Programming of radio engineering systems hardware

8.172.00.09 Programming of radio engineering systems hardware
Qualification awarded: Master of Telecommunications and Radio Engineering
Entry year: 2021
Mode of study: full
Program duration: 1,5 years
Institute: Institute of Telecommunications, Radioelectronics and Electronic Engineering
Number of credits: 90 ECTS credits
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 7 (Second cycle of QF-EHEA / EQF Level 7)
Field(s) of study: Electronics and telecommunications
Characteristics of the educational program: Subject area (field of knowledge, specialty) - Electronics and telecommunications; telecommunications and radio engineering. Orientation on the training of professionals in the field of electronics and telecommunications: scientific employees (electronics, telecommunications); engineers in the field of electronics and telecommunications; technical specialists in the field of electronics and telecommunications. Formation of graduates as professionals capable of solving certain problems and tasks in the field of electronics and telecommunications, in particular in the design, construction, modernization and operation of telecommunication and radio engineering systems and networks.
Gained competence: 1. Concepts of construction and management of TC systems and networks of the third and fourth generations, architecture of TC systems and networks. 2. Technologies and protocols of signal transmission in TC systems and networks. 3. Concepts of implementation of TC systems and networks of the next generation. 4. Basic concepts of the theory of reliability of radio-electronic systems and complexes. 5. The main types of design operations and design procedures of REA. 6. Functional capabilities of modern complexes of automated design of REP. 7. Classification of methods and types of control and diagnosis of REA, main schemes of organization of control and diagnosis of REA. 8. Functional schemes of REA control devices and the main indicators of their efficiency. 9. Concepts of building automated control systems of REP and RES. 10. Approaches, models and methods of structural design of radio-electronic complexes, models and methods of analysis of the behavior of radio-electronic complexes in functional and reliability aspects. 11. Types of maintenance, means and methods of increasing the reliability of radio-electronic systems and complexes. 12. Assessment methods and methods of increasing the reliability and safety of non-redundant, redundant, renewable and non-renewable radio electronic systems and complexes. 13. Methods of physical and information security of communication. 14. Methods of ensuring transmission and reception of radio signals.
1. The ability to analyze the requirements for telecommunication and radio-electronic devices and systems and, based on it, correctly formulate the technical task for the design of such devices and systems. 2. The ability to use the acquired knowledge about the architecture, principles of construction and operation of telecommunication systems for the construction of telecommunication network coverage plans. 3. Ability to apply acquired knowledge about modulation types, technologies and transmission protocols in telecommunication systems and networks to develop frequency plans. 4. The ability to use the functionality of modern software-methodical complexes of automated design for multivariate analysis, assignment of tolerances to the parameters of circuit components, optimization of circuit characteristics according to specified criteria, statistical analysis. 5. The ability to effectively apply automated design methods and tools in the circuit design process, in particular the Micro Cap and MATLAB Simulink programs, to synthesize stable macromodels of linear and nonlinear circuits with concentrated parameters using these programs. 6. The ability to apply the acquired knowledge on control and diagnosis of REA, hardware implementation of existing REA control methods. 7. The ability to assess the influence of control on the reliability indicators of controlled objects. 8. The ability to use the method of analysis of grid structures, to form a mathematical model of the behavior of the object of design (research) in the form of a system of discrete-continuous stochastic equations. 9. The ability to use the method of optimizing the composition of the structure according to the criterion of minimum costs with given limitations on bandwidth and reliability, in particular, to use problem-oriented software packages. 10. Ability to develop functionally complete projects using modern single-chip programmable systems (PSoC). 11. The ability to assess the safety of complex systems using methods of failure mode and consequence analysis (FMEA) and failure mode and consequence criticality analysis (FMECA). 12. The ability to work with the RAM Commander software complex to assess the reliability and safety of radio-electronic systems and complexes. 13. Ability to apply methods of physical, cryptographic and steganographic protection of information channels. 14. The ability to design radio engineering transceivers, including the development of functional and basic electrical circuits and component specifications.
1. Ability to communicate in writing and orally in Ukrainian and foreign languages ??(English, German, Italian, French, Spanish and other languages). 2. The ability to use various methods of communication, including modern information technologies, for effective communication at the professional and social levels. 3. Ability to business communications in the professional sphere, namely to conduct a discussion and teach the basics of professional knowledge in telecommunications and radio engineering, knowledge of the basics of business communication, teamwork skills.
Access to further studies: Obtaining third (educational and scientific / educational and creative) level