Fundamentals of the Radio Engineering Systems Theory, Part 1

Major: Telecommunications and Radio Engineering
Code of subject: 6.172.04.E.121
Credits: 5.00
Department: Radioelectronic Appliances and Systems
Lecturer: Ph.D., docent Fabirovskyy Sergiy Yevgenovych
Semester: 7 семестр
Mode of study: денна
Learning outcomes: Following the completion of the module the students must: • master the general methods for construction and analysis of radioengineering systems, study the principles and main characteristics of individual devices and radar and navigation systems, to acquire the skills for their development, which allow to solve certain problems of obtaining information; • know the modern methods of statistical analysis and synthesis of optimal or suboptimal processing devices and radio path selection principles and structures of construction of radar and navigation systems for various applications; • be able to develop the block diagrams of radar and radionavigation systems; select probes (carrier) signals and for their encoding methods to provide the noise immunity of systems and their highest performance; evaluate qualitative indicators of radioengineering systems.
Required prior and related subjects: • Prerequisites: Physics, Further Mathematics, Probability, Statistics and Stochastic Processes, Signals and Processes in radioengineering, Statistical radiotechnics; • Co-requisites: Methods of signals generation and formation, Methods of signal reception and processing, Microwave devices and antennas, Radioautomatics.
Summary of the subject: The discipline "Fundamentals of radio system theory" concerns the methods of construction and the development of radioelectronic systems and the radioengineering in general, its purpose is to help students to learn the principles of a systematic approach to the development of any system, to deepen knowledge on the basics of the theory of radiosystems for various applications, including those studied as a whole number of disciplines of the curriculum training of specialists of this profile.
Assessment methods and criteria: Current monitoring of laboratory classes is carried out in order to identify the student's readiness for classes in the following forms: - a selective oral survey before the start of classes; - assessment of the student's activity in the course of classes, submitted proposals, original solutions, clarifications and definitions, additions to previous answers, etc. Control questions are divided into: a) test tasks - choose the correct answers; b) problematic – creation of problematic situations; c) questions-replies - to identify cause-and-effect relationships; d) situational tasks – to determine the answer according to a certain situation; e) issues of a reproductive nature - determination of practical significance. The final control is carried out based on the results of the current control and performance of the control work.
Recommended books: • Sumyk M.M. Fundamentals of the theory of radio engineering systems: A textbook for universities. -Lviv, Publishing House "LP", 2005. • Nykolyshyn M.Y. Radio engineering methods of navigation [Text]: academic. manual / M.Y. Nykolyshyn; National Lviv Polytechnic University. - Lviv: Publishing House of Lviv Polytechnic, 2020. - 123 p. : fig., tab. - Bibliography: p. 121. - 200 copies - ISBN 978966-941-498-4 • Radio engineering systems (Fundamentals of design. Part 1): teaching. manual / V. M. Kychak, A. Yu. Volovik, M. A. Shutylo, O. P. Chervak ??- Vinnytsia: VNTU, 2018. - 122 p. • Synopsis of lectures on the discipline "Radio engineering systems" for students of higher education of the second (master's) level in the specialty - 172 "Telecommunications and radio engineering"./Incl.: S'yanov O.M., Marchenko S.V. - Kamianske; DDTU, 2018 - 88 p. • Theory of signals. / Sumyk M., Prudyus I., Sumyk R. /: The textbook. - Lviv, Beskid BIT, 2008.