Title :
Dynamics and capture strategy study of space rope-based end effectors
Author :
Yuqiang Liu ; Dong Pan ; Yongjian Liu ; Chunlin Tan
Author_Institution :
Inst. of Spacecraft Syst. Eng. CAST, Beijing, China
Abstract :
Rope-based end effectors have a considerable advantage for capturing large inertial and non-cooperative spacecraft for their large tolerance and characteristics of soft capture. Taking a large space end effector as a research object, capture dynamics equations which includes a flexible rope model and a rope collision model are established according to the Lagrange method and they are verified and corrected by a designed capturing test. Then, a FA-SC-VT (fast-approach slow-contact velocity-tracking) capture strategy is provided for unknown non-cooperative capture problems. Simulation results indicate that compared with traditional uniform capture strategy, the method addressed in this paper can significantly reduce impact force at the end of the manipulator under the same operation time. Besides, the escape problem for low-mass target capture can be effectively solved.
Keywords :
aerospace control; end effectors; space vehicles; velocity control; FA-SC-VT; Lagrange method; capturing test; dynamics equations; fast-approach slow-contact velocity-tracking capture strategy; flexible rope model; impact force; inertial spacecraft; large space end effector; large tolerance; low-mass target capture; manipulator; noncooperative spacecraft; rope collision model; soft capture characteristics; space rope-based end effectors; uniform capture strategy; unknown noncooperative capture problems; Adaptation models; Dynamics; End effectors; Force; Mathematical model; Wires; Capture dynamics; Capture strategy; Experimental verification; Flexible rope;
Conference_Titel :
Multisensor Fusion and Information Integration for Intelligent Systems (MFI), 2014 International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4799-6731-5
DOI :
10.1109/MFI.2014.6997639
