Module Name: | Module 24: Modern Communication Systems |
Code: |
M24REET(Ba) |
Module Elements: |
Elective Subjects Satellite Monitoring Systems in Smart-City Wireless Data Transmission Systems Digital Devices for Signal Generation and Processing Protection and Secrecy of Information Smart Technologies in Information Display Devices and Systems Basics of Television and Video Equipment Radio Engineering Systems Simulation Data Collection and Processing Systems Measurement, Transmission and Control Systems Industrial Safety Electrical Safety Global navigation satellite systems Fundamentals of network technologies WEB Applications Designing |
Semester Number: |
7 |
Person responsible for the module |
P.A. Petrov |
Lecturer: |
Satellite Monitoring Systems in Smart-City – P.A. Petrov Wireless Data Transmission Systems – P.A. Petrov Digital Devices for Signal Generation and Processing – V.P. Ivel Protection and Secrecy of Information – S.S. Moldakhmetov Smart Technologies in Information Display Devices and Systems– P.A. Petrov Basics of Television and Video Equipment – D.V. Ritter Radio Engineering Systems Simulation – G.V. Savostina Data Collection and Processing Systems – Y.V. Gerasimova Measurement, Transmission and Control Systems – P.A. Petrov Industrial Safety – T.I. Krashevskaya Electrical Safety – Y.V. Gerasimova Global navigation satellite systems – G.V. Savostina Fundamentals of network technologies– G.V. Savostina WEB Applications Designing – N.V. Astapenko |
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 – 40 (lectures -4; workshops -4; labs-6; independent work -26); hours per semester – 600. |
Workload: |
Teaching Load: 210 hours Extracurricular Classes: 390 hours Total: 600 hours |
Credit Points: |
20 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: Receiving and Transmitting Devices, Antenna-Feeder Devices, Digital Control Systems, Data Transmission in Telecommunication Systems |
Expected Learning Outcomes: |
Know: - methods of transmission, reception and processing of signals; - technical methods of generating and shaping of electrical signals used for radio and television; - principles of construction of modern radio engineering and telecommunication systems; - principles of construction and application of analog and digital devices of various functional complexity; - physical principles of transmission of optical images and technical methods of construction of television systems and video recording systems; - basics of modeling of radio-electronic and telecommunication devices in various virtual environments; - graphic editors for drawing schematic diagrams of electronic devices; - general principles of construction of automatic control systems; - requirements and methods for ensuring internal and external electromagnetic compatibility of radio electronic devices for various purposes; - legal, regulatory and institutional basics of labor protection in the production; - basic definitions and concepts of web-design and programming; - basic techniques of creating and promoting sites; - principles of operation and application of various navigation systems based on satellite technologies, such as GPS, GLONASS, Galileo, BeiDou, NavIC; - theoretical foundations of the architectural and systemtechnical organization of computer networks, the construction of network protocols, the foundations of Internet technologies. Be able to: - calculate the parameters of the signals when they pass through the radio circuit; - analyze the structure and characteristics of devices and systems of analog and digital information processing; - choose a technical solution for the creation of electrical signals used in the transmission of information with the desired characteristics; - work with various packages of application programs popular in the radio engineering industry; - 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; - apply standards and regulations in the field of electromagnetic compatibility; - organize work in accordance with the current legislation, apply regulatory documentation in the design and operation of radio equipment; - provide safe working conditions in professional activity; - design, develop and promote web-resources and applications; - use GNSS to measure distances, heights, speeds and other parameters, as well as to solve problems of navigation, transport management and other applied tasks. - select, integrate and operate software and hardware in the created computing and information systems and network structures. Possess the skills: - application of methods of analysis and synthesis of analog and digital signal processing devices in the field of speech, sound and image processing; - application in practice of the basic provisions of the theory of noise immunity of discrete and analog messages; - checking the functioning, adjustment and control of the main parameters of radio-television equipment; - design, installation and adjustment of analog, digital and microprocessor devices and systems; - application of basic statistical methods of analysis and synthesis in radio systems; - work with normative documentation; - effective use of knowledge and skills in the field of occupational health and safety; - design, development and marketing of web-applications; - use software for data processing of navigation systems; - Network recovery skills. Demonstrate the ability: - to design the receiving and transmitting radar-locating, radio navigation and space systems; - 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; - to be able to make and justify specific technical decisions taking into account the requirements of electromagnetic compatibility, ensuring the necessary level of reliability and safety in the development and use of electronic equipment; - design and create modern Internet applications; - to use the knowledge of the safe operation of electrical equipment in professional activities; - apply knowledge of global navigation systems to solve various problems in various fields and industries; - configure various network equipment.
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Intendend use/applicability |
Modules: Final Internship, Final Academic Assessment |
Content: |
Satellite Monitoring Systems in Smart-City Classification of satellite systems. Principles of operation of satellite data transmission systems. Area of coverage of satellite systems. Features of satellite orbits. Difference in ranges. Technical properties of satellite systems. Satellite navigation system. Satellite monitoring systems. Intelligent devices using satellite monitoring systems. Wireless Data Transmission Systems Classification of wireless communication systems. Classification of radio waves and radio frequency ranges. Channel separation in the transmission of data. Radial networks. Repeater networks. Trunking networks. Cellular network. Mobile network. Satellite network. Wireless LAN. Digital Devices for Signal Generation and Processing Discrete signals and their spectra. Discrete systems and methods of their description. Design of digital filters with infinite and finite pulse characteristics. Automation of design of digital filters using specialized software. Protection and Secrecy of Information Principles of encryption. Data encryption. Encoders. Coding system. Block codes. Cyclic code. Polynomials. Principles of coding in digital data transmission. Smart Technologies in Information Display Devices and Systems Information display devices. Indicators. Led indicator. Liquid crystal displays. Plasma panels. Displays wirh carbon nanotubes. Multimedia technologies. Touch screen. Holographic systems. Basics of Television and Video Equipment Properties and parameters of the television picture. Form and spectrum of the television signal. Frame size. Decomposition strings and frame rate. Liquid crystal and LED technologies. Principles of color transmission in television. SECAM and PAL systems. Basics of digital television. Satellite TV broadcasting. Cable TV system. Radio Engineering Systems Simulation Models of complex systems. Mathematical and physical simulation of radio engineering devices and systems. Computer-aided design and simulation of radio engineering systems. Data Collection and Processing Systems Review and classification of technical means of data processing. Methods of data processing. Classification of technical means of information processing. General properties of a typical approach to the design of data collection and processing systems. Methods of control and error detection. Measurement, Transmission and Control Systems General questions of measuring equipment. Basics of the theory of measurement, transmission and control systems. Structure and algorithms of measurement, transmission and control systems. Methods of evaluation of technical properties of measurement, transmission and control systems. Industrial Safety Legal, regulatory and organizational bases of labor protection at the enterprise. Harmful and dangerous production and factors. Fire safety in enterprises. Technical security of buildings and structures, equipment and tools, and technological processes. Electrical Safety Electrical injuries. Classification of electrical injuries. Norms of voltages and currents passing through the person. Grounding devices of electrical installations and their technical properties. Protective measures in electrical equipment. WEB Applications Designing. Theoretical and practical comprehensive consideration of modern client web-development technologies used to create Web-sites. Global navigation satellite systems Satellite GNSS systems. GNSS receivers. Geodetic GNSS applications. Navigation applications of the STS. Development and processing of STS data. Fundamentals of network technologies Fundamentals of network technologies and the OSI model. The physical layer of network technologies and data transmission. Link level of network technologies and protocols for media access control. Network layer of network technologies and routing protocols. Transport layer of network technologies and data transfer protocols. Network technology application layer protocols, including HTTP, SMTP, FTP, and others. Local area networks (LAN) and Ethernet protocols. Wireless networks (Wi-Fi) and 802.11 standards. |
Examination Form, module mark: |
Satellite Monitoring Systems in Smart-City – computer-based testing Wireless Data Transmission Systems – free-form examination Protection and Secrecy of Information – free-form examination Smart Technologies in Information Display Devices and Systems – written examination Basics of Television and Video Equipment – computer-based testing Radio Engineering Systems Simulation – written examination Data Collection and Processing Systems – written examination Measurement, Transmission and Control Systems – free-form examination Electrical Safety – Written control work Industrial Safety – Written control work WEB Applications Designing - free-form examination Global navigation satellite systems– written examination Fundamentals of network technologies- free-form examination Module mark: free-form examination Elective Subject |
Technical/Multimedia Facilities: |
Multimedia system. IT room. Laboratories of Digital Devices and Microprocessors, and Microcontrollers and Special Microprocessors basing on MK АТ90Ѕ8535. Laboratory of Computer Mathematics and Electronic Simulation. Research laboratory of Robotics, Microelectronics and Energy Ecology. Laboratory of Radio Engineering Telecommunication Systems and Devices. |
Study Materials: |
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Date of last amendment |
20.01.2023 |