The kinematics of manipulators is a central problem in the automatic control of robot manipulators. Theoretical background for the analysis of the 5 Dof Lynx-6 educational Robot Arm kinematics is presented in this paper. The kinematics problem is defined as the transformation from the Cartesian space to the joint space and vice versa. The Denavit-Harbenterg (D-H) model of representation is used to model robot links and joints in this study. Both forward and inverse kinematics solutions for this educational manipulator are presented, An effective method is suggested to decrease multiple solutions in inverse kinematics. A visual software package, named MSG, is also developed for testing Motional Characteristics of the Lynx-6 Robot arm. The kinematics solutions of the software package were found to be identical with the robot arm-s physical motional behaviors.
Software Development for the Kinematic Analysis of a Lynx 6 Robot Arm
2007-06-23
oai:zenodo.org:1075392
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Lynx 6 , robot arm , forward kinematics , inverse kinematics , software , DH parameters , 5 DOF , SSC-32 , simulator
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