Aiming at the problem of satellite attitude stability in the space operation task of redundant multi arm free floating space robot (RMFFSR), firstly, the motion model of RMFFSR is studied, and the multi arm generalized Jacobian matrix (MGJM) reflecting the motion relationship between the linear velocity and angular velocity of any manipulator end effector of RMFFSR and the angular velocity of RMFFSR joint in the free floating state is obtained. Secondly, the RMFFSR resolved motion rate control (RMRC) algorithm based on MGJM is provided. At the same time, the satellite attitude stabilization algorithm based on the MGJM for the attitude stability of multi arm coordinated satellite based on RMFFSR arbitrary manipulator and the satellite attitude stabilization algorithm based on the MGJM for the attitude stability of multi joint coordinated satellite based on RMFFSR arbitrary manipulator are researched. Finally, the RMFFSR satellite attitude control system (RSACS) is researched. By combining the multi arm manipulator planning system with the satellite body attitude control system, the motion planning with minimum attitude disturbance of the satellite body is completed; by predicting the angular momentum of the manipulator's attitude disturbance with the satellite body, the satellite body attitude control method based on the prediction of the satellite body attitude disturbance and the autonomous coordinated attitude control algorithm of the RMFFSR manipulator are realized.
| Published in | Automation, Control and Intelligent Systems (Volume 10, Issue 2) |
| DOI | 10.11648/j.acis.20221002.13 |
| Page(s) | 27-34 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
RMFFSR, Attitude Control, Coordination Control, MGJM, Attitude Disturbance Prediction, Autonomous Coordinated Attitude Control, RMRC
| [1] | Yu XY. Hybrid-Trajectory based Terminal Sliding Mode Control of a Flexible Space Manipulator with an Elastic Base. Robotica, 2020, 38 (3): 550-563. |
| [2] | Aghili F. Optimal Trajectories and Robot Control for Detumbling a Non-cooperative Satellite [J]. Journal of Guidance, Control, and Dynamics, 2020, 43 (5): 981-988. |
| [3] | Virgili-Llop J, Zagaris C, Zappulla R, et al. A Convex-Programming based Guidance Algorithm to Capture a Tumbling Object on Orbit Using a Spacecraft Equipped with a Robotic Manipulator. The International Journal of Robotics Research, 2019, 38 (1): 40-72. |
| [4] | Ai Haiping, Chen Li. Dynamic Buffer Compliance Control of Space Robot based on Flexible Mechanism Capturing Satellite. Chinese Journal of Theoretical and Applied Mechanics, 2020, 52 (4): 975-984. |
| [5] | AI-Isawi M M A, Sasiadek J Z. Guidance and Control of a Robot Capturing an Uncooperative Space Target [J]. Journal of Intelligent & Robotic Systems, 2019, 93 (3/4): 713-721. |
| [6] | Zong L, Emami MR, Luo J. Reactionless Control of Free-Floating Space Manipulators. IEEE Transactions on Aerospace and Electronic Systems, 2020, 56 (2): 1490-1503. |
| [7] | E. Papadopoulos, S. Dubowsky. On the Nature of Control Algorithms for Free-Floating Space Manipulators, IEEE Trans, Robotics Automat. 1991, 7 (5): 750-758. |
| [8] | Cui Hao, Ge Xinsheng. Polynomial Interpolation Method for Motion Planning of Free Floating Space Robot [J]. Journal of Beijing Information Science & Technology University, 2019, 34 (4): 17-23, 29. |
| [9] | Zhang HW, Zhu ZX. Sampling-based Motion Planning for Free-Floating Space Robot without Inverse Kinematics. Applied Sciences, 2020, 10 (24): 9137. |
| [10] | S. Dubowsky, E. E. Vance, M. A. Torres. The Control of Space Manipulators Subject to Spacecraft Attitude Control Saturation Limits. Proc. Of NASA Conf. on Space Telerobotics, Apr 1989: 409-418. |
| [11] | R. Longman, R. Linberg, M. Zedd. Satellite-Mounted Robot Manipulators-New Kinematics and Reaction Moment Compensation. Int. Journal of Robotics Research. 1987, 6 (3): 87-103. |
| [12] | M. W. Walker, L. Wee. Adaptive Control of Space-Based Robot Manipulators. IEEE Trans. Robotics Automat. 1991, 7 (6): 828-835. |
| [13] | Baoli Ma, Wei Huo. Adaptive Kinematic Control of Free-Floating Space Robot System. Proc. IROS 96, 1996: 1565-1572. |
| [14] | Yangshen Xu, Heung-Yeung Shum. Adaptive Control of Space Robot System with an Attitude Controlled Base. Proc. of IEEE Int. Conf. on Robotics and Automation. 1992: 2005-2010. |
| [15] | K. Yamada. Attitude Control of Space Robot by Arm Motion. Journal of Guidance, Control and Dynamics. 1994, 17 (5): 1050-1054. |
| [16] | Z. Vafa. Space Manipulator Motions with No Satellite Attitude Disturbance. Proc. of the IEEE Int. Conf. on Robotics and Automation, 1990: 1770-1775. |
| [17] | K. Yamada, S. Yoshikawa. Feedback Control of Space Robot Attitude by Cyclic Arm Motion. Journal of Guidance, Control and Dynamics. 1997, 20 (4): 715-720. |
| [18] | C. Fernandes, L. Gurvits, Z. X. Li. Attitude Control of Space Platform / Manipulator System Using Internal Motion. Proc. of IEEE Int. Conf. on Robotics and Automation, 1992: 893-898. |
| [19] | Y. Nakamura, R. Kukherjee. Nonholonomic Path Planning of Space Robots via a Bidirectional Approach. IEEE Robotics. Automat. 1991, 7 (4): 500-514. |
| [20] | Y. Nakamura, R. Kukherjee. Exploiting Nonholonomic Redundancy of Free-Flying Space Robots. IEEE Trans. Robotics. IEEE Trans. Robotics Automat. 1993, 9 (4): 499-506. |
| [21] | E. Papadopoulos. On the Design of Zero Reaction Manipulators. Transactions of the ASME Journal of Mechanical Design. 1996, 118: 372-376. |
| [22] | E. Papadopoulos, S. Dubowsky. Coordinated Manipulator / Spacecraft Motion Control for Space Robotic Systems. IEEE Proc. Robotics Automat, April 1991: 1696-1701. |
| [23] | K. Yashida, R. Kurazume. Dual Arm Coordination in Space Free-Flying Robot. IEEE Proc. Robotics Automat, April 1991: 2516-2521. |
| [24] | Wu Wei. Research on Autonomous Planning of Dual Arm Free Flying Space Robot Doctoral [D], Dissertation of Harbin Institute of Technology. 1998: 87-95. |
| [25] | D. Nenchev, Y. Umetani. Analysis of a Redunant Free-Flying Spacecraft / Manipulator System. IEEE Trans. Robotics Automat. 1992, 8 (1): 1-6. |
| [26] | D. Nenchev. A Controller for a Redundant Free-Flying Space Robot with Spacecraft Attitude / Manipulators Motion Coordination. Proc. of the IEEE / RSJ Int. Conf. on Intelligent Robots and Systems, 1993: 2018-2114. |
| [27] | K. Yoshida, R. Kurazume, Y. Umetani. Torque Optimization Control in Space Robots with a Redundant Arm. IEEE / RSJ Int. Workshop on Intelligent Robots and Systems, 1991: 1647-1652. |
| [28] | S. K. Agrawal, S. Shirumalla. Planning Motions of a Dual-Arm Free-Floating Manipulator Keeping the Base Inertially Fixed. Mech. Theory. 1995, 30 (1): 59-70. |
| [29] | Wang M, Luo J, Yuan J, et al. Detumbling Strategy and Coordination Control of Kinematically Redundant Space Robot after Capturing a Tumbling Target [J]. Nonlinear Dynamics, 2018, 92 (3): 1023-1043. |
| [30] | Chu Z, Ma Y, Cui J. Adaptive Reactionless Control Strategy via the PSO-ELM Algorithm for Free-Floating Space Robots during Manipulation of Unknown Objects [J]. Nonlinear Dynamics, 2018, 91 (2): 1321-1335. |
APA Style
Huazhong Li. (2022). Research on Autonomous Coordinated Satellite Attitude Control Algorithm of RMFFSR. Automation, Control and Intelligent Systems, 10(2), 27-34. https://doi.org/10.11648/j.acis.20221002.13
ACS Style
Huazhong Li. Research on Autonomous Coordinated Satellite Attitude Control Algorithm of RMFFSR. Autom. Control Intell. Syst. 2022, 10(2), 27-34. doi: 10.11648/j.acis.20221002.13
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Download@article{10.11648/j.acis.20221002.13,
author = {Huazhong Li},
title = {Research on Autonomous Coordinated Satellite Attitude Control Algorithm of RMFFSR},
journal = {Automation, Control and Intelligent Systems},
volume = {10},
number = {2},
pages = {27-34},
doi = {10.11648/j.acis.20221002.13},
url = {https://doi.org/10.11648/j.acis.20221002.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.acis.20221002.13},
abstract = {Aiming at the problem of satellite attitude stability in the space operation task of redundant multi arm free floating space robot (RMFFSR), firstly, the motion model of RMFFSR is studied, and the multi arm generalized Jacobian matrix (MGJM) reflecting the motion relationship between the linear velocity and angular velocity of any manipulator end effector of RMFFSR and the angular velocity of RMFFSR joint in the free floating state is obtained. Secondly, the RMFFSR resolved motion rate control (RMRC) algorithm based on MGJM is provided. At the same time, the satellite attitude stabilization algorithm based on the MGJM for the attitude stability of multi arm coordinated satellite based on RMFFSR arbitrary manipulator and the satellite attitude stabilization algorithm based on the MGJM for the attitude stability of multi joint coordinated satellite based on RMFFSR arbitrary manipulator are researched. Finally, the RMFFSR satellite attitude control system (RSACS) is researched. By combining the multi arm manipulator planning system with the satellite body attitude control system, the motion planning with minimum attitude disturbance of the satellite body is completed; by predicting the angular momentum of the manipulator's attitude disturbance with the satellite body, the satellite body attitude control method based on the prediction of the satellite body attitude disturbance and the autonomous coordinated attitude control algorithm of the RMFFSR manipulator are realized.},
year = {2022}
}
TY - JOUR T1 - Research on Autonomous Coordinated Satellite Attitude Control Algorithm of RMFFSR AU - Huazhong Li Y1 - 2022/05/12 PY - 2022 N1 - https://doi.org/10.11648/j.acis.20221002.13 DO - 10.11648/j.acis.20221002.13 T2 - Automation, Control and Intelligent Systems JF - Automation, Control and Intelligent Systems JO - Automation, Control and Intelligent Systems SP - 27 EP - 34 PB - Science Publishing Group SN - 2328-5591 UR - https://doi.org/10.11648/j.acis.20221002.13 AB - Aiming at the problem of satellite attitude stability in the space operation task of redundant multi arm free floating space robot (RMFFSR), firstly, the motion model of RMFFSR is studied, and the multi arm generalized Jacobian matrix (MGJM) reflecting the motion relationship between the linear velocity and angular velocity of any manipulator end effector of RMFFSR and the angular velocity of RMFFSR joint in the free floating state is obtained. Secondly, the RMFFSR resolved motion rate control (RMRC) algorithm based on MGJM is provided. At the same time, the satellite attitude stabilization algorithm based on the MGJM for the attitude stability of multi arm coordinated satellite based on RMFFSR arbitrary manipulator and the satellite attitude stabilization algorithm based on the MGJM for the attitude stability of multi joint coordinated satellite based on RMFFSR arbitrary manipulator are researched. Finally, the RMFFSR satellite attitude control system (RSACS) is researched. By combining the multi arm manipulator planning system with the satellite body attitude control system, the motion planning with minimum attitude disturbance of the satellite body is completed; by predicting the angular momentum of the manipulator's attitude disturbance with the satellite body, the satellite body attitude control method based on the prediction of the satellite body attitude disturbance and the autonomous coordinated attitude control algorithm of the RMFFSR manipulator are realized. VL - 10 IS - 2 ER -
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