Indexing
All Issues
Submission
Author Guidelines
Reviewers
Editorial Members
Publication Fee
Vol.3 , No. 2, Publication Date: May 31, 2018, Page: 41-49
| [1] | Mikhail Valer'evich Levskii, Research Institute of Space Systems, Khrunichev State Space Research-and-Production Center, Korolev, Moscow Region, Russia. |
Aspects of increase of efficiency of spacecraft’s motion control are discussed. It is supposed that basic means of control for change of spacecraft position are jet engines. The combining of control regimes of orientation and orbit correction, as perspective way of problem solution, is considered. New specific index of optimality is entered for estimate of a quality of motion control. Then, the problem of combining terminal orientation with correction of orbit altitude maintenance by optimal way is solved. Concrete control algorithm of spacecraft reorientation combined with orbit correction, in application to large massive spacecrafts and, in particular, orbital station, is presented. Results of mathematical simulation of motion control which uses the designed method are given. Also, estimation of efficiency indices is made for the mount scheme of motionless micro-engines. High efficiency of combining regimes of attitude control and correction of spacecraft’s orbit altitude is shown.
Keywords
Spacecraft Motion, Jet Engines, Criterion of Optimality, Control Law, Combining Regime
Reference
| [01] | Levskii M. V. Optimal control of a programmed turn of a spacecraft, Cosmic Research, 2003, vol. 41, no. 2. |
| [02] | Shen H., Tsiotras P. Time-optimal control of axi-symmetric rigid spacecraft with two controls. AIAA J. Guidance, Control and Dynamics, 1999. vol. 22. no. 5. |
| [03] | Ermoshina O. V., Krishchenko A. P. Synthesis of programmed controls of spacecraft orientation by the method of inverse problem of dynamics. Journal of Computer and Systems Sciences International, 2000, vol. 39, no. 2. |
| [04] | A. V. Molodenkov, Ya. G. Sapunkov. Special control regime in optimal turn problem of spherically symmetric spacecraft. Journal of Computer and Systems Sciences International, 2009, vol. 48, no. 6. |
| [05] | Levskii M. V. Kinematically optimal spacecraft attitude control. Journal of Computer and Systems Sciences International, 2015, vol. 54, no. 1. |
| [06] | Handbook on the Automatic Control Theory. Edited by A. A. Krasovskii, Nauka, Moscow, 1987. [in Russian] |
| [07] | Levskii M. V. Control system of spatial turn of a spacecraft. Russian Federation Patent (Invention's Certificate) No. 2006431. Bulletin “Inventions. Statements and Patents”, no. 2, Published 30 January, 1994. [in Russian] |
| [08] | Levskii M. V. Method of control of spacecraft reorientation and control system of spacecraft reorientation, Russian Federation Patent (Invention's Certificate) No. 2076833. Bulletin “Inventions. Statements and Patents”, no. 10 (1997) Published 10 April, 1997. [in Russian] |
| [09] | Vasil'ev F. P. Numerical Methods of Solving Extremal Problems. Nauka, Moscow, 1988. [in Russian] |
| [10] | Bertolazzi E., Biral F., Da Lio M. Symbolic-numeric efficient solution of optimal control problems for multibody systems. J. Computational and Applied Mathematics, 2006. vol. 185, Issue 2. |
| [11] | Aipanov Sh. A., Murzabekov Z. N. Analytical solution of a linear quadratic optimal control problem with control value constraints. Journal of Computer and Systems Sciences International, 2014, vol. 53, no. 1. |
| [12] | Levskii M. V. The case of optimal control with exceptional role of the conditions of transversality. International Robotics & Automation Journal, 2017, vol. 3, Issue 3. |
