Famous representatives of the scholar school:

Doctors of Sciences: Professor Oliynyk V.F., Professor Marchuk L.A., Professor Titarenko L.O., Professor Lemeshko O.V., Professor Kolyadenko Yu.Yu., Professor Yevsieieva O.Yu., Professor Ageiev D.V. Professor Garkusha S.V., Professor Shostko I.S., Associate Professor Yeremenko O.S., Associate Professor Duravkin Ye.V., Associate Professor Moskalets M.V.;

Candidates of Sciences: Associate Professor Yevdokymenko M.O., Associate Professor Kovalenko T.M., Associate Professor Radivilova T.A. etc.

Areas of research:

methods of optimal control and evaluation of telecommunication systems (TCS) state based on the implementation of dynamic (differential) formalisms and structures;

theoretical foundations of structural and functional construction of infocommunication systems and management of their resources based on the implementation of tensor methodology of research;

development of service management systems in multi-service networks, including cloud networks, methods of verification of network protocols based on the use of artificial intelligence methods and E-networks apparatus;

theoretical bases of designing and restructuring telecommunication systems and networks based on the use of multilayer graphs;

methods of providing quality of service and fault tolerance of next generation networks on the basis of optimization of traffic management and routing processes;

research of statistical characteristics of traffic in telecommunication networks based on the theory of fractals and self-similar processes;

models and methods of providing information and network security in TCS, developing risk assessment systems, finding vulnerabilities and detecting network attacks;

methods and technologies for controlling time-frequency resource in 4G and 5G wireless networks.

The most significant scientific achievements:

1. Formation of the general structure of the theory of telecommunication systems, its mathematical foundations, directions of filling and development on the basis of principles and postulates of the general theory of systems and the concept of “System policy rules”. Construction of a system of mathematical models of telecommunication systems that adequately reflect their structural and functional characteristics.
2. Development of symplectic multidimensional TCS models for the estimation of connectivity, structural complexity and heterogeneity.
3. Development of differential stochastic models of TCS reflecting the dynamics of changes in the state of network elements, network fragments or systems in general, allowing to evaluate such properties of TCS as controllability, stability, optimality, etc.
4. Tensor models of TCS, which provide the possibility of an invariant representation of the system as a whole and processes in it, for solving traffic control tasks, including routing and fast re-routing, traffic profiling and network resource reservation with quality of service provision according to a set of network performance (NP) and QoE indicators.
5. Methods of adaptive space-time processing of signals in a complex signal-to-noise-and-interference situation in mobile communication systems based on antenna arrays implementation. Methods of introducing Smart-antenna technology in mobile and wireless access systems. Models and methods of multi-station multiple access based on the active use of space, polarization, and time physical resources of mobile communication systems.
6. Techniques and methods of providing electromagnetic compatibility (EMC) in dual situations and grouping of electronic devices. Methods of providing EMC adapted to wireless systems and 3G and 4G networks. Proposals on modernization of selecting operating modes and design of antennas.
7. Methods of ensuring the efficient use of Bluetooth, DECT, Wi-Fi, Wi-MAX, LTE systems for subscriber radio access systems toward the implementation of adaptive POFR, MIMO systems.
8. Development of proposals for implementation of the Fixed-Mobile Communication (FMS) concept, fully optical systems, the concept of Next Generation Networking (NGN) and further development of the 4G, IMS and SOA platform.

During the existence of the scholar school, 10 doctoral and more than 50 candidate theses were defended mainly in the field of specialties 05.12.02 – telecommunication systems and networks, 05.12.13 – radio engineering devices and telecommunication facilities; 7 monographs were published, 4 of them – abroad, 8 textbooks classified by Ministry of Education and Science, more than 200 articles and more than 300 reports at conferences (including international conferences of the IEEE and Scopus level). The developed technical solutions are protected by more than 20 patents for the invention and utility model. More than 20 SRWs were performed.

The representatives of the scholar school have been annually organizing and holding the International IEEE Conference 芦Problems of Infocommunications. Science and Technology, (PICS&T)禄 since 2014, the International Scientific and Technical Conference “Problems of Electromagnetic Compatibility of Advanced Wireless Telecommunication Networks (EMC) ” 鈥� since 2015, the open scientific seminar “Problems of Mathematical Modeling of Telecommunication Systems “(PMM-TCS) 鈥� since 2010, and since 2010 the e-journal “Problemy telekommunikacij” has been published, which is included in the list of professional editions of the Ministry of Education and Science of Ukraine.

In 1997, Prof. V. Semenets founded in department of biomedical electronic devices and systems research group for development of biomedical equipment and multifunctional microprocessor systems, which for next 20 years has grown into a scientific school of microprocessor medical systems. It successfully functions today with the scientists of Kharkov National Medical University, Ukrainian Medical Dental Academy, Institute of Medical Radiology. S.P. Grigoriev, Institute of Prosthetics, Institute of Multiphase Processes, Hannover University V. Leibniz (Germany), Harbin University of Engineering (PRC), Kharkiv Regional Clinical Hospital and other institutions.

The research work of the group was aimed at developing high-precision neurosurgical equipment for operations on the deep structures of the human brain.聽 In 2000, based on the results of the work, 2 patents of Ukraine for the design of automated surgical manipulators were obtained and their current models were created.聽 In order to optimize the neurosurgical effects of research aimed at studying the physical foundations and developing the principles of operation of contactless control systems of surgical instruments using a magnetic field.聽 In 2003, 2 patents of Ukraine were obtained for the design of magnetic stereotactic systems with different subsystems of control field formation, Ph.D. thesis was defended by O.G. Avrunin.

Under the guidance of Prof. V. Semenets in 2004-2005, multifunctional laboratory stands were created, including microcontrollers, signal processors, programmable integrated circuits, on the basis of which various autonomous control systems are developed, in particular, for use in medical equipment. The complex is used not only in K海角社区, but also in many universities of Ukraine.

Also in 2007-2012, under the leadership of V. Semenets created a hardware-software complex of high-precision neurosurgical interventions and functional diagnostics of external respiration, which is used in the neurosurgical and otorhinolaryngological departments of the Kharkov Regional Clinical Hospital. For the first time in Ukraine, a unique installation for distance education on technical disciplines was developed and created.

Scientific and technical achievements of school include more than 600 publications, more than 50 patents for inventions, 14 monographs, 14 learning books. 3 doctoral and 13 master’s theses on specialty 05.11.17 – biological and medical devices and systems are protected. 8 state budget themes were completed and one contractual subject.

Cooperation is carried out on the projects BMBF, DAAD, Erasmus +.

Doctors of sciences: Avrunin O.G, Prasol I.V., Sinotin A.M.

Candidates of sciences: Vladov S.I., Ivanov V.G., Knigako Yu.V., Kruk O.Ya., Kukharenko D.V., Nosova T.V., Timkovich M.Yu., Selivanova K., Utitskikh T.A., Khusham Faruk, Shamraeva E.A., Stytsenko T.Ye., Nosova Ya.V., Bondarenko I.S.

Avrunin O.G. and Nosova Ya.V. received the title “Inventor of the Year – 2016”.

Now scientific adviser is Doctor of Technical Sciences, Prof. O.G. Avrunin.

He has supervised 10 PhD theses.

The main directions of development of the scientific school are currently:

• Methods of medical imaging, processing and analysis of diagnostic images;
• Computer planning systems for surgical interventions;
• Equipment for functional diagnosis of nasal breathing disorders;
• Means for diagnosing person’s psychophysical state;
• Virtual simulators of medical equipment;
• Methods for processing microscopic images.

As a result of long-time cooperation and joint development and聽research in the field of information technologies in medicine, 海角社区 joined the Ukrainian聽 Association for in 2018.

Scientific work 芦Intellectual technologies of functional diagnostics and modeling of surgical interventions禄 by author’s team of leading specialists in biomedical engineering, medicine and information technologies: Avrunin O.G., Besshapochny S.B., Bodiansky E.V., Zlepko S.M., Kalashnik M.V., Lysenko A.N., Pavlov S.V., Filatov V.A. was nominated for the State Prize of Ukraine in science and technology in 2018.

Scientific work 鈥淚ntegrated information E-learning environment and rehabilitation approaches for realize equal access to quality education for persons with special needs鈥� authors Avrunin O., Gaiduk N., Nevlyudov聽I., Pavlysh V., Potymko O., Saleeva A., Semenets V., Fedasyua D., Filipenko O. was awarded the State Prize of Ukraine in the field of education in 2019 in the nomination “Vocational and Technical Education”.

The school of bionic intelligence was founded in 1963 by DScTech. Yuryj Petrovi膷 艩abanovym-Ku拧narenkom, Ukrainian distinguished person of technical sciences. From 1984 it prospered and developed under leadership of Prof. DScTech. Michail Fedorovi膷 Bondarenko, rector of the Kharkov National University鈥檚, Ukrainian distinguished person of technical sciences, correspondent of the Ukrainian National Academy of Science, president of the academy of radio electronic science.

More than 300 aspirants and about 30 doctors of technical science are members of the scientific school of bionic intelligence. In this school have already defended the following persons their dissertation: E.P. Putyanin, V.I. Khakhanov, V.Ya. Terziyan, N.V. 艩aronova.

Innovations and discoveries:聽Development of a universal algebraic system of predicates, that mathematical describes the mechanism of human intellect on the realm of bionic intelligence. By foundation of perception models vision, hearing, assessment, language, concepts, is developed a resolver in form of a relational network, which effectively simulates human brains neural network activity. The work focuses on a creation of human brain-like structures for a wide application.

Was founded at the end of the 1950s at the military engineering Anti-Warcraft-Warefare-Academy of radio electronics, named L.A. Govorova. In the Kharkov National University of Radioelectronics, the聽 school was continued under leadership of Prof. DScTech. Yakov Solomonovi膷 艩ifrinyj, President of the national association 鈥淎ntenny鈥�, Ukarinian distinguished person of technical sciences and prize-winner of the A.C. Popova-Prize ofSoviet Union.

The following persons are popular representatives of the school: DScTech. L.G. Kornienko, V.G. Zamyatin, A.F. Maslov, V.A.Usin, B.M. Bachvalov, DMath. A.I. Lu膷aninov, V.V. Dol啪ikov etc.

Among other scientific achievements outstands聽the creation and development of the statistical antennas theory, which allowed for the first time during soviet times, an exploration of the full potential of antennas and real properties, that are essentially radiating systems which random sources. For the first time in the soviet union, the school implemented fundamental experimental studies of long-range tropospheric propagation radio waves (1955-1962). This led to a series of new regularities inherent in the TDR, to elucidate the role of various possible mechanisms of this phenomenon and to construct a new theory of antennas with nonlinear elements to create effective algorithms and programs for calculation of many types of antennas with lumped propagation.

Under the leadership of DScTech. Ya. 艩ifrina and with his support, about 25 dissertations and 50 aspirants finished the school.

The school was founded in 1970 by Prof. Dmath. Yuri Emelyanovi膷 Gordienko, academic of the academy of applied radio electronic science, Ukrainian distuinguished person of technical sciences.

Well know representatives of the school: DSc. N.I. Slip膷enko, V.V. Starostenko, V. L. Kostenko, V.P. Oksani膷, A.Yu Pan膷enko etc.

Dominant scientific concepts are based on theoretical and experimental studies of peculiarities of the interaction of electromagnetic waves and microwave waves and infrared ranges with the objects of study or engineering control.

The relevance of the scientific research聽is associated with the creation of new high electrodeless methods and instruments for none destructive multiparameter monitoring of semiconductor materials and structures for film development and construction of semiconductor devices and integrated circuits for various purposes.

From the innovations realized by the school it should be mentioned the rational and implemention in practice of microwave cavity diagnostic aperture transductors, which are constructed on the basis of a wide range of sensors and nonedestructive testing of materials. The most attractive is the development of modern theories of scanning and microwave microscopy on the basis of a coaxial resonator with microaperturoy propes.

The developed methods synthesizing digital computer means of a new generation, allow you to convert a wide range of high productivity, a maximum speed of processing large streams of information in robotics, as well as in systems of manned aircraft of visual environment simulators of the Spaceman Training Center, named Yuri Gagarin, as in the systems of operational processing of satellite images and videos and environmental hazardous situations in the IT-industry.

The developments of the scientific school are dedicated to an important problems, such as the economic problem of digital technology, the problems of orientation of complex systems and information processing in real time.聽The school created a total set of theories, mathematic models and methods, which provide a high-level problem orientated computing means, for processing a mass of information in real time, using the scientific and technical solutions and advanced technologies, which improve the international authority of theUkraineas a high tech state.