Biography:Vadym Slyusar

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Short description: Soviet and Ukrainian scientist
Vadym Slyusar
Vadim Slyusar.jpg
Born15 October 1964 (1964-10-15) (age 59)
Ukrainian SSR, Soviet Union
NationalityUkrainian
CitizenshipUkraine
Alma materOrenburg Air Defense high military school
Known forDigital antenna array
AwardsHonored Scientist and Technician of Ukraine (2008)
Scientific career
FieldsAntenna theory
Radar signal processing
InstitutionsCentral Scientific Research Institute of Armament and Military Equipment of the Armed Forces of Ukraine
Doctoral advisor17 Persons

Vadym Slyusar (born 15 October 1964, vil. Kolotii, Reshetylivka Raion, Poltava region, Ukraine ) – Soviet and Ukrainian scientist, Professor, Doctor of Technical Sciences, Honored Scientist and Technician of Ukraine, founder of tensor-matrix theory of digital antenna arrays (DAAs), N-OFDM and other theories in fields of radar systems, smart antennas for wireless communications and digital beamforming.

Scientific results

Subcarriers system of N-OFDM signals after FFT proposed by V. Slyusar in 1992

N-OFDM theory

In 1992 Vadym Slyusar patented the 1st optimal demodulation method for N-OFDM signals after Fast Fourier transform (FFT).[1] From this patent was started the history of N-OFDM signals theory.[1] In this regard, W. Kozek and A. F. Molisch wrote in 1998 about N-OFDM signals with the sub-carrier spacing [math]\displaystyle{ \alpha \lt 1 }[/math], that "it is not possible to recover the information from the received signal, even in the case of an ideal channel."[2] But in 2001 Vadym Slyusar proposed such Non-orthogonal frequency digital modulation (N-OFDM) as an alternative of OFDM for communications systems.[3]

The next publication of V. Slysuar about this method has priority in July 2002[4] before the conference paper of I. Darwazeh and M.R.D. Rodrigues (September, 2003)[5] regarding SEFDM. The description of the method of optimal processing for N-OFDM signals without FFT of ADC samples was transferred to publication by V. Slyusar in October 2003.[6][7]

The theory N-OFDM of V. Slyusar inspired numerous investigations in this area of other scientists.[7]

Tensor-matrix theory of digital antenna array

Transposed Block Face-splitting product in the context of a Multi-Face radar model[8]

In 1996 V. Slyusar proposed the column-wise Khatri–Rao product to estimate four coordinates of signals sources at a digital antenna array.[9] The alternative concept of the matrix product, which uses row-wise splitting of matrices with a given quantity of rows (Face-splitting product), was proposed by V. Slyusar[10] in 1996 as well.[9][11][12] After these results the tensor-matrix theory of digital antenna arrays and new matrix operations was evolved (such as the Block Face-splitting product,[13] Generalized Face-splitting product,[14] Matrix Derivative of Face-splitting product etc.),[8][10][15] which used also in artificial intelligence and machine learning systems to minimization of convolution and tensor sketch operations,[16] in a popular Natural Language Processing models, and hypergraph models of similarity.[17]

The Face-splitting product and his properties used for multidimensional smoothing with P-splines[18] and Generalized linear array model in the statistic in two- and multidimensional approximations of data as well.[19]

Theory of odd-order I/Q demodulators

The theory of odd-order I/Q demodulators, which was proposed by V. Slyusar in 2014,[20][21][22] started from his investigations of the tandem scheme of two-stage signal processing for the design of an I/Q demodulator and multistage I/Q demodulators concept in 2012.[23] As result, Slyusar "presents a new class of I/Q demodulators with odd order derived from the even order I/Q demodulator which is characterized by linear phase-frequency relation for wideband signals".[21][24]

Results in the other fields of research

V. Slyusar provided numerous theoretical works realized in several experimental radar stations with DAAs which were successfully tested.[25][26][27]

He investigated electrical small antennas and new constructions of such antennas, evolved the theory of metamaterials, proposed new ideas to implementation of augmented reality, and artificial intelligence to combat vehicles as well.[citation needed]

V. Slyusar has 68 patents, and 850 publications in the areas of digital antenna arrays for radars and wireless communications.

Life data

1981–1985 – listener of Orenburg Air Defense high military school.[28][29] In this time started the scientific carrier of V. Slyusar, which published a first scientific report in 1985.[30]

June 1992 – defended the dissertation for a candidate degree (Techn. Sci.) at the Council of Military Academy of Air Defense of the Land Forces (Kyiv). The significant stage of the recognition of Vadym Slyusar’s scientific results became the defense of the dissertation for a doctoral degree (Techn. Sci.) in 2000.

Professor – since 2005, Honored Scientist and Technician of Ukraine – 2008.

Since 1996 – work at Central Scientific Research Institute of Armament and Military Equipment of the Armed Forces of Ukraine (Kyiv). Military Rank - Colonel.

Since 2003 – participates in Ukraine -NATO cooperation as head of the national delegations, a person of contact, and national representative within experts groups of NATO Conference of National Armaments Directors[31][32] and technical members of the Research Task Groups (RTG) of NATO Science and Technology Organisation (STO).

Since 2009 – member of editorial board of Izvestiya Vysshikh Uchebnykh Zavedenii. Radioelektronika.

Selected awards

  • Honored Scientist and Technician of Ukraine (2008)
  • Soviet and Ukraine military medals

Gallery

See also

References

  1. 1.0 1.1 RU2054684 (C1) G01R 23/16. Amplitude-frequency response measurement technique// Slyusar V. – Appl. Number SU 19925055759, Priority Data: 19920722. – Official Publication Data: 1996-02-20 [1]
  2. W. Kozek and A. F. Molisch.“Nonorthogonal pulse shapes for multicarrier communications in doubly dispersive channels,” IEEE J. Sel. Areas Commun., vol. 16, no. 8, pp. 1579–1589, Oct. 1998.
  3. Pat. of Ukraine № 47835 A. IPС8 H04J1/00, H04L5/00. Method of frequency-division multiplexing of narrow-band information channels// Sliusar Vadym Іvanovych, Smoliar Viktor Hryhorovych. – Appl. № 2001106761, Priority Data 03.10.2001. – Official Publication Data 15.07.2002, Official Bulletin № 7/2002
  4. Slyusar, V. I. Smolyar, V. G. Multifrequency operation of communication channels based on super-Rayleigh resolution of signals// Radio electronics and communications systems c/c of Izvestiia- Vysshie Uchebnye Zavedeniia. Radioelektronika. – 2003, volume 46; part 7, pages 22–27. – Allerton Press Inc. (USA)[2]
  5. M. R. D. Rodrigues and I. Darwazeh. A Spectrally Efficient Frequency Division Multiplexing Based Communications System.// InOWo'03, 8th International OFDM-Workshop, Proceedings, Hamburg, DE, September 24–25, 2003. - https://www.researchgate.net/publication/309373002
  6. Slyusar, V. I. Smolyar, V. G. The description of nonorthogonal frequency-discrete modulation of signals for narrow-band communication channels// Radioelectronics and communications systems c/c of Izvestiia Vysshie Uchebnye Zavedeniia. Radioelektronika. – 2004, volume 47; part 4, pages 40–44. – Allerton Press Inc. (USA)[3]
  7. 7.0 7.1 Maystrenko, V.A.; Maystrenko, V.V. (2014). "The modified method of demodulation N-OFDM signals". 2014 12th International Conference on Actual Problems of Electronics Instrument Engineering (APEIE). pp. 372–376. doi:10.1109/apeie.2014.7040919. ISBN 978-1-4799-6020-0. 
  8. 8.0 8.1 Vadym Slyusar. New Matrix Operations for DSP (Lecture). April 1999. - DOI: 10.13140/RG.2.2.31620.76164/1
  9. 9.0 9.1 Slyusar, V. I. (1998). "End products in matrices in radar applications.". Radioelectronics and Communications Systems 41 (3): 50–53. http://slyusar.kiev.ua/en/IZV_1998_3.pdf. 
  10. 10.0 10.1 Esteve, Anna; Boj, Eva; Fortiana, Josep (2009). "Interaction Terms in Distance-Based Regression". Communications in Statistics - Theory and Methods 38 (19): 3498–3509. doi:10.1080/03610920802592860. 
  11. Slyusar, V. I. (1997-05-20). "Analytical model of the digital antenna array on a basis of face-splitting matrix products.". Proc. ICATT-97, Kyiv: 108–109. http://slyusar.kiev.ua/ICATT97.pdf. 
  12. Slyusar, V. I. (1997-09-15). "New operations of matrices product for applications of radars". Proc. Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED-97), Lviv.: 73–74. http://slyusar.kiev.ua/DIPED_1997.pdf. 
  13. Slyusar, V. I. (March 13, 1998). "A family of face products of matrices and its properties". Cybernetics and Systems Analysis 35 (3): 379–384. doi:10.1007/BF02733426. http://slyusar.kiev.ua/FACE.pdf. 
  14. Slyusar, V. I. (2003). "Generalized face-products of matrices in models of digital antenna arrays with nonidentical channels". Radioelectronics and Communications Systems 46 (10): 9–17. http://slyusar.kiev.ua/en/IZV_2003_10.pdf. 
  15. Slyusar, V. I. (1998). "Fisher information matrix for models of systems based on face-splitting matrix products". Cybernetics and Systems Analysis 35 (4): 636–643. doi:10.1007/BF02835859. https://slyusar.kiev.ua/FISHER.pdf. 
  16. Thomas D. Ahle, Jakob Bæk Tejs Knudsen. Almost Optimal Tensor Sketch. //Mathematics, Computer Science, Published 3 September 2019. Page 9. - ArXiv
  17. Bryan Bischof. Higher order co-occurrence tensors for hypergraphs via face-splitting. Published 15 February 2020, Mathematics, Computer Science, ArXiv
  18. Eilers, Paul H.C.; Marx, Brian D. (2003). "Multivariate calibration with temperature interaction using two-dimensional penalized signal regression.". Chemometrics and Intelligent Laboratory Systems 66 (2): 159–174. doi:10.1016/S0169-7439(03)00029-7. 
  19. Currie, I. D.; Durban, M.; Eilers, P. H. C. (2006). "Generalized linear array models with applications to multidimensional smoothing". Journal of the Royal Statistical Society 68 (2): 259–280. doi:10.1111/j.1467-9868.2006.00543.x. 
  20. Slyusar V.I. I/Q-Demodulation of the Odd Order.// 20th International Conference on Microwaves, Radar, and Wireless Communications (MIKON-2014) and 13th International Radar Symposium (IRS 2014). Conference Proceedings.– Gdansk, Poland, June 16–18, 2014.
  21. 21.0 21.1 Madodana Mfana. Optimized Soft-Core Processor Architecture for Noise Jamming: Masters of Electrical & Electronic Engineering Dissertation. - The University of Johannesburg. - December 2019. - Pages 8 - 12, 22 - 23.[4]
  22. Slyusar, V.; Serdiuk, P. (2020). "Synthesis Method of Procedure for Odd-Order I/Q Demodulation Based on Replacing Multistage with Equivalent Single-Stage Demodulation Schemes". Radioelectronics and Communications Systems 63 (5): 273–280. doi:10.3103/S0735272720050064. https://rdcu.be/b5AYC. 
  23. Slyusar V.І., Serduk P.E.A Two Channels I/Q-Demodulator.// 11th International Conference Modern Problems of Radio Engineering, Telecommunications and Computer Science (TCSET’2012). - 21–24 February 2012. - Lviv-Slavske, Ukraine. - P. 411.
  24. Mfana; Hasan; Ali (2019). "Odd/Even Order Sampling Soft-Core Architecture towards Mixed Signals Fourth Industrial Revolution (4IR) Applications". Energies 12 (23): 4567. doi:10.3390/en12234567. 
  25. 25.0 25.1 Slyusar, V.I. The way of correction of DAA receiving channels characteristics using the heterodyne signal// Proceedings of the III International Conference on Antenna Theory and Techniques, 8–11 September 1999, Sevastopol, page 244. [5]
  26. Slyusar V.І., Nikitin N.N., Shatzman L.G., Korolev N.A., Solostchev О.N., Shraev D.V., Volostchuk І.V., Аlesyn А.М., Bondarenko М.V., Grytzenko V.N., Malastchuк V.P. Experimental Radar with 64-Channel Digital Antenna Array.// TCSET'2010. - Lviv - Slavske, Ukraine. - 23–27 February 2010. - P. 95.
  27. Slyusar V.І., Nikitin N.N., Shatzman L.G., Korolev N.A., Solostchev О.N., Shraev D.V., Volostchuk І.V., Аlesyn А.М., Bondarenko М.V., Grytzenko V.N., Malastchuк V.P.A Marine Testing’s Result of Experimental Radar with 64–Channels Digital Antenna Array. //18th International Conference on Microwaves, Radar, and Wireless Communications (MIKON-2010) and 11th International Radar Symposium (IRS 2010). Conference Proceedings.– Vilnius, Lithuania, June 14–18, 2010. - Pp. 562 - 564.
  28. Оренбургское Краснознамённое, под редакцией Б. В. Шляпкина. – М.: Воениздат, 1988, 230 с.
  29. Голубенький С. Профессия - защищать Родину.[yes|permanent dead link|dead link}}] Газета "Южный Урал", 19 июля 1985. - 4 с.
  30. Шепель, В. (1985). "О военно-научной работе курсантов.". Вестник противовоздушной обороны. – 1985. – № 3.. pp. С. 49–50. http://slyusar.kiev.ua/1985.pdf. 
  31. Slyusar V.I. Regarding the building of the system of systems of standards./Coordination problems of military-technical and defensive industrial policy in Ukraine. Weapons and military equipment development perspectives/ V International Scientific and Practical Conference. Abstracts of reports. - October 11–12, 2017. - Kyiv. - P. 38.
  32. «Науковці України – еліта держави». Том VI, 2020. – С. 216
  33. Слюсар, В.И. (2002). "Схемотехника цифрового диаграммообразования. Модульные решения.". Электроника: наука, технология, бизнес. – 2002. - № 1.. pp. C. 46–52. http://www.electronics.ru/files/article_pdf/1/article_1299_491.pdf. 
  34. Слюсар, В.И. (2004). "Схемотехника цифровых антенных решёток. Грани возможного.". Электроника: наука, технология, бизнес. – 2004. - № 8.. pp. C. 34–40. http://www.electronics.ru/files/article_pdf/1/article_1150_552.pdf. 
  35. Патент України на корисну модель № 39243. МПК (2006) G01S 13/00, G01S 7/00, H02K 15/00. Багатоканальний приймальний пристрій.// Слюсар В.І., Волощук І.В., Алесін А. М., Гриценко В. М., Бондаренко М. В., Малащук В. П., Шацман Л. Г., Нікітін М. М. – Заявка на видачу патенту України на корисну модель № u200813442 від 21.11.2008. – Патент опубліковано 10.02.2009, бюл. № 3

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