The Artificial Satellites’ Observation Using the Complex of Telescopes of RI «MAO»

1Sybiryakova, Ye.S, 1Shulga, OV, 1Vovk, VS, 1Kaliuzny, MP, 1Bushuev, FI, 1Kulichenko, MO, 1Haloley, MI, 1Chernozub, VM
1Mykolaiv Astronomical Observatory Research Institute
Nauka innov. 2017, 13(1):11-16
https://doi.org/10.15407/scin13.01.011
Section: Scientific Framework of Innovation Activities
Language: Ukrainian
Abstract: 
Special methods, means and software for cosmic objects’ observation and processing of obtained results were developed. Combined method, which consists in separated accumulation of images of reference stars and artificial objects, is the main method used in observations of artificial cosmic objects. It is used for observations of artificial objects at all types of orbits.
Keywords: artificial satellites, combined method of observation, telescopes, time delay and integration
References: 
1. Park M., Jo J. H., Cho S. Minimum Number of Observation Points for LEO Satellite Orbit Estimation by OWL Network. J. Astron. Space Sci. 2015: 357-366.
2. Santoni F., Piergentili F. Result of observation campaigns for satellite orbital and attitude motion determination. Procidings of 6th European Conference on Space Debris. 2013. id. 164.
3. Hampf D., Wagner P., Riede W. Optical technologies for the observation of low Earth orbit objects. Available: https://arxiv.org/abs/1501.05736
4. Sybiryakova Ye.S., Kozyryev Ye.S., Shulga A.V. The results of positional observations of near earth asteroids using the combined observation method. Bulletin of the Crimean Astrophysical Observatory. 2011. 109(1): 66-70.
https://doi.org/10.3103/S0190271713010221
5. Nechaeva M., Antipenko A., Bezrukovs V., Bezrukov D., Dementjev A., Dugin N., Konovalenko A., Kulishenko V., Liu X., Nabatov A., Nesteruk V., Pupillo G., Reznichenko A., Salerno E., Shmeld I., Shulga O., Sybiryakova Y., Tikhomirov Yu., Tkachenko A., Volvach A., Yang W.-J. Experiment on radiolocation of objects in near- earth space using VLBI in 2012. Baltic Astronomy. 2013. 22: 35-41.
6. Vovk V.S., Kozyruev Y.S., Kulichenko N.A, Sibirjakova E.S., Shul'ga A.V. Pervye rezultaty regulyarnyh nablyudenij nizkoorbitalnyh kosmicheskih obektov v NII «Nikolaevskaya astronomicheskaya observatoriya». Kosmichna Nauka i Tekhnologiya (Space Science and Technology). 2013. 19(6): 53-59 [in Russian].
https://doi.org/10.15407/knit2013.06.053
7. Shulga O.V., Kozyruev Y.S., Sybiryakova Y.S. Mobilnyj kompleks teleskopov NII NAO dlya nablyudenij obektov okolozemnogo kosmicheskogo prostranstva. Kosmichna Nauka i Tekhnologiya (Space Science and Technology). 2012. 18(4): 52-58 [in Russian].
https://doi.org/10.15407/knit2012.04.052
8. Shulga O., Kozyryev Ye., Sybiryakova Ye., Zhenghong Tang, Yindun Mao, Yan Li, Yong Yu. NAO and SHAO participation in the near-Earth space observations. IAU XXVIII General Assembly Abstract Book. Beijing. 2012: 1253.
9. Kozyruev Y.S., Sybiryakova Y.S., Shulga O.V. Systema tsentralizovanoho keruvannia merezheiu optychnykh teleskopiv. Byuleten Ukrainskogo centru viznachennya parametriv obertannya Zemli (Bulletin of Ukrainian Earth Orientation Parameters Laboratory ). 2013. 8: 41-44 [in Ukrainian].
10. Shulga O.V., Kravchuk S.G., Sybiryakova Y.S. Rozvytok ukrainskoi merezhi optychnykh stantsii UMOS yak skladovoho elementu systemy kontroliu navkolozemnoho kosmichnoho prostoru. Kosmichna Nauka i Tekhnologiya (Space Science and Technology). 2015. 21(3): 74-82 [in Ukrainian].
https://doi.org/10.15407/knit2015.03.074
11. Ukraine Network of Optical Stations. Available: http://umos.mao.kiev.ua/eng/
12. Kara I.V., Kozyruev Y.S., Sybiryakova Y.S., Shulga O.V. NAO catalog of geocentric state vectors of geosynchronous space objects. Bulletin of the Crimean Astrophysical Observatory. 2011. 107: 98-102.
https://doi.org/10.3103/S0190271711010086