| Space systems: instruments, methods and technologies |
|
Editors' introduction | 7-8 |
| R.V. Bessonov, E.V. Belinskaya, N.N. Brysin, S.V. Voronkov, A.N. Kurkina, A.A. Forsh
Star trackers in astroinertial systems of flying vehicles | 9-20 |
| R.V. Bessonov, B.S. Zhukov, E.S. Karavaeva, T.V. Kondratieva, V.E. Shevelev
The basic principles of design of astrocorrector for endoatmospheric vehicles | 21-30 |
| G.A. Avanesov, R.V. Bessonov, A.N. Kurkina, P.S. Smetanin
Technology for ground processing of data on the stars’ coordinates in order to improve the accuracy of georeferencing Earth images from space | 31-38 |
| G.A. Avanesov, R.V. Bessonov, P.S. Smetanin, O.V. Filippova, Ya.D. Elyashev
Features of coordinate measuring by opto-electronic star trackers with different angular resolution | 39-47 |
| G.A. Avanesov, N.I. Snetkova, O.V. Filippova, Ya.D. Elyashev
Studying the stars of the celestial sphere section by two BOKZ-M60 star trackers | 48-59 |
| G.A. Avanesov, A.N. Kurkina, O.V. Filippova, Ya.D. Elyashev
An experiment for the correction of the onboard catalogue fragment of the BOKZ-M60 star tracker | 60-68 |
| G.A. Avanesov, N.A. Stroilov, O.V. Filippova, V.A. Shamis, Ya.D. Elyashev
Adaptation of star catalogues for their application in star trackers | 69-81 |
| R.V. Bessonov, E.V. Belinskaya, N.N. Brysin, S.V. Voronkov, S.A. Prokhorova, N.A. Stroilov, A.A. Forsh
The test bench study of star image energy center determination error in star trackers | 82-89 |
| G.A. Avanesov, R.V. Bessonov, N.N. Brysin, A.S. Kvashnin, V.E. Shevelev
Ways to decrease thermoelastic deformations of star trackers | 90-105 |
| S.A. Prokhorova, P.S. Smetanin, A.A. Forsh
Development of algorithms for filtering primary data in a star tracker | 106-118 |
| E.V. Belinskaya, A.A. Kobeleva, P.S. Smetanin, Ya.D. Elyashev, M.E. Chernyak
Comparison of the structural damage effects in CMOS and CCD used in star trackers by the example of CMV4000 and LEV-4 CCD | 119-130 |
| E.A. Bazina, R.V. Bessonov, N.N. Brysin, A.V. Nikitin, S.A. Prokhorova, N.A. Slivko, N.A. Stroilov, B.A. Yumatov
Mathematical model of the measurement bench for determination of internal orientation elements | 131-144 |
| R.V. Bessonov, E.V. Belinskaya, A.N. Kurkina, N.A. Stroilov, B.A. Yumatov
Software system for processing and storing information, obtained from the star trackers | 145-153 |
| B.S. Zhukov, V.A. Grishin, S.B. Zhukov, T.V. Kondratieva, A.G. Tuchin, V.S. Yaroshevsky
Simulation of optical navigation measurements at the approach trajectory to the lunar landing areas | 154-168 |
| B.S. Zhukov, V.A. Grishin, S.B. Zhukov, T.V. Kondratieva, A.G. Tuchin, V.S. Yaroshevsky
Simulation of optical navigation measurements during vertical descent onto the lunar surface | 169-179 |
| S.V. Voronkov, A.V. Nikitin, S.A. Prokhorova, Ya.D. Elyashev
On-ground testing of interaction between the lunar manipulator system and the housekeeping TV system | 180-187 |
| N.F. Abramov, S.V. Voronkov, A.V. Nikitin, I.V. Polyanskiy, A.A. Forsh
Remote television imaging from the landing platform of the ExoMars-2020 spacecraft | 188-200 |
| B.S. Zhukov, S.B. Zhukov, T.V. Kondratieva, A.V. Nikitin
Automation of in-flight geometric calibration of multispectral satellite imaging system KMSS-M on board Meteor-M No. 2 satellite | 201-212 |
| M.Yu. Belyaev, B.I. Belyaev, D.A. Ivanov, L.V. Katkovsky, A.O. Martinov, V.V. Riazantsev, E.E. Sarmin, O.O. Siliuk, V.G. Shukajlo
Atmospheric correction of data registered on board the ISS. Part I. Methodology for spectra | 213-222 |
| M.Yu. Belyaev, B.I. Belyaev, D.A. Ivanov, L.V. Katkovsky, A.O. Martinov, V.V. Riazantsev, E.E. Sarmin, O.O. Siliuk, V.G. Shukajlo
Atmospheric correction of data registered on board the ISS. Part II. Methodology for images and application results | 223-234 |
| A.A. Kascheev, V.V. Mironov
Improving the accuracy of estimating communication session continuance of Earth remote sensing spacecrafts with ground based data receiving stations for reliable high speed radio links | 235-244 |
|
| Imprint page
| 245 |