G5 Network technologies and telecommunications – bachelor
G5 Electronics, electronic communications, instrumentation and radio engineering
Network technologies and telecommunicationsBachelor
Specialty G5 “Electronics, Electronic Communications, Instrumentation and Radio Engineering”, Educational Program – “Network Technologies and Telecommunications” (ICM, NTU “KPI”) is aimed at training specialists based on the knowledge of modern technologies of electronic communications, mathematical models and methods, information technologies and methods of artificial intelligence for the creation of telecommunications systems and networks with the proper level of quality of services.
The purpose of the educational program is to ensure the training of experts in the field of electronic communications, able to formulate, summarize and solve practical tasks in their professional activity on the basis of a high level of professional training and scientific outlook with the use of fundamental and special knowledge and systematic approach.
The educational program of the current year and the EP archive are available on the site of the quality assurance department of NTU “KPI”
Characteristics of the educational program
The main focus of the educational program. The program focuses on the study of modern technologies of information transmission, projection of systems of electronic communications with ensuring optimal management of networks and their elements on the basis of information technologies and methods of artificial intelligence
Features of the program. The program provides the formation and development of general and professional competences for the implementation and use of electronic communications technologies that contribute to the social stability and mobility of the graduate in the labor market, the ability to solve specialized tasks and practical problems in the field of electronic communications and radio engineering, characterized by complexity and uncertainty.
The accent of the educational program is on:
- ICT programming;
- use of CISCO network technologies;
- the use of the latest technologies for the protection of PaloAlto networks;
- Cisco’s modern software and hardware;
- The design of the program goals took place in the framework of international projects «dcomfrа: digital Competence framework for ukrainian teachers and other citizens Erasmus+ka2, 598236-EPP-1-2018-1-LT-EPPKA2-CBHE-SP», Erasmus+ka2 digiuni: digital university – open ukrainian Initiative (2023-2027), №101129236;
- application of data analysis technologies with the execution of descriptive, diagnostic, predictive, pre -exclusive analytics to determine the quality and productivity of telecommunications networks, anomalies in the work of telecommunication systems, search for solutions to problems and corrective actions for optimal load management in information networks;
- Applying artificial intelligence and machine training technologies to optimize the management of information networks.
Practice in companies and companies providing telecommunication services is ensured.
Structural and logical scheme of EP
| REQUIRED EDUCATIONL COMPONENTS | |
| General preparation | |
| GP 1 | Science of law |
| GP 2 | Ukrainian language (professional direction) |
| GP 3 | Foreign language |
| GP 4 | Philosophy |
| GP 5 | History and culture of Ukraine |
| GP 6 | History of Science and Technology |
| GP 7 | Higher mathematics Part 1 |
| GP 8 | Higher mathematics Part 2 |
| GP 9 | Higher mathematics Part 3 |
| GP 10 | Physics Part 1 |
| GP 11 | Physics Part 2 |
| GP 12 | Fundamentals of prof. the safety and health of a person |
| GP 13 | Ecology |
| GP 14 | Physical education |
Special (professional) preparation | |
| SP 1 | Introduction by specialty. Reaching practice |
| SP 2 | Programming and algorithmization |
| SP 3 | Design and Administration of Computer and Telecommunication Networks |
| SP 4 | Object-oriented programming |
| SP 5 | Fundamentals of Cisco Industrial Certification |
| SP 6 | Electronics Fundamentals and Scheme Engineering in Electronic Communications |
| SP 7 | Transmission lines and fiber -optic equipment in electronic communications |
| SP 8 | Fundamentals of probability theory and mattstatics |
| SP 9 | Theory of electrical communication |
| SP 10 | Intellectual data analysis |
| SP 11 | Computing equipment and microprocessors |
| SP 12 | Management in telecommunications systems |
| SP 13 | Methods and algorithms of artificial intelligence in electronic communications |
| SP 14 | Theory of Information and encoding |
| SP 15 | Mobile systems |
| SP 16 | Protecting information in electronic communications |
| SP 17 | Intellectual traffic management |
| SP 18 | Telecommunication networks monitoring systems |
| PP 1 | Production practice |
| PP 2 | Pre-graduation practice |
| Attestation | |
| SELECTIVE EDUCATIONAL COMPONENTS | |
| ECFP 1 | Databases and information systems |
| ECFP 1 | Engineering and computer graphics in telecommunications |
| ECFP 1 | Design of relational databases |
| ECFP 2 | Python programming |
| ECFP 2 | Support decision -making in electronic communications |
| ECFP 2 | 3D modeling |
| ECFP 3 | Telection transmission systems |
| ECFP 3 | Electronic communications |
| ECFP 3 | Devices and systems in electronic communications |
| ECFP 4 | Operating systems |
| ECFP 4 | Web programming |
| ECFP 4 | Neuro -network technologies in electronic communications |
| ECFP 5 | Digital signal processing |
| ECFP 5 | Billing systems in electronic communications |
| ECFP 5 | Reliability and diagnosis of telecommunications systems |
| ECFP 6 | Technologies for the development of server applications |
| ECFP 6 | ІоТ construction technologies |
| ECFP 6 | Machine training technologies |
| ECFP 7 | Switching systems in telecommunication |
| ECFP 7 | Switching Methods in Telecommunication Networks |
| ECFP 7 | Principles for building switching systems |
| ECFP 8 | Access systems |
| ECFP 8 | Multi -gault systems and technologies |
| ECFP 8 | Fundamentals of Creating High -Extended Telecommunication Systems |
| ECFP 9 | Distributed and parallel calculations |
| ECFP 9 | Large data analytics |
| ECFP 9 | Modeling of telecommunications systems |
| ECFP 10 | Management of information services, networks and access |
| ECFP 10 | Designing objects in the field of information with software elements |
| ECFP 10 | Configuration and engineering of telecommunications networks of new generations |
| ECFP 11 | Next generation telecommunications networks |
| ECFP 11 | Optimization of resource allocation in telecommunications systems |
| ECFP 11 | Safety of ІоТ |
| ECFP 12 | Economics of intellectual business |
| ECFP 12 | Management of Economic Security of Enterprise |
| ECFP 12 | Economics and Innovation Management: European Experience |
| ECFP 13 | Network and cloud safety |
| ECFP 13 | Fundamentals of cloud safety |
| ECFP 13 | Deployment of cloud safety |
Disciplines of free choice of a student from the general university catalog of disciplines | |
| FP 1 | Discipline 1 |
| FP 2 | Discipline 2 |
| FP 3 | Discipline 3 |