Paper Info
Title
Acceleration-level Z2G0 controller for redundant manipulator end-effector tracking
Abstract
The forward kinematics for robotic manipulators has a mathematically analytical form, while the inverse-kinematics problem is mathematically complicated. There are many methods to solve the inverse-kinematics problem; such as the conventional pseudo-inverse based method, which is general but has some problems and limitations. Therefore, it is worth investigating the solution of the inverse-kinematics problem using dynamic methods. Based on previous researches, the dynamic methods consist of Zhang dynamics (ZD) and gradient dynamics (GD). In this paper, by using ZD twice and not using GD, a controller named Z2G0 is investigated for resolving the redundancy of robot manipulators. As one typical application of ZD, the Z2G0 controller is developed at the joint-acceleration level. Furthermore, simulations based on four-link and six-link redundant manipulators are performed to substantiate the feasibility and effectiveness of the developed Z2G0 controller.
Year
DOI
Venue
2014
10.1109/FSKD.2014.6980951
FSKD
Keywords
DocType
Citations 
gd,forward kinematics problem,six-link redundant manipulators,inverse kinematics,zhang dynamics,end-effector tracking,pseudoinverse based method,zd,end effectors,robot manipulator redundancy,redundant manipulators,four-link redundant manipulators,dynamic methods,path planning,acceleration control,redundant manipulator end-effector tracking,inverse-kinematics problem,zhang dynamics (zd),acceleration-level z2g0 controller,gradient dynamics,trajectory,acceleration,kinematics
Conference
0
PageRank 
References 
Authors
0.34
2
5
Name
Order
Citations
PageRank
Jiawei Luo100.34
Xiaotian Yu211.40
Yonghua Yin3697.58
Hong-Zhou Tan419633.88
Yunong Zhang52344162.43