Open Access Open Access  Restricted Access Subscription Access
Dependences of precision in estimating SO movement parameters on sighting angles under fixed measurement errors

Analysis of dependence of spacecraft movement parameters determination precision on sighting angles in a multipositional monitoring system

S. V. Kovbasyuk, L. B. Kanevskyy


Dependence of precision of estimating spacecraft’s movement parameters on angles of sighting in a multipositional monitoring system is analyzed. Calculation results obtained by simulation modeling confirm the possibility of using knowledge on target’s sighting angles range to achieve the best possible precision of spacecraft’s movement parameters determination when surveying the located object.


multipositional system; movement parameters

Full Text:



SHILIN, V.D. AND OLIYNIKOV, I.I. Near Earth space control region. Vozdushno-Kosmicheskaya Oborona,

CHERNIAK, V.S. Multiposition Radar. Moscow: Radio i Svyaz’, 1993. 415 p. [in Russian].

SOKOLOV, А.V. (ed.). Questions of Promising Radars. Moscow: Radiotekhnika, 2003. 512 p. [in Russian].

BAKULEV, P.А. Radar Systems: Handbook for higher educational institutions. Moscow: Radiotekhnika, 2004. 320 p. [in Russian].

VASIN, YE.А.; VLASOV, I.B.; YEGOROV, YU.М. ET AL. Information Technologies in Radio-Engineering Systems: Handbook. Moscow: Izdat. MGTU im. N. E. Baumanna, 2003. 672 p. [in Russian, ed. by I.B. Fedorov].

MOTYLIOV, K.I.; MIKHAILOV, M.V.; PASLION, V.V. Processing of redundant trajectory information in measurement-calculation systems. Avtomatika. Avtomatizatsiya. Elektrotekhnicheskie Kompleksy i Sistemy, n.2(22), 2008,

ANDREYEV F.М. AND KOVBASYUK, S.V. Capabilities of multiposition complex based on national radars of horizon detection of ballistic and space objects. Kosmichna Nauka i Tekhnologiya, n.5(15), p.74-81, 2009.

CUMMING, IAN G. AND WONG, FRANK H. Digital Signal Processing of Synthetic Aperture Radar Data: Algorithms and Implementation. London: Artech House, 2005. 624 p.

WILLIS, NICHOLAS J. AND GRIFFITHS, HUGH D. Advances in Bistatic Radar. New York: SciTech Publishing Inc., 2007. 650 p.

SILVESTROV, S.D. AND VASILIEV, V.V. Structure of Space Measurement Systems. Moscow: Sov. Radio, 1979. 224 p. [in Russian].

BAKHSHIYAN, B.TS.; NAZIROV, R.R.; ELIAL’SBERG, P.YE. Movement Determination and Correction (Guaranteeing Approach). Moscow: Nauka, 1980. 360 p. [in Russian].

BOROVKOV, А.А. Mathematical Statistics. Moscow: Nauka, 1984. 427 p. [in Russian].

YERMAKOV, S.M. (ed.). Mathematical Experiment Planning Theory. Moscow: Nauka, 1983. 392 p. [in Russian].

NARIMANOV, S.G. (ed.). Basics of Spacecraft Flight Theory. Moscow: Mashinostroyeniye, 1972. 608 p. [in Russian].

© Radioelectronics and Communications Systems, 2004–2020
When you copy an active link to the material is required
ISSN 1934-8061 (Online), ISSN 0735-2727 (Print)
tel./fax +38044 204-82-31, 204-90-41