论文信息 - A Motion Planning Method Based Vision Servo for Free-Flying Space Robot Capturing a Tumbling Satellite

A Motion Planning Method Based Vision Servo for Free-Flying Space Robot Capturing a Tumbling Satellite

This paper presents a motion planning scheme for free-flying space robot capturing the tumbling target. And a tracking method of manipulator based vision servo is proposed. The target is in nutational motion. The pose of the target's docking ring can be measured by the manipulator's hand-eye cameras. The motion planning of manipulator in Cartesian Space is based on Euler Angle and Homogeneous matrix. It plans the motion arbitrarily and smoothly in six-axis. Compared with the classical position-based visual servo (PBVS) method, it's relatively simpler and can accomplish the capture within the specified time. The algorithm of visual measurement and the position-based inverse kinematics can avoid the singularities effectively. And the interpolation algorithm in the joint space is needed due to the different cycle, the visual measurement 100ms, the manipulator's controller 2ms. A detailed motion planning and control scheme of free-flying space robot is established. A set of numerical experiments by MSC ADAMS®/SIMULINK® co-simulation verify the validity and feasibility of the proposed approach.

Hong Liu | Minghe Jin | Xiaoyu Zhao | Yechao Liu | Guocai Yang

[1] Farhad Aghili,et al. A Prediction and Motion-Planning Scheme for Visually Guided Robotic Capturing of Free-Floating Tumbling Objects With Uncertain Dynamics , 2012, IEEE Transactions on Robotics.

[2] Wen-Hong Zhu,et al. Adaptive Control of Harmonic Drives Based on Virtual Decomposition , 2006, IEEE/ASME Transactions on Mechatronics.

[3] Xinglong Wang,et al. Safely flying strategy of space robot for approaching a tumbling satellite , 2017, 2017 29th Chinese Control And Decision Conference (CCDC).

[4] Eberhard Gill,et al. Review and comparison of active space debris capturing and removal methods , 2016 .

[5] Jianping Yuan,et al. Optimal capture occasion determination and trajectory generation for space robots grasping tumbling objects , 2017 .

[6] Roberto Lampariello,et al. On Grasping a Tumbling Debris Object with a Free-Flying Robot , 2013 .

[7] Seth Hutchinson,et al. Visual Servo Control Part I: Basic Approaches , 2006 .

[8] Masaru Uchiyama,et al. Detumbling an uncontrolled satellite with contactless force by using an eddy current brake , 2013, 2013 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[9] François Chaumette,et al. Visual servo control. I. Basic approaches , 2006, IEEE Robotics & Automation Magazine.

[10] Marcel J. Sidi,et al. Spacecraft Dynamics and Control: A Practical Engineering Approach , 1997 .

[11] Ou Ma,et al. A review of space robotics technologies for on-orbit servicing , 2014 .