Theoretical Foundations Development of Space Adaptive Video Information Systems Synthesis

The main provisions and principles of the synthesis of adaptive video information systems designed for recording and analyzing images of dynamic scenes at the stages of long-range detection of artificial space objects, ballistic and controlled approach to them in the middle and near zone of cooperation are considered. Based on the principle of dominant information, it is shown that the basis for the development of methods and algorithms for processing video information in on-board surveillance systems is the joint adaptive processing of video information in photodetector matrices and in digital processors in order to maximize the quality of information issued to the consumer by suppressing background and noise information by adaptive hysteresis control of the frame frequency, frame resolution and signal accumulation time in the photodetector matrix, as well as the use of parametric neural network detectors-classifiers.

1. Chromov L.I., Lebedev N.V., Tsytsulin A.K., Kulikov A.N. Solid State Television. Мoscow: Radio i Svyaz Publ.; 1986. 184 p. (in Russ.)

2. Chromov L.I., Tsytsulin A.K., Kulikov A.N. Video Informatics. Мoscow: Radio i Svyaz Publ.; 1991. 192 p. (in Russ.)

3. Berezin V.V., Umbitaliev A.A., Fakhmin Sh.S., Tsytsulin A.K., Shipilov N.N. The Solid State Revolution in Television: CCD, System-on-Chip and Video-on-Chip Television Systems. Мoscow: Radio i Svyaz Publ.; 2006. 312 p. (in Russ.)

4. Tsytsulin A.K., Adamov D.Yu., Mantsvetov A.A., Zubakin I.A. Solid State Cameras: Accumulating Information Quality. St. Petersburg: Saint Petersburg Electrotechnical University "LETI" Publ.; 2014. 272 p. (in Russ.)

5. Umbitaliev A.A., Tsytsulin A.K., Levko G.V., Pyatkov V.V., Kuzichkin A.V., Dvornikov S.V., et al. Theory and Practice of Space Television. St. Petersburg: JSC Television Research Institute Publ.; 2017. 368 p. (in Russ.)

6. Hromov L.I., Tsytsulin A.K. Space Videoinformation Basis. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2011;1:6–31. (in Russ.)

7. Bobrovskij A.I. Adaptation of the Applied Television System to the Dynamics of the Plot. Digital Signal Processing. 2018;3:3–9. (in Russ.)

8. Bobrovskij A.I. Processing of Video Information in the Adaptive Control System for the Approach of Spacecraft. Information and Space. 2018;4:149–153. (in Russ.)

9. Bobrovskij A.I. Heoretical Bases of Synthesis of Space Adaptive Video Information Systems. Voprosy radioelektroniki. Seriya Tekhnika televideniya. 2019;4:42–46. (in Russ.)

10. Tsytsulin A.K., Fahmi SH.S., Adamov D.Yu., Bobrovskij A.I., Zubakin I.A., Chernogubov A.V. Principle of Dominant Information – a Conceptual Basis for Designing Videoinformation Systems. Datchiki & Systemi (Sensors & Systems). 2018;11:3–9. (in Russ.)

11. Tsytsulin A.K., Bobrovskij A.I., Morozov A.V. Synthesis of a Space Videoinformation System with a Wide Range of Changes in the Distance to the Object. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2020;2:19–37. (in Russ.)

12. Tsytsulin A.K., Pavlov V.A., Bobrovskij A.I., Morozov A.V., Rogachev V.A. Objects Classification by the Speed-Smearing Feature Noise Resistance. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2020;3:53−67. (in Russ.)

13. Tsytsulin A.K., Pavlov V.A., Bobrovskij A.I., Morozov A.V. Information Evaluations of Signal Detection-Estimation-Transfer Task in Space Television Systems. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2019;3:61–74. (in Russ.)

14. Tsytsulin A.K., Devyatkin A.V., Bobrovskij A.I., Morozov A.V., Gorshanov D.L., Pavlov V.A. Adaption of Frame Rates for Observation Phases in the Control System of a Spacecraft. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2019;1:31−38. (in Russ.)

15. Tsytsulin А.К., Pavlov V.A., Bobrovskij A.I., Morozov A.V., Zubakin I.A. Adaptive Coding of Images Divided into Dominant Object and Background. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2019;3:75–85. (in Russ.)

16. Wald A. Sequential Analisis. Translate from English. Мoscow: Fizmatgiz Publ.; 1960. 328 p. (in Russ.)

17. Shiryaev A.N. Statistical Sequential Analysis. Мoscow: Nauka Publ.; 1976. 272 p. (in Russ.)

18. Vudvord F.M. Probability Theory and Information Theory with an Application to Radar. Translate from English. Мoscow: Sov. Radio Publ.; 1955. 128 p. (in Russ.)

19. Franks L.E. Signal Theory. Translate from English. Мoscow: Mir Publ.; 1974. 344 p. (in Russ.)

20. Van Trees L. Detection, Estimation and Modulation Theory. In 4 vol. Translate from English. Мoscow: Radio i Svyaz Publ.; 1972–1977. (in Russ.)

21. Helstrom C.W. Statistical Theory of Signal Detection. Oxford: Pergamon Press; 1960.

22. Shamis A.L. Evolution Vector. Life, Evolution, Thinking from the Point of View of a Programmer. Мoscow: LIBROKOM Publ.; 2013. 200 p. (in Russ.)

23. Bellman R. Adaptive Control Processes: a Guided Tour. Мoscow: Nauka Publ.; 1964. 359 p. (in Russ.)

24. Vasil'ev K.K., Krasheninnikov V.R. Statistical Analysis of Image Sequences. Мoscow: Radiotekhnika Publ.; 2017. 248 p. (in Russ.)

25. Umbitaliev A.A., Pyatkov V.V., Tsytsulin A.K., Levko G.V., Mantsvetov A.A., Rychazhnikov A.E. Statistical Analysis and Synthesis of Applied Television Systems. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2015;6:4–14. (in Russ.)

26. Krasnosel'skij M. A., Pokrovskij A.V. Systems with Hysteresis. Мoscow: Nauka Publ.; 1983. 271 p. (in Russ.)

27. Bobrovskij A.I., Morozov A.V., Chepelev A.G., Pavlov V.A., Galanov V.V. Selection of Architecture of Neural Network for Space Objects Images' Detection and Classification. Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2020;1:3–13. (in Russ.)

28. Redmon J., Farhadi A. YOLO9000: Better, Faster, Stronger. Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, CVPR, 21–26 July 2017, Honolulu, USA. IEEE; 2017. p.7263–7271. DOI:10.1109/CVPR.2017.690

29. Tsytsulin A.K., Bobrovskij A.I., Morozov A.V., Pavlov V.A., Galeeva M.A. Using Convolutional Neural Networks to Automatically Select Small Artificial Space Objects on Optical Images of a Starry Sky. Journal of Optical Technology. 2019;86(10):627. DOI:10.17586/1023-5086-2019-86-10-30-38