Algorithm of Thruster Failure Detection for the International Space Station Based on Self-Adjusting Onboard Model of Angular Motion Dynamics
| Authors: Zhirnov A.V., Timakov S.N. | Published: 12.08.2016 |
| Published in issue: #4(109)/2016 | |
| DOI: 10.18698/0236-3933-2016-4-98-114 | |
| Category: Aviation, Rocket and Space Engineering | Chapter: Dynamics, Ballistics, Flying Vehicle Motion Control | |
| Keywords: failure detection, thruster failure, self-adjust onboard model, adaptive observer, elastic vibrations of structure | |
The article reviews the failure detection of the International Space Station thrusters. We designed an algorithm for the detection of thruster failures. It is based on the analysis of the difference between the actual behavior of the angular motion dynamics of the spacecraft and its onboard model. The self-adjusting onboard model allows us to eliminate the false alarms caused by the influence of structure elastic vibrations. We also provide both simulation and real flight test results.
References
[1] Legostaev V.P., Markov A.V., Sorokin I.V. Legostaev V.P., Markov A.V., Sorokin I.V. The ISS Russian segment utilization: research accomplishments and prospects. Kosm. tekhn. i tekhnologii [Space Engineering and Technology], 2013, no. 2, pp. 3-18 (in Russ.).
[2] Zubov N.E., E Mikrin.A., Misrikhanov M.Sh., Ryabchenko V.N., Timakov S.N. The use of an adaptive bandpass filter as an observer in the control loop of the international space station. Journal of Computer and Systems Sciences International, 2012, vol. 51, no. 4, pp. 560-572. DOI: 10.1134/S1064230712030124
[3] Kolesnikov K.S. Dinamika raket [Dynamics of missiles]. Moscow, Mashinostroenie Publ., 2003, 520 p.
[4] Eykhoff P. System identification: Parameter and state estimation. Wiley-Interscience, 1974. 555 p.
[5] Zubov N.E., Mikrin E.A., Misrikhanov M.Sh., Ryabchenko V.N., Timakov S.N., Cheremnykh E.A. Identification of the position of an equilibrium attitude of the international space station as a problem of stable matrix completion. Journal of Computer and Systems Sciences International, 2012, vol. 51, no. 2, pp. 291–305. DOI: 10.1134/S1064230712010133
[6] Zubov N.E., Mikrin E.A., Misrikhanov M.Sh., Ryabchenko V.N., Timakov S.N. The use of the exact pole placement algorithm for the control of spacecraft motion. Journal of Computer and Systems Sciences International, 2013, vol. 52, no. 1, pp. 129-144. DOI: 10.1134/S1064230713010127
[7] Sage A., Melsa J. System identification. Academic Press, N.Y., 1971.
[8] Zhirnov A., Timakov S. Active damping algorithm of the international space station structure vibration. Proc. of the International Astronautical Congress, IAC-14, C1.4.4. – 3 Oct. Canada Toronto, vol. 7, pp. 4819–4824.
[9] Zhirnov A.V., Timakov S.N. Algorithm of active damping of elastic oscillations of the international space station construction. Vestn. Mosk. Gos. Tekh. Univ. im. N.E. Baumana, Priborostr. [Herald of the Bauman Moscow State Tech. Univ., Instrum. Eng.], 2014, no. 3, pp. 37–53 (in Russ.).
