14. Radio Engineering Systems

Home Education Bachelor degree programs Educational programs of Bachelor's degree Modular reference book "Radio engineering, electronics and telecommunications" 6B06201

Module Name:	Module 14: Radio Engineering Systems
Code	M14REET(Ba)
Module Elements:	Compulsory Subject Multichannel Telecommunication Systems Radio Engineering Systems
Semester Number:	7
Person responsible for the module	Y.V. Gerasimova
Lecturer:	Multichannel Telecommunication Systems – G.V. Savostina Radio Engineering Systems – Y.V. Gerasimova
Language:	Russian, Kazakh
Curriculum relation:	Radio Engineering, Electronics and Telecommunications (Ba)
Type of teaching / number of hours per week and per semester :	7 semester: hours per week – 20 (lectures -2; workshops -1; labs-4; independent work -13); hours per semester – 300.
Workload:	Teaching Load: 105 hours Extracurricular Classes: 195 hours Total: 300 hours
Credit Points:	10 ECTS
Conditions for Examinations:	For admission to the exam, the student must score at least 50 points out of 100 available for the subject of the module
Recommended Conditions:	This module is based on the knowledge gained in the course of the following modules: Basics of Mathematics, Basics of Electrical Engineering, Design of Electronic Devices, Theory of Electrical Communication, Digital Control Systems
Expected Learning Outcomes:	Know: - principles of construction of radio engineering and telecommunication systems; - basic telecommunication technologies, types of equipment used in networks, signaling protocols of modern networks, principles of multiservice networks, principles of network management; Be able to: - use modern means and methods of collection, processing, storage and output of information in solving various technical problems; - calculate the main properties of radio systems; - use special software for traffic analysis and network monitoring; - apply methods of optimal solutions theory in designing radiosystems of information transfer, in radiolocating and radio-navigation systems; Possess the skills: - network fault detection and identification; - application of basic statistical methods of analysis and synthesis in radio systems; Demonstrate the ability: - to implement the processes of shaping and processing of signals in radio engineering devices and systems; - to apply the methods of the optimal solutions theory in the design of radio systems of measurement, transmission and control.
Intendend use/applicability	Modules: Final Internship, Final Academic Assessment
Content:	Radio Engineering Systems Basics of construction of radio engineering systems. Radio information transmission systems. Theoretical principles of multichannel information transmission systems. Mobile communication systems. Generation of GSM networks. Generation of multichannel radio communication. Multichannel Telecommunication Systems General concepts of communication networks and communication systems. The main tasks of multichannel telecommunication systems. The structure of analog transmission systems. Linear and network paths of analog transmission systems. Structure of digital transmission systems. Analog-to-digital and digital-to-analog conversion. Principles of multiplexing. Synchronization. Quality control of transmission channels and paths.
Examination Form, module mark:	Comprehensive examination including Radio Engineering Systems – course paper defense Multichannel Telecommunication Systems - written examination Module mark: course paper Radio Engineering Systems
Technical/Multimedia Facilities:	Multimedia system. Laboratories of Radio Engineering Telecommunication Systems and Devices, Digital Communication Systems and Radio Receiving and Transmitting Devices.
Study Materials:	V. V. Krukhmalev, V. N. Gordiyenko, A. D. Mochenov. Digital Transmission Systems: Textbook for high schools / Under the editorship of A. D. Mochenov. - M.: Goryachaya liniya - Telekom, 2007. Basics of Telecommunication Systems and Networks: Textbook for universities /V. V. Krukhmalev, V. N. Gordiyenko, A. D. Kochenov et al.; Under. editorship of V. N. Gordiyenko and V. V. Krukhmalev. - 2^nd ed., Rev. - M: Goryachaya liniya - Telekom, 2008. V. N. Gordienko. Multichannel Telecommunication Systems: Textbook for high schools / V. N. Gordienko, M. S. Tveretskiy. - M.: GLT, 2013. – 396 p. B. I. Kruk Telecommunication Systems and Networks. Textbook in 3 volumes. Volume 1 / B. I. Kruk. - M.: GLT, 2012. - 620 p Y. A. Bogatyrev, Y. A. Grebenko. Circuit Simulation of Electronic Devices. – M.: MEI Publishing house, 2007. A. Vasin. Radio Systems of Information Transmission. – M.: Goryachaya liniya - Telekom , 2005. V. A. Kaplun, Y. A. Brammer, Electronic Devices and Elements of Radio Systems. - M: Vysshaya Shkola, 2002.
Date of last amendment	20.01.2023