The influence of vibrations of an Earth observation satellite on the resolution of optoelectronic observation devices

1Shatikhin, VE, 2Semenov, LP, 3Borysenko, VM
1Space Research Institute of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, Kyiv, Ukraine
2State Space Agency of Ukraine, Kyiv, Ukraine
3State Space Agency of Ukraine, Kyiv, Ukraine; Yangel Yuzhnoye State Design Office, Dnipropetrovsk, Ukraine
Kosm. nauka tehnol. 2003, 9 ;(1):040-044
https://doi.org/10.15407/knit2003.01.040
Publication Language: Ukrainian
Abstract: 
The influence of vibrations of an Earth observation satellite on the resolution of optoelectronic observation devices is considered. The influence of satellite vibrations on the quality of images increases in connection with improving the spatial resolution of modern satellites up to 1 m and more. We discuss the factors influencing on the quality of images derived from satellites and present the classification of vibration sources. An analysis of the main causes of vibrations of the modern satellites is carried out and examples of numerical estimates for vibrations of foreign spacecrafts are given.
Keywords: classification of vibration sources, optoelectronic devices, vibrations of satellite
References: 
1. Balk M. B. Elements of space flight dynamics, 340 p. (Nauka, Moscow, 1965) [in Russian].
2. Voloshyn V. I., Dranovs'kyi V. Y., Bushuiv Ye. I. Present state, prospects, and problems of the service market in the remote sensing of the Earth. Kosm. nauka tehnol., 8 (2-3), 41—51 (2002) [in Ukrainian].
https://doi.org/10.15407/knit2002.02.041
3. Vul'fson I. I., Erikhov M. L., Kolovskii M. Z. Mechanics of Machines, 510 p. (Vyssh. shk., Moscow, 1996) [in Russian].
4. Vibration. Terms and definitions: HOST 24346-80, 24 p. (Moscow, 1980) [in Russian].
5. Dobronravov V. V., Nikitin N. N., Dvornikov A. L. Course of Theoretical Mechanics, 526 p. (Vysshaya shkola, Moscow, 1974) [in Russian].
6. Dobrynin S. A., Fel'dman M. S., Firsov G. I. Methods for automated study of machine vibration, 224 p. (Mashinostroenie, Moscow, 1987) [in Russian].
7. Zgurovsky M. Z., Bidyuk P. I. Analysis and Control of Large Space Structures, 450 p. (Naukova Dumka, Kyiv, 1997) [in Russian].
8. Ivakhnenko A. G. Modeling of complex systems. Information approach, 64 p. (Vyshcha shkola, Kiev, 1987) [in Russian].
9. Kynitsky Ya. T. Theory of  Mechanisms and Machines, 660 p. (Naukova Dumka, Kyiv, 2002) [in Ukrainian].
10. Kononov V. I. Basis of a technique for determining the resolution of aerospace systems with discrete photodetectors. Kosm. nauka tehnol., 8 (2-3), 91 — 102 (2002) [in Ukrainian].
https://doi.org/10.15407/knit2002.02.091
11. Korenevskii D. G. Stability of Dynamical Systems under Random Perturbations of Parameters. Algebraic Criteria, 208 p. (Naukova Dumka, Kyiv, 1989) [in Russian].
12. Kraskovskii E. Ia., Druzhinin Iu. A., Filatova E. M. Calculation and design of mechanisms of devices and computer systems, 480 p. (Vyssh. shk., Moscow, 1991) [in Russian].
13. Levantovskii V. I. Elementary Mechanics of Space Flight, 488 p. (Nauka, Moscow, 1974) [in Russian].
14. Melua A. I. Start of Space Technology, 185 p. (Nauka, Moscow, 1990) [in Russian].
15. Razygraev A. P. Fundamentals of flight control spacecraft and ships, 472 p. (Mashinostroenie, Moscow, 1977) [in Russian].
16. Timoshenko S. P., Young D. H., Weaver W. Vibration problems in engineering, 444 p. (Nauka, Moscow, 1967) [in Russian].
17. Chernous'ko F. L., Akulenko L. D., Sokolov B. N. Vibration control, 384 p. (Nauka, Moscow, 1984) [in Russian].
18. Yablonskii A. A., Noreiko S. S. A Course in the theory of oscillations, 254 p. (Vyssh. shk., Moscow, 1966) [in Russian].
19. Yavorsky B. M., Detlaf A. A. Handbook of Physics, 512 p. (Nauka, Moscow, 1985) [in Russian].
20. Yakushenkov Yu. G. Theory and Calculation of Optoelectronic Instruments, 360 p. (Mashinostroenie, Moscow, 1989) [in Russian].
21. Berstein E. L. Natural frequences of an orbiting space station. J. Spacecraft and rockets, 9 (9), 622—630 (1972).
22. Schlomi Arnon. Power versus stabilisation for laser satellite communication. Appl. Opt., 38 (15), 3229— 3233 (1999).
https://doi.org/10.1364/AO.38.003229

23. Shlomi Arnon, Kopeika N. S. Laser Satellite Communications Network — Vibration Effect and Possible Solutions. Proc. IEEE, 85 (10), 1646—1661 (1997).
https://doi.org/10.1109/5.640772