Title :
System Design and Kinematic Analysis to Motion Control for RPRS
Author :
Wang, Minghui ; Ma, Shugen ; Li, Bin ; Wang, Yuechao ; Zhang, Liping
Author_Institution :
Shenyang Inst. of Autom., Chinese Acad. of Sci., Shenyang
Abstract :
This paper addresses the modularized structure of the control system and kinematic analysis to motion control for a new planetary rover, reconfigurable planetary robot system (RPRS). In the RPRS, a child-robot with a 6-DOF arm and a wheel can independently locomote and manipulate. Furthermore, the child-robots have self-reconfiguration capability so that multiple child-robots can construct and reconfigure to diverse configurations. Based on distributed controller and CAN, the structure and functions of the control system are decomposed to different modules with independent controllers. The control flow with distributed computation is introduced. The kinematic and inverse kinematic solutions are both educed. The results of this research are also demonstrated through the simulation and experiments of the prototypes
Keywords :
dexterous manipulators; distributed control; manipulator kinematics; mobile robots; motion control; planetary rovers; remotely operated vehicles; 6-DOF arm; child robot; distributed controller; kinematic analysis; motion control; planetary rover; reconfigurable planetary robot system; system design; Computational modeling; Control systems; Distributed computing; Distributed control; Kinematics; Mobile robots; Motion control; System analysis and design; Virtual prototyping; Wheels; RPRS; inverse kinematic solution; kinematic analysis; modularized control structure;
Conference_Titel :
Intelligent Control and Automation, 2006. WCICA 2006. The Sixth World Congress on
Conference_Location :
Dalian
Print_ISBN :
1-4244-0332-4
DOI :
10.1109/WCICA.2006.1713771
