8D06201 - Radio engineering, electronics and telecommunications | Al-Farabi Kazakh National University

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8D06201 - Radio engineering, electronics and telecommunications

Name of educational programs	8D06201 Radio engineering, electronics and telecommunications
Code and classification of the field of education	8D06 Information and communication technology
Code and classification of training areas	8D062 Telecommunications
Group of EP	Information and Communication technologies
Aim of EP	The aim of the educational program "Radio Engineering, Electronics and Telecommunications" to provide training of highly qualified specialists in the field of radio engineering, electronics and telecommunications, possessing fundamental knowledge based on a solid experimental and theoretical basis, the latest scientific achievements, possessing the skills and abilities to conduct scientific research in the field of radio engineering, electronics and telecommunications in demand in research institutes, research centers, constructs bureaus and design bureaus, firms and companies, educational institutions and government bodies of the corresponding profile.
language	Kazakh, Russian, english
Labor input:	180 academic credits
Type of EP	Doctorate
Expected learning outcomes EP	Upon completion of this educational program, students are expected to be able to: 1. model ultra-high-frequency and ultra-wideband communication systems, develop modern wireless hardware systems and analyze the functioning systems of new high-speed wireless networks; 2. interpret the current results of research and achievements in the field of radio engineering, electronics and telecommunications, conduct research work devoted to the study of individual problems of radio engineering, electronics and telecommunications; 3. apply nanostructured semiconductors in the creation of new electronic devices and analyze the physical properties and methods of producing devices used in electronics and telecommunications; 4. analyze the results of research work and draw conclusions on the results obtained and apply the results of our own research and scientific work of other research groups for the development of radio engineering, electronics and telecommunications; 5. to explore new models of routers of telecommunication systems, information-entropy methods for determining the signal-to-noise ratio, 6. put into practice developments in accordance with the latest wireless standards, build mathematical models of processes in telecommunication networks and systems, make an analysis and forecast of the development of modern technologies in the field of radio engineering, electronics and telecommunications; 7. compare the methods of conducting scientific and applied work and conduct communication in the scientific field, including on the problems of studying the electrical and optical properties of nanostructured semiconductors; 8. apply professional and practical skills in scientific and pedagogical activities, use modern information technology to search, store, process and transmit the necessary new scientific and technical information; 9. use modern software packages to calculate and analyze the physical characteristics of antenna devices, nanoscale semiconductors, and also look for possible applied features of promising developments; 10. analyze modern models of highly sensitive sensors, based on the analysis of the data obtained, identify the disadvantages and advantages of certain electrical and optical properties of new nanostructured devices and apply new methods of analysis and classification; 11. look for methods to ensure the protection of limited access information from leakage, study transceivers and estimate noise levels using entropy signal analysis; 12. solve urgent problems in the field of radio engineering, electronics and telecommunications, work with leading organizations in this field, seek joint solutions using new modern technologies using artificial intelligence, IoT and sensor technologies.
For candidates	https://welcome.kaznu.kz/ru/education_programs/doctorate/speciality/1530
Academic activities	Human resource potential: At the department work: -11 doctors of physical and mathematical science and technical science; -12 professors; -22 candidates of physical and mathematical sciences and technical sciences; -16 associate professors; -18 Doctors PhD. The program is aimed at training specialists who are able to further conduct research in the following areas: the study of the electrical and optical properties of nanostructured semiconductors; synchronization processes in electronic systems; development of a new type of antenna; the study of the nonlinear characteristics of neural networks and the development of new intelligent systems based on them, the development of new broadband radio-technical generators; creation of optimal routers for telecommunication networks; determination of the signal-to-noise ratio by the information-entropy method; nanosatellite development. Doctoral students are involved in scientific and technical problems in the field of radio engineering, electronics and telecommunications and the search for optimal methods for solving these problems. The most successful works are published in foreign rating journals, other works in local journals recommended by the Science Committee of the Republic of Kazakhstan.
Scientific activities	For the implementation of the educational program at the faculty there are laboratories: 1. Telecommunication Systems Laboratory 2. Laboratory of Nanoelectronics 3. Laboratory of Nonlinear Signal Analysis 4. Laboratory of Astrophotometry and Optoelectronics 5. Laboratory of Physics of Chaotic Processes 6. Laboratory of Nonlinear Physics 7. Technological laboratory of thin-film semiconductor materials and nanostructures. 8. Laboratory of X-ray analysis. 9. Laboratory of semiconductor optoelectronics and nanophotonics.
International activity	Throughout the entire educational process, doctoral students have the opportunity to attend the advice of foreign specialists who are relevant to the doctoral student’s field of study. The knowledge and skills acquired in doctoral studies allow them to participate in research work conducted by teachers of the department. Remote educational technologies are used in the educational process for students with a distance learning, who have left the country under the program of scientific doctoral internship programs. For example, Rensselaer Polytechnic Institute, Troy, New York, USA, Laval University, Canada, Leibniz Institute of Photonic Technology, Jena/Germany
Quality assurance (Accreditation, rating, work with employers)	International accreditation, national accreditation Practice places: 1. Subsidiary Limited Liability Partnership “Institute of Space Engineering and Technology” JSC “National Center for Space Research and Technology” 2. A subsidiary state enterprise "Institute of Experimental and Theoretical Physics" of the al-Farabi Kazakh National University. 3. A subsidiary state enterprise “National Open Nanotechnology Laboratory” of the al-Farabi Kazakh National University. 4. Physical and Technical Faculty of the Al-Farabi Kazakh National University. 5. "Laboratory of Engineering Profile" of the al-Farabi Kazakh National University. 6. National electronics and communications companies