Cybersecurity and communication technologies

Module aim

The aim of the course is to introduce students to the data structures and their practical realization by creating the corresponding functions and classes, teaching algorithms, analyzing and evaluating them.

Module description

The subject provides a systematic analysis of data structures, including massive linear lists, linear and hierarchical data structures. Familiarized with the list, stack, deck, heap, binary tree, Bayer tree, red-black tree. The procedures with elements of the data structure are explained, the memory demand is analyzed, the restrictions and efficiency of data structures are discussed.
Algorithms ar presented, their properties are analyzed, algorithm complexity and asymptotic analysis of algorithms are presened. Comprehensive analysis of fast and slow sorting algorithms is presented. Searching and recursive algorithms are explained, dynamic programming is introduced. The principles of data exchange between external and internal memory in sorting and searching algoritms are analyzed when very large data are used.
Students must attend at least 80% of the time scheduled laboratory work. Mandatory minimum attendance of module lectures – 50%.

Module aim

To present basic knowledge of Fourier analysis, complex analysis, operational calculus, probability theory and mathematical
statistics.

Module description

The subject course deals with application-important calculus issues and includes the theory of functions of a complex variable, Fourier and Laplace transforms and some elements of probability theory.

Students must attend at least 60% of the time scheduled practical works, 80% of the time scheduled laboratory works and 50% of the lectures.

Module aim

Learning operating system concepts to cognize operating system functioning, algorithms and data structures implemented in operating systems, to be able to manage real operating systems.

Module description

Operating system concepts subject delivers knowledge about operating system purposes and working, process and thread concepts, CPU scheduling, critical section concept and process synchronisation, deadlock definition and management methods, main memory management technologies and virtual memory organization, file system. A modelling and investigation structure of operating systems in the application software environment of the applied software is taught.
Abilities to combine theoretical and practical elements, to experiment, analyse and interpret data are exercised. Abilities to work independently and responsibly, thoroughly schedule own work and time are developed. Students must complete all scheduled laboratory work. Students must attend at least 80% of the course laboratory and at least half of the lectures according to the semester Lecture schedule.

Module aim

Learning to program mathematical scripts and functions, internet pages and scripts to master modern script programming technologies and be able to apply them to solve engineering problems.

Module description

Script programming subject delivers knowledge about programming of mathematical functions and scripts, 2D and 3D graphics, Web pages, their style and control scripts. Programming with Matlab, HTML-kit and ATOM software and qualified application of it to solve engineering problems is taught. Abilities to combine theoretical and practical elements, to experiment, analyze and interpret data are exercised. Abilities to work independently and responsibly, thoroughly schedule own work and time are developed.
Students must complete all scheduled laboratory work. Students must attend at least 80% of the course laboratory and at least half of the lectures according to the semester schedule.

Module aim

To provide students with basic knowledge in economics, formulating systemic understanding of market economics relations, tendencies as well as practical skills, relevant for making and implementing economic decisions in their professional activities.

Module description

During the couse of Economics is studied the theory of economics, the object, problems and goals of economics. The main topics of economics studies include: competition models and mechanism, conception of national product and calculation methods, fiscal and monetary policy, their aims and operation means, conception of inflation, kinds of inflation, evaluation of inflation, unemployment and employment policy, international economics and international economic links.
Students must attend at least 60 % of the time scheduled exercises.
Minimum mandatory attendace of module lectures is 50%.

Module aim

Acquaint with philosophical ethics and fundamental ethical problems and concepts. Transmit a knowledge of ethical foundations, principles and systems. Foster critical judgement and the capacity for logical, reasoned discussion. Encourage a sense of values.

Module description

Students learn about basic ethical schools and systems, fundamental issues of deontological and teleological ethic. Historical developement of ethical thought, periods such as Early Asian, Greece and Romain, medievvial, Reneissance, New Age and modernism. The main ethical issues are discussed: good and evil, principle of morality and free will, person as a goal in itself, notion of dignity, conscience, norm and morality, grounding morals in athority and discourse, notion of virtue, happiness and meaning of life and etc. Analyzed texts and philosophic al arguments os themost significant scholars of the field (Plato, Aristotle, Kant).
Students must attend at least 60 percent of the seminars and at least half of the lectures at the scheduled times

Module aim

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

Module description

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. Lecture attendance is at least 50%

Module aim

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.

Module description

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.

Module aim

The overall objective is to learn designing and analysis techniques applicable to simple IP networks.

Module description

“Internet Protocol essentials” presents knowledge about the main current information transmission technologies in network layer – TCP/IP stack. Students are introduced to structure of general telecommunication system and models of network layers – standard OSI model is presented as well as real model used in IP systems. Study module shortly reviews protocols and technologies of physical and channel layers emphasizing that those are the base on which all higher network layers function. Later material about principles of IP addressing, classes of IP addresses. Routing algorithms are not thoroughly presented in this module, only outline of route selection in IP networks are presented. Later this basic understanding may be used in order to understand particular routing algorithms. Module analyses transport layer TCP and UDP protocols, their application domains are pointed out as well as advantages and disadvantages of these algorithm.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To give knowledge about signals, their characteristics and transformations in telecommunication systems, to teach solve applied problems using mathematical methods.

Module description

The telecommunications theory module provides basic knowledge about the structure and operating principles of telecommunication systems. This knowledge helps to understand the operating principles of modern and future communication systems. Telecommunications theory combines knowledge of information theory, digital communication systems and information flow management. The spectral analysis of the signals is considered. It goes into all the processes that take place during the transmission of information. The impact of signal distortions and noise on information transmission is examined.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

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.

Module description

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. Attendance at theoretical lectures is mandatory, and to qualify for sitting the exam in the first take, students must have recorded attendance of at least 50% of the lectures. Students are required to complete all prescribed practical (exercise) assignments and must attend at least 80% of practical sessions according to the scheduled timetable.

Module aim

The objective of the study subject is to familiarize students with software engineering fundamentals including business requirements specification, software design and development as well as software testing. Develop UML language skills and teach how to apply them in practical projects.

Module description

The module introduces the concept of software engineering, main principles and methods. Students are familiarized with types of software requirements, their formulation, specification and verification, software design principles, modelling methodologies, software implementation, development process, software testing methods. Also relevance of software documentation and testing is explained, concept of software life cycle models and their assessment attributes are explained and presented.
Students must attend at least 80% of the time scheduled laboratory work. Mandatory minimum attendance of module lectures – 50%.

Module aim

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.

Module description

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 exercises and at least half of the theoretical lectures according to the timetable.

Module aim

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.

Module description

During the course, students will become familiar with potential threats posed by electrical energy to human health during the operation of engineering-purpose electrical equipment. They will learn to identify possible risks to human health when designing newly constructed engineering facilities and during the operation of existing electrical power generation, transmission, and distribution systems. Students will be able to apply organizational and technical methods of safe work organization when working at a distance from, near, or on live electrical installations and power networks.
Students will know and systematically understand the essential theoretical and applied foundations and concepts of people safety and related electronics and electrical engineering study fields. They will be able to apply technical and organizational measures for safe work organization. The ability to experimentally investigate the application of technical safety measures will be developed. Students will understand the importance of occupational and fire safety and their fundamental requirements.
Students must complete at least 80% of the laboratory work according to the schedule.
The minimum attendance requirement for the module is 50%.

Module aim

Explore Data collection and storage capabilities using Database Technology(ies). Gain Knowledge using Database modelling Programming Products, and independently and reliably to learn Databases modelling. Understand Relational Database Model Characteristics, Normalization. Be able to structure the Database independently and implement it in the received Database Management System. Learn how to run SQL queries.

Module description

The Module is intended to introduce You to the Concept of a Database, Data Models, Data modeling of a given area from the Conceptual to the Physical Data Model. Database Management System and Database System Concepts, Database System Life-cycle, and Concepts revealed. Relational Database and its Main Feature revealed. Particular Attention is given to the understanding of Data Quality and Data Normalization, SQL Language, and the practical use of that.
Students must attend at least 80% of the time scheduled laboratory work. Mandatory minimum attendance of module lectures – 50%.

Module aim

The aim of the course – to provide students with knowledge on information security needs, possible threats and abilities to select suitable countermeasures or prevention mechanisms against it.

Module description

The subject introduces students with definition of information security, ways to assure the security (CIA triad) and possible threats. What is, what types of cryptography exist, how it can be used to assure security is analyzed. Students get know the principles of some symmetrical, asymmetrical cryptography and hash function algorithms. Different type of security threats are analyzed in the subject. Students find out the basics of malware programming code, attacks against web systems, computer networks, personal computers and persons as well as understands possible solutions to prevent it.
Students must attend at least 80% of the time scheduled laboratory work.
Students must attend at least 60% of the time scheduled practical lectures.
Mandatory minimum attendance of module lectures – 50%.

Module aim

Teach to understand the processes which occur during the propagation of signals in linear and nonlinear circuits and develop the ability to evaluate changes which occur in signals.

Module description

Classification of signals, deterministic broadband spectra of periodic and non-periodic signals and their properties, Laplace transformation and its properties. Spectra of narrowband signals. Analysis of the signal changes in linear circuits by using different methods: classic, operators and time domain methods. Applications of nonlinear devices in order to change the frequency of signal spectrum: multiplication and replacement, modulation and detection. Students must complete all scheduled laboratory work.
Students must ettend at least 80% of the course laboratory and at least half of the lectures according to the semester Lecture schedule.

Module aim

Provide sufficient knowledge of mathematics and other physical sciences, electronics and electrical engineering fundamentals, develop the ability to apply the acquired knowledge in engineering activities. Develop the need to be interested in electronics and electrical engineering. Develop the ability to maintain their professional competence by life-long learning.

Module description

Digital devices subject delivers knowledge about number systems and codes, digital logic functions, logic algebra, combinational logic design, combinational and sequential logic circuits, bistable memory devices, synchronous sequential logic circuit design. Abilities to combine theoretical and practical elements, to experiment, analyze and interpret data are exercised. Abilities to work independently and responsibly, thoroughly schedule own work and time are developed. Students must complete all scheduled laboratory work. Students must attend at least 80% of the course laboratory and at least half of the lectures according to the semester Lecture schedule.

Module aim

To grant knowledge and capabilities necessary for theoretical analysis of each and every telecommunication system

Module description

In the “Telecommunication theory” course project optimal receivers of digital information in white noise channels are analysed. Computer assisted modelling of telecommunication systems is learned. The impact of intersystem and intersymbol interference on information reception is studied.
Students must complete all assigned practical work, with at least 80% of these tasks completed as scheduled.

Module aim

Explore Data collection and storage capabilities using Database Technology(ies). Gain Knowledge using Database modelling Programming Products, and independently and reliably to learn Databases modelling. Understand Relational Database Model Characteristics, Normalization. Be able to structure the Database independently and implement it in the received Database Management System. Learn how to run SQL queries.

Module description

The Module is intended to introduce You to the Concept of a Database, Data Models, Data modeling of a given area from the Conceptual to the Physical Data Model. Database Management System and Database System Concepts, Database System Life-cycle, and Concepts revealed. Relational Database and its Main Feature revealed. Particular Attention is given to the understanding of Data Quality and Data Normalization, SQL Language, and the practical use of that.
Students must attend at least 80% of the time scheduled laboratory work. Mandatory minimum attendance of module lectures – 50%.

Module aim

The aim of the subject is to provide students with knowledge about Linux OS and open source ecosystem-based IT services, virtualization technologies, to develop the ability to define the architecture and operating principles of IT systems. To provide an opportunity to learn how to configure and virtualize various IT services.

Module description

“Enterprise IT systems” module provides the knowledge about various Enterprise IT systems’ services based on Linux operating system and other open source projects. These services such as WEB, databases, file servers, load balancers, authentication and authorization tools, etc. as well as the Linux OS, scripting and service configuration are explained. The module also provides knowledge of virtualization technologies, including containers, used in Enterprise IT systems. The principles of IT systems installation and maintenance automation are introduced. Listed below are some, but not all, of the key technologies and software that will be covered during the lectures: Linux, Bash, Apache HTTPD, Nginx, MySQL, PostgreSQL, LDAP, Kerberos, SSH, Ansible, KVM, VmWare, XEN, Docker.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

The aim of the course – to provide students with knowledge on information security needs, possible threats and abilities to select suitable countermeasures or prevention mechanisms against it.

Module description

The subject introduces students with definition of information security, ways to assure the security (CIA triad) and possible threats. What is, what types of cryptography exist, how it can be used to assure security is analyzed. Students get know the principles of some symmetrical, asymmetrical cryptography and hash function algorithms. Different type of security threats are analyzed in the subject. Students find out the basics of malware programming code, attacks against web systems, computer networks, personal computers and persons as well as understands possible solutions to prevent it.
Students must attend at least 80% of the time scheduled laboratory work.
Students must attend at least 60% of the time scheduled practical lectures.
Mandatory minimum attendance of module lectures – 50%.

Module aim

Provide sufficient knowledge of mathematics and other physical sciences, electronics and electrical engineering fundamentals, develop the ability to apply the acquired knowledge in engineering activities. Develop the need to be interested in electronics and electrical engineering. Develop the ability to maintain their professional competence by life-long learning.

Module description

Digital devices subject delivers knowledge about number systems and codes, digital logic functions, logic algebra, combinational logic design, combinational and sequential logic circuits, bistable memory devices, synchronous sequential logic circuit design. Abilities to combine theoretical and practical elements, to experiment, analyze and interpret data are exercised. Abilities to work independently and responsibly, thoroughly schedule own work and time are developed. Students must complete all scheduled laboratory work. Students must attend at least 80% of the course laboratory and at least half of the lectures according to the semester Lecture schedule.

Module aim

To grant knowledge and capabilities necessary for theoretical analysis of each and every telecommunication system

Module description

In the “Telecommunication theory” course project optimal receivers of digital information in white noise channels are analysed. Computer assisted modelling of telecommunication systems is learned. The impact of intersystem and intersymbol interference on information reception is studied.
Students must complete all assigned practical work, with at least 80% of these tasks completed as scheduled.

Module aim

Course aim – to provide fundamental theoretical and practical knowledge of the Linux kernel and the Linux ecosystem structure, application and adaptation Linux OS to specific tasks to desktops and embedded systems as well. It also aims to train specialist, which is able to use the Linux system for various tasks.

Module description

The Linux OS module introduces the structure of the Linux operating system and its differences from other operating systems. The command shell of the operating system and its programming, file system structure and actions with files, processes and interactions between processes, regular expressions, OS administration, features of the Linux kernel and software compilation are explained. It is revealed how to adapt the Linux ecosystem to the development of Internet of Things systems and information communication systems.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To learn the principles of low performance microcontrollers and their platforms , analyze their characteristics, choose the low performance microcontroller platform for concrete application, develop and analyze programs and be able to substantiate solutions working individually or in the team.

Module description

The knowledge about the low performance microcontrollers purpose, classification, architecture, functional blocks and programming are obtained in the low performance microcontrollers course. The knowledge about the popular microcontrollers platforms features are delivered as well. The chosen low performance microcontroller platform is studied and analyzed in details. The knowledge about the low performance microcontroller platform features, hardware and software used for the editing and debugging of programs are delivered. The theoretical and practical skills of development of programs for the chosen low performance microcontroller platform are gained.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To deliver knowledge about telecommunication technologies, protocols and services, their working principles, to teach choose right telecommunication technologies for telecommunication network design.

Module description

Šiame studijų dalyke pateikiamos žinios apie globaliuose telekomunikacijų tinkluose naudojamas technologijas. Analizuojamos telekomunikacijų tinkluose teikiamos duomenų perdavimo paslaugos, įvairių duomenų šaltinių generuojamų srautų charakteristikos, jų skaitmeninimo ir persiuntimo principai paketų komutavimo tinklais. Įgyjamos žinios apie duomenų perdavimo tinklų hierarchinę struktūrą pagal OSI ir TCP/IP modelius, naudojamas esmines fizines sąsajas bei įvairiuose OSI lygmenyse sprendžiamus uždavinius bei naudojamus protokolus. Šiame studijų dalyke studentai supažindinami su tokiomis tinklų technologijomis ir standartais kaip Ethernet, WLAN (IEEE 802.11), GPON, taip pat su 4G ir 5G mobiliojo ryšio technologijų pagrindais.

This course imparts knowledge of the technologies used in global telecommunications networks. The various applications of the telecommunication networks are described along with the different data sources used as well as the types of their generated information streams, their encoding and transmission in packet switched networks. The course presents the hierarchical structure of data communication networks according to the OSI and TCP/IP models, the essential physical interfaces used, and the functions and protocols used at different OSI levels. The course introduces students to networking technologies and standards such as Ethernet, WLAN (IEEE 802.11), GPON, as well as basic concepts of 4G and 5G mobile technologies.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

The main purpose of this course is to provide fundamental knowledge to the students about artificial intelligent.

Module description

This course is an introduction to artificial intelligence, in particular in the software which can learn, plan and solve problems independently. The course covers the history of artificial intelligence, theory and methods of calculation. The course will explain some basic problem solving search algorithms; knowledge representation and reasoning; Fuzzy logic and neural networks.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To deliver ability to create modern Android programs.

Module description

Subject delivers knowledge about programming of smart devices. Emphasis is on Android. Java programming language and its alternatives for android programming are reviewed (Scala and Kotlin languages). Further topics are Android GUI programming, Android interactions with external devices and WEB application adaptation for smart devices.
Students must attend at least 80 per cent of the practical exercises (practical work) during the scheduled time

Module aim

To deliver ability to program modern smat devices.

Module description

The subject explores the programming of smart devices (Android systems) using modern programming frameworks. Frameworks such as React-Native, ReactJS, and their interaction with the Python programming language are utilized. The course provides an overview of both the user interface and server-side architecture, discussing the use of the Python programming language in processing user interface data structures. Additionally, the course examines the more detailed aspects of the MQTT protocol and its application possibilities in cloud solutions, using the AWS MQTT broker. After completing the course, students acquire skills that enable them to further develop smart device applications and perform integrations into both cloud solutions and local standalone servers deployments.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To provide knowledge of telecommunication technologies in the context of the global Cloud Computing IP network. To provide the ability to analyse the performance of IP telecommunication networks, to select the appropriate physical communication medium and data transmission protocols, depending on the objectives and the operating conditions of the communication service.

Module description

The course imparts knowledge of the telecommunications services and technologies used in local and global IP networks to interconnect the various components of Cloud Computing systems. It analyses the basic components of telecommunication networks and the structure of networks based on OSI and TCP/IP hierarchical models. The functionalities of each OSI layer and the practical methods for their implementation in IP networks are reviewed in detail. It conveys essential knowledge of the physical interfaces used in IP networks from fixed to mobile networks.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To get familiar with the core concepts of cloud computing, architecture, services and the basic principles of their application in the modern IT solutions.

Module description

The study subject provides an introduction to cloud computing technologies, explaining its history, emerging trends, and the business case for cloud computing. The subject analyzes the various cloud service models (IaaS, PaaS, SaaS) and deployment models (Public Cloud, Private Cloud, Hybrid Cloud) and the key components of a cloud architecture (Virtualization, VMs, Storage, Networking). Theoretically and during practical classes, the principles of containers technologies and their orchestration are analyzed. Examples from different applications are provided: data protection, backup and restore, disater recovery and operation continuity, high availability solutions, cost models of differend cloud service providers. During the practical work of the subject, modern open source virtualization software (KVM, XCP-NG) and container technologies (Docker/Kubernetes) are applied.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To provide theoretical knowledge as well as practical skills to enable designing and developing Smart IP devices and Android mobile applications.

Module description

This course introduces students to the subject of Smart Machine-to-Machine IP devices and mobile applications as terminal entities in the periphery of cloud networks. It presents architectural as well methodological aspects involved with such processes and their future development trends. During laboratory exercises and practical course work students familiarise themselves with the programming of Smart IP devices in the Android OS environment. The interaction of Smart IP devices with Cloud servers and their use based on the IP protocol is examined in detail, as well as the solutions for Android devices and applications to interact with external sensors and other devices (Bluetooth, GPS).
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory and practical work, with at least 80% of these tasks completed as scheduled.

Module aim

Course aim – to provide fundamental theoretical and practical knowledge of the Linux kernel and the Linux ecosystem structure, application and adaptation Linux OS to specific tasks to desktops and embedded systems as well. It also aims to train specialist, which is able to use the Linux system for various tasks.

Module description

The Linux OS module introduces the structure of the Linux operating system and its differences from other operating systems. The command shell of the operating system and its programming, file system structure and actions with files, processes and interactions between processes, regular expressions, OS administration, features of the Linux kernel and software compilation are explained. It is revealed how to adapt the Linux ecosystem to the development of Internet of Things systems and information communication systems.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

The main purpose of this course is to provide fundamental knowledge to the students about artificial intelligent.

Module description

This course is an introduction to artificial intelligence, in particular in the software which can learn, plan and solve problems independently. The course covers the history of artificial intelligence, theory and methods of calculation. The course will explain some basic problem solving search algorithms; knowledge representation and reasoning; Fuzzy logic and neural networks.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

Get acquainted with companies which design, implements or operates information and communication systems, structure of companies’ branches, operations, management, products and services as well as the realization of the market. To form a self-study skills and consolidating existing practical knowledge gained during study process, learn to make their own decisions.

Module description

The practice is carried out after the third year in the enterprise, organization or institution that meets field of study and type of activities meets practice goals. During practice student need to be acquainted with the structure of the company; departments and their relationship; enterprise unit in which the practice is carried out, the infrastructure and policies, examine the equipment used and technology; self-fulfilled individual assignment, which specify the practice supervisor of the enterprise; write a practice report.

Module aim

Course aim – to provide fundamental theoretical and practical knowledge about the Internet of Things system software, operating algorithms and principles of administration.

Module description

Programming of Internet of Things” module introduces the Internet of Things system structure, working algorithms of the separated components and software development aspects. Analyses such things as dynamic HTTP pages, network monitoring systems, self-organizing sensor networks, databases.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To learn the high performance microcontrollers principles, analyze their characteristics, choose the high performance microcontroller for concrete application in the internet of things, develop and analyze programs and be able to substantiate solutions working individually or in the team.

Module description

In the context of high-performance microcontrollers, general knowledge is acquired about the purpose, characteristics, classification, functional nodes, programming, and utilization of high-performance microcontrollers in the Internet of Things. The ARM microcontroller family is studied, with a detailed analysis of a selected representative from the ARM microcontroller family. Knowledge is gained about its characteristics, hardware components, tools used for program editing, and their application in modeling work. Theoretical knowledge and practical skills in the development of programs for the studied high-performance microcontroller are acquired.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

Overall goal of Bachelor Graduation Thesis: create applied information and communication system engineering project or perform investigation of information and communication system object in order to proof abilities to integrate knowledge acquired during studies and work individually or in team, and by successful defence of Bachelor Graduation Thesis proof achievement of goals of study program.
Goal of Graduation Thesis 1: Set up topic of Bachelor Graduation Thesis and gather initial data, set up and analyse task of Bachelor Graduation Thesis, set up the thesis preparation timetable.

Module description

Preparation of final technical project, performance of economical, environmental impact and human safety analysis, preparation of final technical report and graphical material of Graduation Thesis, preparation and presentation of presentation for defence of Graduation Thesis. Abilities to thoroughly prepare graphical and textual documentation, to responsibly schedule own work and time, to be communicative working in a team and making oral presentation, are developed.

Module aim

Get acquainted with companies which design, implements or operates information and communication systems, structure of companies’ branches, operations, management, products and services as well as the realization of the market. To form a self-study skills and consolidating existing practical knowledge gained during study process, learn to make their own decisions.

Module description

The practice is carried out after the third year in the enterprise, organization or institution that meets field of study and type of activities meets practice goals. During practice student need to be acquainted with the structure of the company; departments and their relationship; enterprise unit in which the practice is carried out, the infrastructure and policies, examine the equipment used and technology; self-fulfilled individual assignment, which specify the practice supervisor of the enterprise; write a practice report.

Module aim

The aim of this subject course is to provide students with in-depth knowledge of data center technologies, their development, management and application. Learn how to configure and maintain a working data center.

Module description

This subject course reviews Data Centers infrastructure, network, security, energy efficiency, servers and virtualization technologies. Dynamic routing and data storage protocols are examined. Some, but not all, of the main technologies that will be covered during the lectures are listed below: VXLAN, BGP, OSPF, SDN, KVM, NAS, SAN. The implementation of data centers of large IT companies is reviewed.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

To give knowledge about types of information transmission media, design principles of digital information transmission systems and modern digital information transmission systems.

Module description

The subject provides general knowledge about information transmission systems (ITS), their general structural diagram and the processes taking place in them, the types of signals used for message transmission, interference, digital information flows and their formats. Broadcast radio communication, radio relay communication, satellite communication, optical communication, mobile communication and other ITS are considered.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

Overall goal of Bachelor Graduation Thesis: create applied information and communication system engineering project or perform investigation of information and communication system object in order to proof abilities to integrate knowledge acquired during studies and work individually or in team, and by successful defence of Bachelor Graduation Thesis proof achievement of goals of study program.
Goal of Graduation Thesis 1: Set up topic of Bachelor Graduation Thesis and gather initial data, set up and analyse task of Bachelor Graduation Thesis, set up the thesis preparation timetable.

Module description

Preparation of final technical project, performance of economical, environmental impact and human safety analysis, preparation of final technical report and graphical material of Graduation Thesis, preparation and presentation of presentation for defence of Graduation Thesis. Abilities to thoroughly prepare graphical and textual documentation, to responsibly schedule own work and time, to be communicative working in a team and making oral presentation, are developed.

Module aim

Overall goal of Bachelor Graduation Thesis: create applied information and communication system engineering project or perform investigation of information and communication system object in order to proof abilities to integrate knowledge acquired during studies and work individually or in team, and by successful defence of Bachelor Graduation Thesis proof achievement of goals of study program.
Goal of Graduation Thesis 2: To continue preparation of Bachelor Graduation Thesis according to timetable, to prepare technical project, to perform essential investigations.

Module description

Preparation of technical project, performance of essential investigations and/or calculations, preparation of graphical material. Preparation of second technical report. Delivers knowledge about the implementation of IoT systems and services. Abilities to combine theoretical and practical elements, to apply information technologies, to assess and analyse data, to plan work and have holistic attitude are exercised. Abilities to thoroughly prepare graphical and textual documentation, to responsibly schedule own work and time, to be communicative working in a team and making oral presentation, are developed.

Module aim

Overall goal of Bachelor Graduation Thesis: create applied IoT engineering project or perform investigation of IoT object in order to proof abilities to integrate knowledge acquired during studies and work individually or in team, and by successful defence of Bachelor Graduation Thesis proof achievement of goals of study program.
Goal of Graduation Thesis 3: To finalise technical project, perform given economical, environmental impact and human safety analysis, properly and in time prepare, pres

Module description

Preparation of final technical project, performance of economical, environmental impact and human safety analysis, preparation of final technical report and graphical material of Graduation Thesis, preparation and presentation of presentation for defence of Graduation Thesis. Abilities to thoroughly prepare graphical and textual documentation, to responsibly schedule own work and time, to be communicative working in a team and making oral presentation, are developed.

Module aim

The aim of the subject is to apply the knowledge and skills acquired in studied subjects to develop an EBS accordingly to the set parameters and application destination, learn to design the structure of the system, analyse it and plan the development timing.

Module description

The knowledge and skills, acquired during the studies of the following subjects: ” Databases”, “Digital Signal Processing Tools”, “Computer Networks”, “Software Design”, are combined during CIS development process. In paraller studied subjects’ “Network Programming” and “Multimedia Systems” knowledge and skills are deepened. In the integrated course project, the knowledge and skills are applied in practice during the development of CIS. Skills of reasonable selection of the methods and software tools for solution of the problem and related tasks are acquired. The course project prepares for the completion of the final thesis second and third stages, defence of the thesis.
Students must complete all assigned practical work, with at least 80% of these tasks completed as scheduled.

Module aim

Learn to analyse, design and evaluate telecommunications networks. Working independently and as a group to be able to
solve complex telecommunications infrastructure development and data transmission technology challenges.

Module description

This course will provide students with holistic understanding of modern integrated public mobile and fixed
telecommunications networks, including “Cloud” communications concepts, and the future perspective for development of
these networks and technologies.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

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.

Module description

The academic style and its place in the system of functional styles is analyzed. The differences of spoken and written language, the public and non-public language features are discussed. A detailed analysis of the terms concept, types, requirements, structure, terminology management techniques is presented. The focus on the analysis of scientific language expression patterns and disadvantages of scientific text composition features. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

To indoctrinate students with the fundamentals of law, with system of law and order, the basic legal acts.

Module description

In the law course, non-legal specialty students are introduced to the main aspects of the Lithuanian legal system in an attractive way, the sources of law are examined, legal relationships are revealed, and legal responsibility is assessed. There is a strong focus on legality, law and order, discussing legal behavior and the validity of legislation.

Module aim

Overall goal of Bachelor Graduation Thesis: create applied information and communication system engineering project or perform investigation of information and communication system object in order to proof abilities to integrate knowledge acquired during studies and work individually or in team, and by successful defence of Bachelor Graduation Thesis proof achievement of goals of study program.
Goal of Graduation Thesis 2: To continue preparation of Bachelor Graduation Thesis according to timetable, to prepare technical project, to perform essential investigations.

Module description

Preparation of technical project, performance of essential investigations and/or calculations, preparation of graphical material. Preparation of second technical report. Delivers knowledge about the implementation of IoT systems and services. Abilities to combine theoretical and practical elements, to apply information technologies, to assess and analyse data, to plan work and have holistic attitude are exercised. Abilities to thoroughly prepare graphical and textual documentation, to responsibly schedule own work and time, to be communicative working in a team and making oral presentation, are developed.

Module aim

Overall goal of Bachelor Graduation Thesis: create applied IoT engineering project or perform investigation of IoT object in order to proof abilities to integrate knowledge acquired during studies and work individually or in team, and by successful defence of Bachelor Graduation Thesis proof achievement of goals of study program.
Goal of Graduation Thesis 3: To finalise technical project, perform given economical, environmental impact and human safety analysis, properly and in time prepare, pres

Module description

Preparation of final technical project, performance of economical, environmental impact and human safety analysis, preparation of final technical report and graphical material of Graduation Thesis, preparation and presentation of presentation for defence of Graduation Thesis. Abilities to thoroughly prepare graphical and textual documentation, to responsibly schedule own work and time, to be communicative working in a team and making oral presentation, are developed.

Module aim

To learn design and implement fragments of information and communication systems and get initial skills for preparation of Graduation Thesis.

Module description

Automation of information and communication systems complex course project delivers fundamental knowledge and abilities to design and implement fragments of information and communication systems using modern automation tools; to prepare for preparation of Graduation Thesis. Two supervisors supervise the project. One supervises methodical tasks, the other one – topic related tasks.
Students must complete all assigned practical work, with at least 80% of these tasks completed as scheduled.

Module aim

The purpose of Mobile Communication Technologies course is to provide students with the knowledge and skills necessary to understand, implement and manage mobile communication networks and the technologies used in there.

Module description

This course is designed to enhance students’ knowledge of mobile networks and their employed technologies. The curriculum covers the description and analysis of various mobile services, broadband service coverage and quality requirements, as well as the principles of 4G/5G networks planning and their future development trends. It will provide a comprehensive understanding of the importance and place of mobile technologies in the context of global Internet. It also shows how modern mobile technologies converge with cloud computing technologies in the form of Edge Computing solutions.
Students are required to attend all theoretical lectures, with attendance exceeding 50% over the course of the semester. Students must complete all assigned laboratory work, with at least 80% of these tasks completed as scheduled.

Module aim

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.

Module description

The academic style and its place in the system of functional styles is analyzed. The differences of spoken and written language, the public and non-public language features are discussed. A detailed analysis of the terms concept, types, requirements, structure, terminology management techniques is presented. The focus on the analysis of scientific language expression patterns and disadvantages of scientific text composition features. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

To indoctrinate students with the fundamentals of law, with system of law and order, the basic legal acts.

Module description

In the law course, non-legal specialty students are introduced to the main aspects of the Lithuanian legal system in an attractive way, the sources of law are examined, legal relationships are revealed, and legal responsibility is assessed. There is a strong focus on legality, law and order, discussing legal behavior and the validity of legislation.