Radio engineering, electronics and telecommunications (specialized)

Master of Technical Sciences in the educational program "7M06201 - Radio engineering, electronics and telecommunications"

чек иконка Languages ​​of instruction: kazakh, russian

чек иконка Type: master

чек иконка Minimum Admission Score: 75

чек иконка Requirement for Graduation: не менее 90 кредитов

Радиотехника, электроника и телекоммуникации (профильная)

Goals

The professional Master's program in "Radio Engineering, Electronics, and Telecommunications" focuses on training specialists with practical skills in the development, operation, and modernization of modern telecommunication and radioelectronic systems. The curriculum covers a wide range of subjects, including wireless technologies, digital communication systems, signal processing, and network infrastructure. Graduates are qualified to work in engineering and manufacturing companies, telecommunications enterprises, and high-tech industries.

  • ON1 Demonstrate the improvement and development of their intellectual and general cultural level and skills for independent learning of new research methods, to change the scientific and scientific-industrial profile of their professional activities

  • ON2 To develop plans and programs for the organization of innovative activities at the enterprise, to carry out feasibility studies of innovative projects; organization of production and promotion of innovative products on the markets

  • ON3 Demonstrate knowledge of the life cycle of project activities, the rules of software product development, the main business processes of the company, the basics of personnel management, production, management, management psychology, information security issues.

  • ON 4, When developing and operating telecommunications networks and systems, take into account international experience in technical regulation, metrological support and life safety

  • ON5 Demonstrate skills to participate in the creation of projects for the development of infocommunication infrastructure and its individual elements

  • ON6 Demonstrate research results in the form of reports, abstracts, publications and public discussions; interpret and present research results, including in a foreign language

  • ON7 Demonstrate independent determination of the purpose of professional activity and choose adequate methods and means to achieve them. The implementation of scientific and innovative activities to acquire new knowledge

  • ON8 Demonstrate conceptual knowledge in the field of science and professional activity. Creation of new applied knowledge in the professional field

  • ON9 demonstrate the ability to organize an expert examination of project documentation for the construction and construction of communications and information infrastructure facilities in accordance with current legislation

  • ON10 Uses modern scientific achievements and advanced information and communication technologies, methods of conducting theoretical and experimental research in scientific research in the field of engineering and technology.

Astel JSC, Kazakhtelecom JSC, Transtelecom JSC, SDTB Granit LLP, Kap-Tel LLP, Eltex LLP, PSTK Bitelecom JSC, Altel JSC, KazTransKom JSC, LLP W Telekom, Kazteleradio JSC, Huawei-Almaty LLP, Tarlan Telecom LLP, Basis Telecom LLP, Mobile Telecom Service LLP, Alsi LLP, Otis LLP of Beeline, K ' cell and LG, Ministry of Communications of the Republic of Kazakhstan.

  • B-127. The Object - Oriented Programming and Mobile Technologies laboratory is equipped with 4 laboratory stands with replaceable units of various levels of complexity from studying simple circuits to systems based on microcontrollers: Bench equipment for wireless technologies Bluetooth, Wi-Fi, ZigBee, GSM; Basic elements of digital technology, ADC codecs; Bench equipment for remote monitoring; Communication systems with time division of channels.

  • B-401. Laboratory "Infocommunication Technologies" is an authorized training center D-Link named after Professor Bektibaeva T.K.

  • B-402. Laboratory "Virtualization and Cloud Technologies" is an authorized training center of the Iskratel company. Professor Dzhangosin A.D.

  • B-403. The Open Source Laboratory is equipped with modern computers.

  • B-405. The laboratory "Fundamentals of infocommunication networks and systems" is equipped with laboratory stands for studying electrical transformation processes occurring with information when it is transmitted through a communication system and 4 sets of next generation SDH industrial equipment OptiX OSN 1500 from Huawei Technologies Co. Ltd, which are mounted in two telecommunication racks and connected in a ring pattern. Also, this laboratory is equipped with 5 base transmitting and receiving stations of 3G mobile telecommunications of the Nokia-Siemens company, where students study the following functions of the network: - radio coverage; receiving and transmitting data and service information from / to a mobile station; mobile station power control; quality control of information transmission, etc.

  • B-406. The laboratory "Modeling of telecommunication networks and processes" is provided with modern computers with software that allows you to build various virtual telecommunication networks: System View (System Vue) by Elanix; GPSS - Word from Mituteman; Lab View from National Instruments; Boson Network; NetCracker Professional 4.0; PCP Shredder; Asterisk; STATISTICA.

  • B-409. The laboratory "High-speed optical communication systems" is equipped with 4 laboratory stands "Investigation of the characteristics of the optical fiber joint", "Investigation of the characteristics of optical fiber optical fibers", "Investigation of the characteristics of the transmitting optical module for Fiber Optic Communication Lines", "Investigation of the characteristics of the receiving optical module for Fiber Optic Lines Communications ”for studying multichannel telecommunication systems.

  • B-410. The laboratory "Space and ground radio communication system" includes laboratory equipment and a computer class for performing virtual work. The laboratory uses the following equipment: subunit of the expander of the receiving satellite station "Moscow"; digital satellite receiver Digital Satellite Receiver for studying satellite TV signal reception technology; a set of a satellite installation for studying the technology of receiving a digital TV signal and an Internet data transmission stream with the possibility of direct recording of the received signal on a computer for subsequent processing; four universal laboratory stands with 16 replaceable units for laboratory work to study the principles of operation of various transmitter units; a set of digital radio modems with the possibility of organizing a digital radio relay line CISCO-AIR-BR-350. There are 11 computers in the laboratory, the software of which allows performing virtual laboratory work in the following disciplines: Satellite and radio relay transmission systems; Optical communication systems; Telecommunication system guides. 10 student computers of the combined laboratory with hardware and software complexes for studying Wi-Fi networks connected via Wi-Fi wireless technology to the local network of AUPET. Mobile trunking stations ALINCO (analog) and Hytera (digital) for learning their programming, specialized settings and conducting negotiations in the selective call mode.

  • B-412. The laboratory "Antenna - feeder devices and radio wave propagation" is equipped with laboratory installations for studying the processes of radio wave conversion in waveguides of various types, as well as modern computers for emulating the operation of antenna - feeder devices and software for information protection in telecommunication systems connected to a DHCP server. Also, a laboratory model for video surveillance was installed in this laboratory.

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