AUTONOMOUS CAPTURING OF MOVING TARGET WITH OPTIMAL RENDEZVOUS ATTITUDE AND MANIPULATOR CONFIGURATION

Wenfu Xu, Bin Liang, Cheng Li, and Yangsheng Xu

References

1. [1] K. Yoshida & Y. Umetani, Control of space free-flying robot, Proceedings of the 29th Conference on Decision and Control, Honolulu, Hawaii, 1990, 97–102.
2. [2] Y. Umetani & K. Yoshida, Resolved motion rate control of space manipulators with generalized Jacobian matrix, IEEE Transactions on Robotics and Automation, 5 (3), 1989, 303– 314.
3. [3] S.K. Agrawal, M.Y. Chen, & M. Annapragada, Modeling and simulation of assembly in a free-floating work environment by a free-floating robot, Transactions of ASME Journal of Mechanical Design, 118 (1), 1996, 115–120.
4. [4] E. Papadopoulous & S.A.A. Moosavian, Dynamics and control of multi-arm space robots during chase and capture operations, Proceedings of the IEEE International Conference on Intelligent Robots and Systems, 1994, 1554–1561.
5. [5] H. Nagamatsu, T. Kubota, & I. Nakatani, Capture strategy for retrieval of a tumbling satellite by a space robotic manipulator, Proceedings of the IEEE Conference on Robotic and Automation, Minneapolis, Minnesota, 1996, 70–75.
6. [6] K. Yoshida, D. Dimitrov, & H. Nakanishi, On the capture of tumbling satellite by a space robot, Proceedings of The IEEE/RSJ International Conference on Intelligent Robots and System, Beijing, China, 2006, 4127–4132.
7. [7] R.A. McCourt & C.W. de Silva, Autonomous robotic capture of a satellite using constrained predictive control, IEEE/ASME Transactions on Mechatronics, 11(6), 2006, 699–708.
8. [8] E. Papadopoulos & S. Dubowsky, Dynamic singularities in the control of free-floating space manipulators, ASME Journal of Dynamic Systems, Measurement and Control, 115 (1), 1993, 44–52.
9. [9] E. Papadopoulos & S. Dubowsky, Coordinated manipulator/spacecraft motion control for space robotic systems, Proceedings of the International Conference on Robotics and Autanatim, Sacramento, California, 1991, 1696–1701.
10. [10] M. Oda, Motion control of the satellite mounted robot arm which assures satellite attitude stability, Acta Astronautica, 41 (11), 1997, 739–750.
11. [11] W.F. Xu, C. Li, B. Liang, Y. Liu, & W.Y. Qiang, Coordinated planning and control method of space robot for capturing moving target (in Chinese), Acta Automatica Sinica, 35 (9), 2009, 1216–1225.
12. [12] Y.S. Xu & T. Kanade, Space robotics: dynamics and control (Norwell, Massachusetts: Kluwer Academic Publishers, 1992).
13. [13] S.A.A. Moosavian & E. Papadopoulos, Free-flying robots in space: An overview of dynamics modeling, planning and control, Robotica, 25 (5), 2007, 537–547.
14. [14] Z. Vafa & S. Dubowsky, The kinematics and dynamics of space manipulators: The virtual manipulator approach, International Journal of Robotics Research, 9 (4), 1990, 3–21.
15. [15] R.W. Longman, The kinetic and workspace of a satellitemounted robot, The Journal of the Astronautical Sciences, 38 (4), 1990, 441–472.
16. [16] Y. Umetani & K. Yoshida, Workspace and manipulability analysis of space manipulator, Transactions of the Society of Instrument and Control Engineers, E-1 (1), 2001, 116–123.
17. [17] W.F. Xu, Y. Liu, B. Liang, Y.S. Xu, & W.Y. Qiang, Autonomous path planning and experiment study of free-floating space robot for target capturing, Journal of Intelligent and Robotic Systems, 51 (3), 2008, 303–331.

Important Links:

• Abstract
• DOI: 10.2316/Journal.206.2010.4.206-3209
• From Journal (206) International Journal of Robotics and Automation - 2010

Go Back