Industrial Engineering

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To introduce basics of probability theory and mathematical statistics, to train a student to use obtained knowledge for solving of real world problems.

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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 works, 80% of the time scheduled laboratory works (full-time studies and part-time, distance learning studies) and 50% of the lectures (only full-time studies).

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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.

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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. Theoretical lectures are mandatory for first-cycle I-III year full-time students. More than half of the lectures must be attended during the semester.

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Sketch drawing, means of dimensivining, material marking in drawings. Demountable and non-demountable joints, types of srews, viewing and marking of screws, screw fastening elements. Assemblies drawings and their drawing order. Understanding and detailing of assembly drawings. Specification. Viewing of springs, gears, gear and chain trains. Kinematics diagrams. Marking of surface machining types in the drawings. Tolerances and fits.

Module description

Sketch drawing, means of dimensivining, material marking in drawings. Demountable and non-demountable joints, types of srews, viewing and marking of screws, screw fastening elements. Assemblies drawings and their drawing order. Understanding and detailing of assembly drawings. Specification. Viewing of springs, gears, gear and chain trains. Kinematics diagrams. Marking of surface machining types in the drawings. Tolerances and fits.
Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time during the semester. Mandatory minimum attendance of module lectures – 50%.

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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.

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Rudiment of metrology and measurement theory. The principles of statistical measurement theory. Transformation of
measurement signals. Measuring instruments and methods. Measurement of process parameters.

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To provide knowledge of processes which take place in metal cutting zone, conventional metal cutting methods, modern metal cutting tools, their design, geometry and materials.

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The module provides information about processes which take place in metal cutting zone, about basic metal cutting tools, their types, design and geometrical parameters, about materials used for cutting part of metal cutting tools. Participation in practical works at least 60% of scheduled exercises is mandatory. Participation in laboratory works in all scheduled exercises is mandatory.

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To provide for students the knowledge and potential skills in the field of planning and organizing activities that will be needed in theirs practical activity at a market economy conditions.

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This study module deals with an importance of the planning and organization activities in the company, which derives from the need to prepare management decision for production activity. Suitable management solution can be prepared only having clear determinate thematic and thematic objectives, tasks, and compared it with selected motivated alternatives. Leading on this approach, this study module is dealing with the important processes as a planning of the interests of the capital owners, planning of the competitive position of the enterprise, planning of the changes in a company activity, and other processes. Participation in practical works at least 60% of the scheduled exercises is mandatory.

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Implementation of modern 3D systems for geometric form generation, construction parameters analysis and preparation of computer aided manufacturing.

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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.

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Introduce with objectives, tasks, designing of Manufacturing Management Information Systems also with Enterprise Resuource Planning system.

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On this course students are introduced with the goals and tasks of the Manufacturing Management Information Systems in the enterprise. Here are presented design methods of modern information systems, also compatibility of Manufacturing Management Information Systems with modern production strategies. Taught to use Enterprise Resuource Planning System “Monitor”, data processing programs and functional modules. Carried Manufacturing Indexes Analysis, production management decisions’ economic evaluation and modeling.

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To give theoretical professional base and to form skills of engineer practical work: ability to pick and analyze information in field of production engineering, to identity problems, to learn work with technological machines and equipment. To learn perform technological part of the project of factory. To acknowledge with integrated manufacturing and their subsystems.

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Prerequisite for automation. Demands for design and manufacturing processes by design of automated manufacturing. Instruments and devices for automated manufacturing. Means for automated support and transportation of blanks and products. Industrial robots, their build and role in manufacturing automation. General conceptions. Output and methods of design of the enterprise. Labour content. Calculation of the number of the technological machines and workplaces. Calculation of the number of workers. Auxiliary services of the enterprise, design of the auxiliary workshops. Buildings and their parameters. Layout of the subdivisions of the enterprise. Layout of the machines and other equipment. Technical and economical rates of the enterprise. Integrated manufacturing, its functions, structure, elements, and application. Simulation of manufacturing systems. Databases of integrated manufacturing systems.
Participation in practical works at least 60% of the scheduled exercises is mandatory.

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To give for students knowledge about the engineering changes, about its management measures, particularly its analysis and evaluating techniques.

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This module covers the new academic knowledge about the engineering changes, interactions with its engineering activities be submit the important knowledge also about management of engineering activities. The knowledge and ideas of this character not relative into other modules of this study program. Participation in practical works at least 60% of the scheduled exercises is mandatory.

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To provide knowledge about non-destructive joining technologies, their application possibilities, to familiarize with the processes and equipment.

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The Module provides knowledge about different non-destructive joining technologies used in industry. Different welding methods are analyzed: gas welding, consumable-electrode manual arc welding, gas-shielded arc welding (MIG, MAG, TIG), submerged arc welding, resistance welding and special welding methods (laser welding, electron-beam welding, plasma-arc welding, ultrasonic welding and other methods). Knowledge about metallic and non-metallic materials, soldering and brazing, bonding is provided. Different processes are presented as well as information on joints control. Participation in laboratory works in all scheduled exercises is mandatory.

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Practical-of work with mechanism, engineering, management and control skills attainment and development.

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Department is formulated places of practicians and is made projects. With faktorys, its structure, using mechanism, constructions of machines and producible production are met practical, skills of practical work are got. Material is gathered for final work. Account to project of ptactice is written in the end. Marking – Report.

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Formulation of the Final Work tasks and title

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According to the selected subject is developed the structure of the Final Work. The special literature is studied and analogs of technologies are analyzed.

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To provide modern theoretical and practical knowledge about the management of the logistic supply process in the industrial enterprise, factors that affecting the efficiency and effectiveness of the logistics supply activity, the motives and methods for its management decision making, and the methodology for impact assessment.

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The module covers modern concepts of logistics supply management in the enterprise. Thanks to these concepts, the logistics business takes more on flexibility, competitiveness and efficiency. In order to use properly the existing opportunities of flexibility and competitiveness for increasing of the efficiency of logistics business activities in present-day industrial production, we must have sufficient knowledge about the contents of the logistics supply process of the company, its systems and systematic analysis. It is very important to know how to choose correctly the conditions and means for realizing the actions to reduce the expenses for material resources acquisition, intellectual (engineers) efforts, use and further development of labour resources, etc. There is no doubt that this is one of the important ways to increase the company’s economic and social well-being. Participation in practical works at least 60% of the scheduled exercises is mandatory.

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The aim of the course to familiarize students with the features of various text styles (administrative and scientific), teach to choose and apply appropriate methods of writing a text; to form skills of academic writing, to teach to apply formal requirements of an academic written assignment appropriately; to teach to present references accurately, use quotations, to compile a list of the cited references and sources.

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While studying the subject, students are introduced to the concept of a business text, structure of the text. The similarities and differences of the academic and administrative styles, general principles governing the construction of texts and writing strategies are discussed. Different peculiarities of academic text writing are taught, various language devices of written assignments., citing and paraphrasing techniques, formal stylistic and linguistic requirements of documents and other written assignments, business communication in social media are discussed. Participation in at least 60% of the scheduled exercises is mandatory and at least half of the lectures at the scheduled times

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To reveal the main problems of philosophy of technology and to cultivate the skills for good orientation in the flow of contemporary technogenic dynamics.

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The course provides the concept of technology and the overview of the characteristics of its development. Students are introduced to the sources of the philosophy of technology as a discipline, to the specific features of its emergence and further development. The course provides the most important periods of history of technology, in order to highlight the essential dependency between the development of technology, its concept and the changing of the attitude to technology. Students are introduced to the most famous theories of technology, developed by such authors as E. Kapp, F. Dessauer, J. Jaspers, M. Heidegger, J. Ellul, H. Skolimowsky, D. Bell, E. Toffler, A. Huning, H. Schelsky, G. Ropohl, H. Lenk, F. Rapp. Technology is analysed and interpreted from ontological, epistemological, anthropological, axiological thinking perspective. The course discusses the main challenges to human beings, it also examines actual problems of technology.
Students must attend at least 60 percent of the seminars and at least half of the lectures at the scheduled times

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To introduce a student with the peculiarities of the scientific style, the requirements for the terms, the principles of terms regulation, the regularities of Professional language, To teach to write and edit a scientific text.

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Standard language: its functional styles and substyles. Written and spoken language. Public and non-public language. Special and professional language. Terms as the basis of a professional language. Structural characteristics and parameters of a scientific text. Composition of a scientific text. Linguistic analysis of final works for the Bachelor`s and Master`s Degree. Participation in at least 60% of the scheduled exercises is mandatory.

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The aim of the course is to introduce the theoretical and practical aspects, issues and applications of public communication.

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Public Communication course aims to introduce personal branding, corporate communication, communication with clients and internal communication, the students who have chosen studies of engineering sciences, computer sciences, technology sciences, mathematics sciences. Students learn how to present themselves and their ideas, better speak in public, to make good and convincing points, to better use the internet and social media for their professional goals, also to understand cross-cultural communication. The importance of media channels, messages and communication to target audiences are also introduced in the course. Through practical tasks for personal branding, students will learn how to adopt public ethics, protocol standards. In this course an approach of learning by doing is combined with theoretical analysis and students’ self-reflection. The practical part of the course consists of active participation in discussions during different exercises, case studies as well as preparation and presentation of public speeches and presentations.
Participation in at least 60% of the scheduled exercises is mandatory