Title :
Feedback-Type MWVN Scheme and Its Acceleration-Level Equivalent Scheme Proved by Zhang Dynamics
Author :
Yunong Zhang ; Weibing Li ; Dongsheng Guo ; Zhijun Zhang ; Senbo Fu
Author_Institution :
Sch. of Inf. Sci. & Technol., Sun Yat-sen Univ., Guangzhou, China
Abstract :
Two quadratic programming (QP) based schemes aided with weighting matrices and error feedback, namely the feedback-type minimum-weighted-velocity-norm (FTMWVN) scheme and its acceleration-level scheme, are proposed in this paper for solving the redundancy-resolution (or say, inverse-kinematics) problem. Then, the equivalence between the velocity-level FTMWVN scheme and the acceleration-level scheme is proved via Zhang dynamics (ZD) method. Computer simulations performed on a PA10 redundant robot manipulator further demonstrate the efficacy of such two schemes. More importantly, simulation results show that the solutions of the two schemes fit well with each other (including their joint angles and joint velocities), i.e., the two different-level schemes can be equivalent in terms of their physical effects.
Keywords :
manipulator kinematics; quadratic programming; PA10 redundant robot manipulator; QP based schemes; Zhang dynamics method; acceleration-level equivalent scheme; acceleration-level scheme; computer simulations; error feedback; feedback-type MWVN scheme; feedback-type minimum-weighted-velocity-norm; inverse-kinematics; quadratic programming; redundancy-resolution problem; velocity-level FTMWVN scheme; weighting matrices; Acceleration; Joints; Manipulators; Redundancy; Trajectory; Vectors; Zhang dynamics; acceleration-level scheme; equivalence; redundancy resolution; velocity-level FTMWVN scheme;
Conference_Titel :
Control Engineering and Communication Technology (ICCECT), 2012 International Conference on
Conference_Location :
Liaoning
Print_ISBN :
978-1-4673-4499-9
DOI :
10.1109/ICCECT.2012.81
