properties, development of Copyright Law and its sources in Lithuania and other countries, the peculiarities of different types of copyrights and related rights, their subjects, objects, protection and implementation of copyrights. Students must attend at least 60 % of the time scheduled exercises. | To provide students with the comprehensive knowledge on copyrights and related rights, as one of the types of intellectual property while dealing with the legal framework in Lithuania and other countries, to acquire skills to analyze the theoretical and practical problems in the copyright Law and to expand students' capacity for self-absorption in this field | Full-time studies: Lectures -15 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -48 Part-time studies: Lectures -4 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -70 |
| Faculty of Business Management | Department of Management | VVVKM21201 | Human Resource Management | Master Degree Studies | 18 | The main of concepts of human resources management, the significance of the strategic human resource management in the context of the organization, the main preconditions of human resources management system organization and management are presented in the course of human resources management. | To form theoretical understanding of human resources management and to train to practically apply these skills | Full-time studies: Lectures -40 Practical works -40 Laboratory works - 0 Consultations -10 Individual work -390 |
| Faculty of Business Management | Department of Management | VVVKM21202 | Human Resource Management Strategies | Master Degree Studies | 6 | Human Resource Management Strategies - is the final course of the Business Administration MBA study program, which integrates the theoretical knowledge and skills acquired during the compulsory and courses of the program. The students conduct internships in Lithuanian and foreign organizations. During the internship, the problem of human resources strategy in the selected organization is solved. Aiming to solve the problem, a detailed assessment of the business sector, analysis of problems in the field of human resource management, evaluation of strategic alternatives and recommendations for the implementation of the selected strategy are performed. | To enable students to apply the knowledge gained during the Business Administration MBA study program in practice, to strengthen the ability effectively manage in solving human resource strategy problems, to summarize the results of human resource strategy selection in the report and to formulate grounded recommendations for human resource strategy improvement. | Full-time studies: Lectures -0 Practical works -16 Laboratory works - 0 Consultations -8 Individual work -136 |
| Faculty of Business Management | Department of Management | VVVKM21200 | Sustainable Business Development | Master Degree Studies | 6 | The Sustainable Business Development course analyses the concept of sustainable development and the problematic aspects of its implementation at the macro- and micro-level. The content of the three dimensions of sustainable development (economic, social, and environmental) and the expression of their interaction in business are examined. The sustainable business development models, their selection options, and the methods of sustainable development assessment and accountability applied in the business are analysed. The critical points of organisation's activities that have the greatest impact on the environment and society in the context of sustainable development are identified. Modelling environmental, social, and economic actions for sustainable development that meet international and national requirements, reduce environmental and societal impacts, and contribute to the sustainable development of organisation by applying expert assessment and multicriteria evaluation methods. | Develop the abilities to create, manage, and develop sustainable businesses, to make system-based strategic decisions, and to implement eco, technological, and social innovations in business to achieve global sustainable development goals and to increase the competitive advantage of business. | Full-time studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -10 Individual work -120 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB16607 | Course Project of Financial Analysis | Bachelor Degree Studies | 3 | Purposes, sources and methods of financial analysis. Absolute and relative ratios. Ways of evaluation, comparison and forecasting of financial results. Methods of analysis of enterprises' financial condition, creditworthiness, operations. Students must attend at least 60 % of the time scheduled exercises. | To provide theoretical and practical knowledge about role of financial analysis in financial engineering and management system, about its essence and fundamentals. To provide theoretical and practical knowledge about application of financial analysis methods, interpretation and summary of their results. To provide abilities to evaluate and absorb results of financial analysis and their importance in enterprises preparing the evaluation of absolute and relative financial ratios. | Full-time studies: Lectures -0 Practical works -30 Laboratory works - 0 Consultations -0 Individual work -50 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB22401 | Accounting and Auditing (with course work) | Bachelor Degree Studies | 6 | Accounting information in the system of management. Essence of accounting information. Users of accounting information.Conception of accounting. Accounting regulation and models. General principles of accounting. Essence of assets and liabilities in the accounting. Influence of transactions for fundamental accounting equation. Book-keeping accounts and double-entry. Accounting registry. Recognition of incomes and expenses. Accounting adjustments. Accounts closing. Profit (loss) distribution. Essence, types, basic lineaments and drafting principles of financial statements. The accounting of assets and short terms assets, of stock capital, wages and financial statements. Students must attend at least 60 % of the time scheduled exercises. | Prepare professionals who are able to integrate and apply complexly the knowledge of economical theories, management of economical processes and economical engineering, covering both the economy and other fields of social life, science and technology progress; characterized with bright inter-directional and inter- discipline competencies, which enable to use integrally advanced achievements of engineering sciences for the economical knowledge and solution of economical problems. | Full-time distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -128 Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -128 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -128 |
| Faculty of Business Management | Department of Management | VVVKM23201 | International Marketing and Communication (with course project) | Master Degree Studies | 9 | During the subject "International marketing and communication" students will be introduced to peculiarities, organization and theories of the international marketing and communication as well as to strategies of the international marketing and communication and their training methodologies. Students will understand, how to prepare strategies of the international marketing and communication and implement them, will analyse, how to accomplish marketing and communication researches in international markets, will analyse the complex of the international marketing and communication, peculiarities of its structure and its possibilities of international usage. | Theoretical knowledge and practical skills for self-sufficient work and activities in the area of the international marketing and communication. | Full-time studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -15 Individual work -185 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB23801 | Creative Economy | Bachelor Degree Studies | 3 | Creative economy module covers theoretical, practical, managerial creative activities which refer to holistic approach and form contemporary understanding of creative economy as phenomena based more on ideas not physical capital. Students must attend at least 60 % of the time scheduled exercises. | Acquaint with objective of creative economy, origins of the process, influence to nowadays local, national and global environment. Develop skills to identify cultural and creative economy, evaluate upon systematic methodologies. Acquire general competence to identify and define creative economy activities, give a sense in realistic environment; analyze political documents, scientific literature. | Full-time studies: Lectures -16 Practical works -16 Laboratory works - 0 Consultations -2 Individual work -46 Part-time studies: Lectures -4 Practical works -4 Laboratory works - 0 Consultations -2 Individual work -70 |
| Faculty of Business Management | Department of Economics Engineering | VVEIB23401 | Regional Economy Far East Countries | Bachelor Degree Studies | 3 | Students must attend at least 60% of the scheduled time exercises. | To prepare specialists, which are able in complexity to understand and analyse economic development trends and perspectives in various world regions, specifically in Far East countries. | Full-time distance learning studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -0 Individual work -35 Part-time studies: Lectures -6 Practical works -6 Laboratory works - 0 Consultations -2 Individual work -66 Part-time, distance learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -0 Individual work -50 |
| Faculty of Business Management | Department of Management | VVVKB24203 | Organizational Behavior | Bachelor Degree Studies | 3 | Study course is acquired knowledge in the field of organizational behavior and the skills needed to evaluate and predict work-related behavior of people in the organization, understand and describe organizational behavior objectives, level of analysis and research methods, to be able to assess individual behavior of employees influence the organization's performance. Understand and be able to identify factors, influencing teams and groups behavior, to be able to identify and apply in practice appropriate behavioral strategies in conflict situations, be able to solve conflicts and effective negotiate ways, understand and respond appropriately to the organizational culture and organization's image development issues. Students must attend at least 60 % of the time scheduled exercises. | To develop the capacity to understand and be able to explain the peculiarities of organizational behavior, to be able to predict and manage work-related behavior of people in the organization, learn how to analyze and design of organizational behavior patterns. | Full-time studies: Lectures -30 Practical works -15 Laboratory works - 0 Consultations -2 Individual work -33 Full-time weekend learning studies: Lectures -20 Practical works -10 Laboratory works - 0 Consultations -2 Individual work -48 |
| Faculty of Business Management | Department of Financial Engineering | VVFRB16401 | Corporate Financial Management | Bachelor Degree Studies | 6 | Enterprise financial management course developed with the knowledge and skills required for the financial management problems specify. Learns to perform a systematic analysis of their existing knowledge of financial management in an effective corporate strategy and tactical action plans, identifying financial risks in managing cash flow and increasing the value of the company. Learn to model and predict the long-term and short-term asset management situations, funding policies and the development of financial business solutions to companies located in different stages of development and operating in different size markets. Students must attend at least 60 % of the time scheduled exercises. | To provide knowledge to students with key issues in enterprise finance related to the company's finance management objectives and condition assessment principles, credit and equity securities value, return and risk evaluation principles. Also, students will know more about investment, financing, profit-sharing and other principles of financial decisions adopted in companies and their impact on the company's value. | Full-time studies: Lectures -30 Practical works -30 Laboratory works - 0 Consultations -4 Individual work -96 Full-time weekend learning studies: Lectures -30 Practical works -10 Laboratory works - 0 Consultations -4 Individual work -116 Part-time studies: Lectures -12 Practical works -12 Laboratory works - 0 Consultations -4 Individual work -132 Part-time, distance learning studies: Lectures -20 Practical works -20 Laboratory works - 0 Consultations -4 Individual work -116 |