01.
Podoplekin Yu. F., Shepeta D. A., Nenashev V. A. Modeling of the input signals of the airborne radar, caused by the reflections of the probing signal from the underlying surfaces of the earth and the sea // Morskoy vestnik. 2016. No. 4. pp.69-71.
02.
Nenashev V. A., Shepeta A. P., Kaplin A. Yu., Yudin I. A. Modeling the method of integrating information from an autonomous inertial navigation system and an external independent source of information // Certificate of state registration of a computer program No. 2016617099 RF, publ. 06/27/2016. ROSPATENT.
03.
Nenashev VA Modeling algorithm for SAR image based on fluctuations of echo signal of the Earth's surface / AP Shepeta, VA Nenashev // Proc. of SPIE Remote Sensing. Toulouse, France, 2015. Vol.9642. P.96420X-1-96420X-8.
04.
Nenashev V.A., Shepeta A.P. Simulation of the chirp pulse compression algorithm in high-precision mapping tasks // In the collection: Russian initiative developments (Initiative. Entrepreneurship. Ingenuity) Scientific publication. Saint-Louis, Missouri, USA, 2017. P. 61.
05.
Pat. 2560082 RF, IPC G01S 13/90. Podoplekin Yu. F., Shepeta A. P., Nenashev V. A. (Russian Federation) Method for frontal synthesizing of the earth's surface antenna aperture with the elimination of blind zones in the front zone using a multi-position radar system. applicant and patent holder St. Petersburg State University of Aerospace Instrumentation. No. 2014100672/07; dec. 01/09/2014; publ. 08/20/2015, Bull. No. 23. 8 s.
06.
Nenashev V. A., Shepeta A. P., Stepanov M. G., Grigorieva N. N., Yudin I. A. Modeling the process of forming a high-resolution pseudo-radar image in the front view areas of on-board radars of a two-position system // Certificate of state registration of the computer program No. 2017617875 RF, publ. 07/14/2017. ROSPATENT.
07.
Nenashev V. A., Sinitsyn V. A., Strakhov S. A. Investigation of the influence of industrial interference on the compression characteristics of phase-shift keyed signals in primary radars // Innovative technologies and technical means of special purposes: tr. IX general Russian. scientific-practical. conf. In 2 volumes. T.2. SPb: Balt. state tech. un-t "Voenmekh" them. D. F. Ustinova. 2017. S. 351-355.
08.
Nenashev V. A., Sergeev A. M., Kapranova E. A. Research and analysis of autocorrelation functions of code sequences formed on the basis of monocyclic quasi-orthogonal matrices// Information and control systems. 2018. No. 4. P. 4–19. doi:10.31799/1684-8853-2018-4-9-14
09.
Nenashev V.A., Blaunstein N.Sh. Modeling the process of propagation of radio waves in the channel "earth-atmosphere" // Information and control systems. 2016. No. 6. P. 25–33. doi:10.15217/issn1684-8853.2016.6.25
10.
Blaunstein N.Sh., Sergeev M.B., Nenashev V.A. Influence of the surface of the earth with buildings on the operational parameters of signals in the communication channels Earth-satellite // Information and control systems. 2018. No. 1. S. 74-84. doi:10.15217/issn1684-8853.2018.1.74
eleven.
Ekaterina A. Kapranova, Vadim A. Nenashev, Mikhail B. Sergeev. Compression and coding of images for satellite systems of Earth remote sensing based on quasi-orthogonal matrices // Proc. of SPIE, Image and Signal Processing for Remote Sensing XXIV. Berlin, Germany. 2018 Vol. 10789.PP. 1078923-1 - 1078923-6; doi: 10.1117/12.2324249
12.
Makhlin A.M., Nenashev V.A., Shepeta A.P. Comparative characteristics of quasi-optimal digital detectors of ultra-wideband signals // In the collection: Wave electronics and its applications in information and telecommunication systems XXI International Youth Conference. St. Petersburg, 2018. S. 257-264.
13.
Nenashev V. A., Shepeta A. P., Grigoriev E. K., Isakov V. I., Vattimena G. M. The program for generating a random field for the formation of random signals reflected from the underlying surface of the earth // Certificate of state registration of a computer program No. 2018660114 RF, publ. 06/24/2018. ROSPATENT
fourteen.
Nenashev V. A., Shepeta A. P., Grigoriev E. K., Spindzak I. I., Sentsov A. A., Kapranova E. A. Program for calculating the relative position of a two-position radar and observed objects in polar and Cartesian coordinate systems // Certificate of state registration of a computer program No. 2018661851 RF, publ. 09/20/2018. ROSPATENT
15.
Shepeta A.P., Nenashev V.A., Sentsov A.A. A two-position model of high-resolution radar image formation in the front view areas of airborne radars // In the collection of articles of the international scientific and practical conference: The role and place of information technology in modern science. 2017. S. 118-123.
16.
Shepeta A.P., Sentsov A.A., Nenashev V.A. Simulation model of an onboard radio engineering system for short-range navigation // In the collection of scientific articles following the results of the international scientific-practical conference: Science of the new time: preserving the past - creating the future. 2017. S. 248-250.
17.
Makhlin A.M., Nenashev V.A., Shepeta DA UWB pulse signal detection methods // XVI International Forum “Modern information society formation –problems, perspectives innovation approaches”: Proceedings of the Forum. Volume 3. St. Petersburg, 1–5 June / SUAI, SPb., 2015. 16-20 pp..
eighteen.
Shepeta A.P., Nenashev V.A., Skuratov V.V. The program for constructing matrices of arbitrary dimension, generating cyclic groups // Certificate of state registration of a computer program No. 2017663694 RF, publ. 12/11/2017. ROSPATENT
19.
Shepeta A.P., Nenashev V.A., Skuratov V.V. The program that implements the methods of spatial and brightness noise-immune coding and image decoding // Certificate of state registration of a computer program No. 2017663693 RF, publ. 12/11/2017. ROSPATENT
twenty.
Chernyshev S.A., Nenashev V.A., Kurtyanik D.V. Environment for modeling the stages of processing photo and video images. Binarization plugin // Certificate of state registration of the computer program No. 2018664970 RF, publ. 11/27/2018. ROSPATENT
21.
Chernyshev S.A., Nenashev V.A., Kurtyanik D.V. Environment for modeling the stages of processing photo and video images. Filtration plugin // Certificate of state registration of the computer program No. 2018665032 RF, publ. 11/28/2018. ROSPATENT
22.
MG Wattimena, VA Nenashev, AA Sentsov and AP Shepeta, "On-Board Unlimited Aircraft Complex of Environmental Monitoring," 2018 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF), St. Petersburg, 2018, pp. 1-5. doi:10.1109/WECONF.2018.8604382
23.
VA Nenashev, AA Sentsov and AP Shepeta, "The Problem of Determination of Coordinates of Unmanned Aerial Vehicles Using a Two-Position System Ground Radar," 2018 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF), St. Petersburg, 2018, pp. 1-5. doi:10.1109/WECONF.2018.8604329
24.
AP Shepeta, AM Makhlin, VA Nenashev and AF Kryachko, "Performance of UWB Signal Detecting Circuits," 2018 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF), St. Petersburg, 2018, pp. 1-4. doi:10.1109/WECONF.2018.8604440
25.
Sorokin A.V., Shepeta A.P., Nenashev V.A., Vattimena G.M. Comparative characteristics of methods for anti-collision processing of response radio signals of identification marks on surface acoustic waves. Information and control systems. 2019;(1):48-56. https://doi.org/10.31799/1684-8853-2019-1-48-56
26.
Research report “Search and study of extremal quasi-orthogonal matrices for information processing problems. Search and classification of symmetric quasi-orthogonal matrices and their application in the problems of processing and transmitting information in open radio channels”. State. reg. No. AAAA-A17-117042710042-9 / Sergeev M. B., Balonin N. A., Balonin Yu. N., Vostrikov A. A., Nenashev V. A., Kurtyanik D. V., Sergeev A. M. , Chernyshev S.A., Kapranova E.A. - St. Petersburg: GUAP, 2019. - 111 p.
27.
Nenashev V.A., Shepeta A.P., Sergeev M.B., Chernyshev S.A., Grigoriev E.K. The program for the generation of quasi-orthogonal cyclic matrices formed on the basis of the calculation of quadratic residues // Certificate of state registration of a computer program No. 2019612935 RF, publ. 03/04/2019. ROSPATENT
28.
Pat. 151608 RF, MPK7 F17D5/02 Autonomous adaptive walking robot for gas pipeline diagnostics / M. B. Ignatiev (RF), Y. A. Lipinsky (RF), O. O. Zharinov (RF), V. A. Nenashev (RF) , Makin P.I. (RF), Gerasimov G.M. (RF). -2014121137/06; Appl. 05/23/2014; Published 04/10/2015. Bull. #10
29.
Nenashev V.A., Grigoryeva N.N., Yudin I.A. Determining the location of objects when sharing an inertial navigation system and a computer vision system // Scientific session of the SUAI: Sat. report: at 3 o'clock. Part II. Technical science. - St. Petersburg: GUAP, 2018. - S. 455-459.
thirty.
Sergeev AM, Nenashev VA, Vostrikov AA, Shepeta AP, Kurtyanik DV (2019) Discovering and Analyzing Binary Codes Based on Monocyclic Quasi-Orthogonal Matrices. In: Czarnowski I., Howlett R., Jain L. (eds) Intelligent Decision Technologies 2019. Smart Innovation, Systems and Technologies, vol 143. Springer, Singapore, pp 113-123. https://doi.org/10.1007/978-981-13-8303-8_10
31.
Balonin Y., Abuzin L., Sergeev A., Nenashev V. (2019) The Study of Generators of Orthogonal Pseudo-random Sequences. In: Czarnowski I., Howlett R., Jain L. (eds) Intelligent Decision Technologies 2019. Smart Innovation, Systems and Technologies, vol 143. Springer, Singapore, p. 125-133. https://doi.org/10.1007/978-981-13-8303-8_11
32.
Sergeev M. B., Nenashev V. A., Sergeev A. M. Nested Barker-Mersenne-Raghavarao Code Constructions. Information and control systems, 2019, No. 3, pp.71-81. https://doi.org/10.31799/1684-8853-2019-3-71-81
33.
Development of web applications using the PHP language: textbook. allowance / A. V. Agranovsky, V. A. Nenashev, V. S. Pavlov, E. L. Turnetskaya. - St. Petersburg: GUAP, 2018. - 121 p.
34.
Nenashev V.A., Grigoriev E.K., Nenashev S.A., Alferova I.A. Modeling the process of assessing the coordinates of objects in a two-position radar system // Proceedings of the international scientific and technical conference of students, graduate students and young scientists "Scientific session TUSUR - 2019", Tomsk, May 15-17, 2019, Part 4, P. 234- 236.
35.
Shepeta A.P., Grigoriev E.K., Nenashev V.A., Nenashev S.A. Detection and evaluation of the speed of moving objects in optical-location systems // Scientific session of the SUAI: Sat. report: at 3 o'clock. Part II. Technical science. - St. Petersburg: GUAP, April 8-17, 2019. - P. 282-287 ..
36.
Timofeeva E.A., Nenashev V.A., Nenashev S.A. Application of machine learning algorithms in histological studies // Scientific session of the SUAI: Sat. report: at 3 o'clock. Part II. Technical science. - St. Petersburg: GUAP, April 8-17, 2019. - P. 267-271.
37.
Nenashev V.A., Vasiliev I.A., Sergeev A.M. Modeling of complex code-modulated signals for modern systems for detecting and transmitting information // Scientific session of the SUAI: Sat. report: at 3 o'clock. Part II. Technical science. - St. Petersburg: GUAP, April 8-17, 2019. - P. 413-417.
38.
VA Nenashev, AA Sentsov and AP Shepeta, "Formation of Radar Image the Earth's Surface in the Front Zone Review Two-Position Systems Airborne Radar," 2019 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF), Saint-Petersburg, Russia , 2019, pp. 1-5. http://doi.org/10.1109/weconf.2019.8840641
39.
AA Sentsov, VA Nenashev, AF Kryachko and AP Shepeta, "Two-Positional Measurement of Coordinates of Objects with a Small Radar Cross-Section," 2019 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF), Saint-Petersburg, Russia , 2019, pp. 1-4. http://doi.org/10.1109/weconf.2019.88406498
40.
Pat. 2703996 RF, IPC G01S 13/90. A method for locating targets in the forward viewing areas of on-board radar stations of a two-position radar system / G.A. Korzhavin, V. A. Nenashev, A.P. Shepeta, Yu.F. Podoplekin, A.G. Davinchuk (RF); applicant and patent holder JSC "Concern "Granit-Electron". No. 2019108828; filed on 26.03.2019; published on 06.05.2019, Bull. No. 13. 8 p.
41.
Nenashev VA, Shepeta DA Mathematical models and algorithms for modeling the location signals reflected from the underlying surfaces of the earth, sea, and coastal waters, Proc. SPIE Remote Sensing of the Ocean, Sea Ice, Coastal Waters, and Large Water Regions, Strasbourg, France, 2019, pp. 111501V-1 - 111501V-6 https://doi.org/10.1117/12.2547871
42.
Nenashev VA, Kryachko AF, Shepeta AP, Burylev DA Features of information processing in the onboard two-position small-sized radar based on UAVs, SPIE Future Sensing Technologies, Tokyo, Japan, 2019, pp. 111970X-1-111970X-7.
43.
Kapranova EA, Nenashev VA, Sergeev AM, Burylev DA, Nenashev SA Distributed matrix methods of compression, masking and noise-resistant image encoding in a high-speed network of information exchange, information processing and aggregation, SPIE Future Sensing Technologies, Tokyo, Japan , 2019, pp. 111970T-1-111970T-7.
44.
Gysberth Wattimena, Vadim Nenashev, Dmitry Shepeta. Mathematical Model of Location Signal Reflections from The Substrate Surface of The Sea Observed By On-Board Radar //Proceedings of The 2nd International Conference On Advance And Scientific Innovation, ICASI 2019, 18 July, Banda Aceh, Indonesia
45.
V.V. Leontiev, A.V. Sorokin, V.A. Nenashev, G.M. Wattimena. The use of acoustoelectronic sensors on SAW in industrial Internet of things systems for monitoring the state of man-made objects // Scientific and practical journal “Modern Science: Actual Problems of Theory and Practice. Series "Natural and technical sciences" 2019. No. 11-2. pp. 61-66.
46.
V.A. Nenashev, A.A. Sentsov, S.A. Ivanov "Modeling the control channel of the movement of an aircraft with a fuzzy logic controller" Processing, transmission and protection of information in computer systems: First All-Russian. scientific conf. (St. Petersburg, April 14–22, 2020): Sat. report - St. Petersburg: GUAP, 2020. S. 151-154. DOI: 10.31799/978-5-8088-1452-3-2020-1-151-154
47.
Shepeta AP, Nenashev VA Accurate Characteristics of Coordinates Determining of Objects in a Two-Position System of Small-Size On-Board Radar. Informatsionno-upravliaiushchie sistemy [Information and Control Systems], 2020, no. 2, pp. 45–51.