Adaptive control of coupled position and attitude for tracking characteristic point of disabled satellite

doi:10.16708/j.cnki.1000-758X.2018.0015

Chinese Space Science and Technology ›› 2018, Vol. 38 ›› Issue (1): 8-17.doi: 10.16708/j.cnki.1000-758X.2018.0015

Previous Articles Next Articles

Adaptive control of coupled position and attitude for tracking characteristic point of disabled satellite

WANG Xiao¹, SHI Peng^1,*, WEN Changxuan², ZHAO Yushan¹

1. School of Astronautics, Beihang University, Beijing 100191, China;
2. Key Laboratory of Space Utilization, Technology and Engineering Center for Space Utilization, Chinese Academy of Sciences, Beijing 100094, China

Received:2017-02-15 Accepted:2018-01-15 Published:2018-02-25 Online:2020-02-12

Abstract

Abstract:

In order to realize the hovering and the attitude directing to characteristic point on disabled satellite at the same time, the relative dynamics and control between the characteristic point and the chaser were researched. The coupled position and attitude dynamic model was built under the chaser’s body frame. Combined with the kinematics of characteristic point, specific point, the expected position and attitude of the chaser were derived. considering the chaser’s mass, moment of inertia uncertainty, system’s disturbing force and disturbing moment uncertainty, and the moment of inertia uncertainty of the disabled satellite, an adaptive control law was designed, and the closed-loop system was proved to be stable through Lyapunov method. If there were constraints for the output, the process for adjusting the control parameters was designed and the output values were limited. The numerical simulation shows that the system can complete the tracking mission with position error1cm and attitude error 0.01° under the designed control law With the increasing of uncertain parameter’s deviations, the position error is raised to 7cm while the attitude error is raised to 0.1°. To adjust the control parameter and limit the output’s value, the control force and control moment can be restrained in the expected range while the tracking accuracy does not change, and the control required impulse can be reduced 9% while the required impulse moment can be reduced 30%.

Key words:

disabled satellite, coupled position and attitude, position and attitude tracking, adaptive control, model uncertainty

WANG Xiao, SHI Peng, WEN Changxuan, ZHAO Yushan. Adaptive control of coupled position and attitude for tracking characteristic point of disabled satellite[J]. Chinese Space Science and Technology, 2018, 38(1): 8-17.

[1]	TIAN Lin, XU Shi-Jie. Adaptive Attitude Control of Spacecraft with Variable Speed Control Moment Gyroscopes [J]. , 2012, 32(5): 9-16.
[2]	LIU Min, XU Shi-Jie, HAN Chao. Flexible Spacecraft Attitude stabilization Control Based on Direct Adaptive Algorithm [J]. , 2012, 32(4): 1-7.
[3]	YUAN Guo-Ping, SHI Xiao-Ping, LI Long. Adaptive Controller for Spacecraft Attitude Maneuver Based on Extended State Observer [J]. , 2011, 31(5): 9-17.
[4]	LEI Yong-Jun, TAN Shu-Ping, LIU Yi-Wu. Spacecraft Control Method for Fast Attitude Maneuver and Stabilization [J]. , 2010, 30(5): 48-53.
[5]	Zhang Yanzhao Yuan Jianping Luo Jianjun Zhou Wenyong(College of Astronautics,Northwestern Polytechnical University,Xi'an 710072). Orbital and Attitude Cooperative Control of Small Satellite in Proximity Operation [J]. , 2008, 28(05): 13-19.
[6]	Chen Xueqin Geng Yunhai Wang Feng Zhang Yingchun(Research Center of Satellite Technology,Harbin Institute of Technology,Harbin 150080). Satellite Attitude Fault-tolerant Control Based on Robust Adaptive Inverse Optimal Control [J]. , 2008, 28(02): 35-41.
[7]	Zong Hong Zhang Honghua Xu Fuxiang (Beijing Institute of Control Engineering,Beijing 100080). Adaptive Attitude Tracking Control of Flexible Satellite [J]. , 2007, 27(06): 25-30.
[8]	Hu Haixia Xie Yongchun(Beijing Institute of Control Engineering,Beijing 100080). Control Method Research of Space Manual-control Rendezvous and Docking [J]. , 2006, 26(05): 10-16+49.
[9]	Ge Hongjuan Wang Daobo (The College of Automation, Nanjing University of Aeronautics and Astronautics, Nanjing 210016). The Application of Adaptive Model Following Control in Flight Simulation Servo System [J]. , 2003, 23(05): -.
[10]	Zhang Honghua Zhang Guofeng ( Beijing Institute of Control Engineering,Beijing10 0 0 80 ). Adaptive Internal Model Control of Satellites With Flexible Appendages [J]. , 2002, 22(01): -.
[11]	Wang Jing L iu L iangdong Zhang Duzhou ( Beijing Institute of Control Engineering,Beijing10 0 0 80 ). Adaptive Attitude Control for Small Satellite [J]. , 2002, 22(01): -.
[12]	Wang Jing Liu Liangdong Liang Bin Wu Hongxin (Beijing Insitute of Control Engineering,Beijing 100080). Adaptive Control for Space Manipulators in Task Space [J]. , 2000, 20(06): -.
[13]	Wang Haoying Wang Jing Wu Hongxin Liang Bin (Beijing Institute of Control Engineering,Beijing 100080). Object Capture Adaptive Control for Space Robot [J]. , 2000, 20(05): -.
[14]	Wang Jing Wang Haoying Liu Liangdong Liang Bin (Beijing Institute of Control Engineering, Beijing 100080)$$$$. Composite Adaptive Control for Space Manipulators [J]. , 2000, 20(03): -.
[15]	Qi Chunzi Lü Zhenduo (Beijing Institute of Control Engineering,Beijing 100080). A Study of Compound Control in Tracking and Pointing System of Flexible Antenna on Satellite [J]. , 1999, 19(02): -.

Adaptive control of coupled position and attitude for tracking characteristic point of disabled satellite

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments