Journals
Books
Articles by keyword space debris
Low Orbit Observation System Basic in the Group of Small Space Vehicles for Detection Space Debris Objects
D.V. Kirichenko, V.I. Polovnikov
Extraction from digital image of traces of faint space objects with unknown orbits
A.E. Kolessa, K.D. Kuzovov
Space objects detection and tracking using forward scatter radars
S.E. Grigas, D.Ts. Litovchenko, A.A. Skorynin
The creation of the perspective system of the orbital motion-s prediction for the monitoring of the space debris
G. I. Andreev - Post-graduate Student, Lebedev Institute of Precission Mechanics and Computer Engineering, Russian Academy of Sciences, Moscow. E-mail: andreeffgena@gmail.com
V. V. Chernov - Post-graduate Student, Lebedev Institute of Precission Mechanics and Computer Engineering, Russian Academy of Sciences, Moscow. E-mail: 7_nomad_7@mail.ru
V. V. Letunov - Post-graduate Student, Lebedev Institute of Precission Mechanics and Computer Engineering, Russian Academy of Sciences, Moscow. E-mail: vladimirletunov@yandex.ru
Enhance prediction of the orbital motion space objects. Creation of the reference orbit
D. A. Lovcov - Dr.Sc. (Eng.), Professor, Lebedev Institute of Precision Mechanics and Computer Engineering, Russian Academy of Sciences (IPMCE) E-mail: dal@ipmce.ru G. I. Andreev - Post-graduate Student, Lebedev Institute of Precision Mechanics and Computer Engineering, Russian Academy of Sciences (IPMCE) E-mail: andreeffgena@gmail.com V. V. Letunov - Post-graduate Student, Lebedev Institute of Precission Mechanics and Computer Engineering, Russian Academy of Sciences (IPMCE) E-mail: vladimirletunov@yandex.ru
Method of forming a rational set of test trajectory options to increase the reliability of performance evaluation during testing of radar information tools

R.A. Gudaev¹, I.V. Chebotar², S.V. Kulikov³, Z.F. Shaidulin4, M.T. Baldytchev5, М.S. Smirnov6

1,3,6 Mozhaysky Military Space Academy (Saint Petersburg, Russian)

2,4,5 Military University of Radioelectronics (Cherepovets, Russian)

Methodology for estimating the error in predicting the position of space debris elements based on the results of tracking by a radar information tool

I.V. Chebotar1, R.A. Gudaev2, S.V. Kulikov3, M.S. Smirnov4, V.M. Lizan5

1Military University of Radioelectronics (Cherepovets, Russia)

2−5A.F. Mozhaysky Military Space Academy (Saint Petersburg, Russia)

Substantiation of the requirements for the initial conditions in solving the problem of rendezvous with large space debris

I.V. Chebotar1, A.L. Kamyshev2, S.V. Kulikov3, R.A. Gudaev4, S.V. Vasiliev5

1 Military University of Radioelectronics (Cherepovets, Russia)

2−5 A.F. Mozhaisky Military Space Academy (Saint-Petersburg, Russia)

Methodology for estimating the error in predicting the position of space debris elements based on the results of tracking by a radar information tool

I.V. Chebotar1, R.A. Gudaev2, S.V. Kulikov3, M.S. Smirnov4, V.M. Lizan5

1 Military University of Radioelectronics (Cherepovets, Russia)
2−5 A.F. Mozhaysky Military Space Academy (Saint Petersburg, Russia)
1−5 cvviur6@mil.ru

Substantiation of the requirements for the initial conditions in solving the problem of rendezvous with large space debris

I.V. Chebotar1, A.L. Kamyshev2, S.V. Kulikov3, R.A. Gudaev4, S.V. Vasiliev5

1 Military University of Radioelectronics (Cherepovets, Russia)
2−5  A.F. Mozhaisky Military Space Academy (Saint-Petersburg, Russia)
2–5   vka@mil.ru