Scientific schools

1. The name of the scientific school

Specialized computer systems: design, simulation, reliability and security.

2. Field of knowledge and specialty

Field of knowledge – 12 information technologies

Scientific specialty – 123 “Computer engineering”

Educational specialty – “System programming and specialized computer systems”

3. Information about the school

3.1. Information about the founders of the school

V.P. Tarasenko’s scientific activity is aimed at developing the theory and methods of structural organization and development of highly efficient functionally oriented computer systems with optimized parameters. He created a scientific school in this direction, within which 2 doctoral theses and 19 candidate theses were defended, including by citizens of Bulgaria, Germany, Algeria, Syria, Peru, Kyrgyzstan.

Volodymyr Petrovych’s scientific output consists of more than 440 scientific papers, including 214 patents for inventions, 14 monographs, handbooks, textbooks and manuals for students of higher educational institutions in the publishing houses “Higher School”, “Technique” and others, more than 200 articles in scientific periodicals editions of the USSR, Ukraine and in foreign editions.

V.P. Tarasenko’s scientific and pedagogical activity was awarded with the honorary signs “Inventor of the USSR” (1982) and “Excellent in Education of Ukraine” (1998), he is an Honorary Doctor of the Uzhhorod National University (2005), a Senior Member of the International Scientific and Technical Society IEEE (The Institute of Electrical and Electronics Engineers). For 12 years, Volodymyr Petrovych was elected as the head of the National Section “Ukraine” of IEEE. His work at IEEE in 2000 was awarded a special medal of this international organization. Professor V.P. Tarasenko is a nominee of the famous international scientific review Who is Who in the World in 1998, 2004, 2005.

In 2008, Volodymyr Petrovych was awarded the State Prize of Ukraine in the field of science and technology for the work “Physical methods and computer means of registration, storage and use of large volumes of information”. The author team of this work was made up of employees of the Institute of Information Registration Problems of the National Academy of Sciences of the National Academy of Sciences, the National Library of Ukraine named after V.I. Vernadskyi, Institute of Single Crystals of NASU and NTUU “KPI”. The work is a cycle of research carried out by the author’s team during 1985-2007 with the aim of developing and widely using optical methods and computer means of registration, storage and use of large volumes of information in various fields and spheres of human activity.

3.2. Information about outstanding graduates of the school

Dychka Ivan Andriyovych, Ph.D., professor, dean of the Faculty of Applied Mathematics.

Romankevich Vitaliy Oleksiyovych, Doctor of Science in Technology, Prof., Head of the Department of SPiSKS FPM

Oleksandr Valentinovych Drozd, Ph.D., professor, organized his scientific school at the Odesa Polytechnic Institute.

Sulema Evgenia Stanislavivna, Ph.D., associate professor of the Department of PZKS FPM, member of the ISO / IEC JTC 1 / SC 34 committee “Document description and processing languages”, member of the national technical committee on standardization “Information technologies”, TC 20

4. Performance indicators of scientific school members over the past 5 years

4.1. The most important results

Obtained new knowledge in the field of the theory of organization of self-diagnosis of multiprocessor systems. New diagnostic graphs are proposed, which are called structurally regular. A method of organizing self-diagnosis of multiprocessor systems is proposed, the basis of which is the analysis of the results of mutual testing of processors according to structurally regular diagnostic graphs.

New structural methods and tools for building digital circuits have been created, which have higher indicators of testability and reliability of functioning with an orientation towards performing diagnostic procedures with the use of both pseudo-random test sequences and with the involvement of signature analysis tools

A new structural solution for building a generator of failure situations in a fault-tolerant multiprocessor system is proposed and it is shown that, in addition to reducing the hardware complexity in relation to known generator schemes, the proposed structural implementation of procedures for generating pseudo-random vectors of the “k-out-of-N” type is also characterized by a significant increase in productivity, in particular, by more than an order of magnitude of the clock frequency of the device

Methods and means of increasing the efficiency of the implementation of specialized digital computing tools on software integrated logical environments (PLIs) are proposed.

A complex of interrelated methods, models and concepts of the architectural and structural organization of a new class of computer tools has been developed, which will be characterized by efficiency in solving the problems of countering cyber attacks and achieving the functional security of Internet-oriented computer systems and networks

The Ramer-Douglas-Packer method has been modified for filtering redundant geolocation data when determining the location of an object in space. For the first time, an algorithm based on associative rules was applied to obtain hidden dependencies between data