Inverse kinematic control of free-floating space robot system based on a mutual mapping neural network

Author

Huang, Dengfeng ; Chen, Li

Author_Institution

Coll. of Mech. Eng., Fuzhou Univ., Fuzhou

fYear

2008

fDate

25-27 June 2008

Firstpage

8666

Lastpage

8670

Abstract

The inverse kinematic control based on mutual mapping neural network of free-floating dual-arm space robot system without the basepsilas control is discussed. With the geometrical relation and the linear, angular momentum conservation of the system, the generalized Jacobian matrix is obtained. Based on the above result, a mutual mapping neural network control scheme employing Lyapunov functions is designed to control the end-effectors to track the desired trajectory in workspace. The control scheme does not require the inverse of the Jacobian matrix. A planar dual-arm space robot system is simulated to verify the proposed control scheme.

Keywords

Jacobian matrices; Lyapunov methods; aerospace robotics; end effectors; manipulator kinematics; neurocontrollers; position control; Lyapunov functions; angular momentum conservation; end-effectors; free-floating dual-arm space robot system; generalized Jacobian matrix; inverse kinematic control; mutual mapping neural network control scheme; Control systems; Educational institutions; Jacobian matrices; Kinematics; Lyapunov method; Manipulators; Mechanical engineering; Neural networks; Orbital robotics; Robotics and automation; Free-floating dual-arm space robot system; Inverse kinematic control; Mutual mapping neural network;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Control and Automation, 2008. WCICA 2008. 7th World Congress on

Conference_Location

Chongqing

Print_ISBN

978-1-4244-2113-8

Electronic_ISBN

978-1-4244-2114-5

Type

conf

DOI

10.1109/WCICA.2008.4594293

Filename

4594293