Title :
A control algorithm of general 6R mechanic arm based on inverse kinematics
Author :
Qu, Baida ; Xu, Baoguo
Author_Institution :
Sch. of IOT Eng., Jiangnan Univ., Wuxi, China
Abstract :
A control algorithm for solving the problem of general 6-DOF serial mechanic arm was proposed, based on inverse kinematics, by applying pseudo-inverse of Jacobian matrix for solving differential movement and using Newton-Raphson iteration to approximate target position. Jacobian matrix was modeled according to forward kinematics, using SVD decomposition of Householder to avoid the singularity problem. There was a good and fast local convergence, as also as achieving higher precision and the ideal speed. The algorithm was realized on an ARM9-based embedded system. The corresponding tests show that the algorithm is real-time enough to meet system requirements; it can be applied to real-time mechanic arm control system.
Keywords :
Jacobian matrices; Newton-Raphson method; convergence of numerical methods; dexterous manipulators; embedded systems; manipulator kinematics; motion control; real-time systems; singular value decomposition; ARM9 based embedded system; Jacobian matrix pseudoinverse; Newton-Raphson iteration; SVD decomposition; differential movement; general 6R mechanic arm; inverse kinematics; singularity problem; system requirement; Algorithm; differential motion; inverse kinematics; mechanic arm; motion control;
Conference_Titel :
Computer Science and Automation Engineering (CSAE), 2011 IEEE International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-8727-1
DOI :
10.1109/CSAE.2011.5953232
