Litcius/Paper detail

Exploiting Redundancies for Workspace Enlargement and Joint Trajectory Optimization of a Kinematically Redundant Hybrid Parallel Robot

Kefei Wen, Clément Gosselin

2021Journal of Mechanisms and Robotics19 citationsDOI

Abstract

Abstract In this paper, possibilities for workspace enlargement and joint trajectory optimization of a (6 + 3)-degree-of-freedom kinematically redundant hybrid parallel robot are investigated. The inverse kinematic problem of the robot can be solved analytically, which is a desirable property of redundant robots, and is implemented in the investigations. A new method for detecting mechanical interferences between two links which are not directly connected is proposed for evaluating the workspace. Redundant degrees-of-freedom are optimized in order to further expand the workspace. An approach for determining the desired redundant joint coordinates is developed so that a performance index can be minimized approximately when the robot is following a prescribed Cartesian trajectory. The presented approaches are readily applicable to other kinematically redundant hybrid parallel robots proposed by the authors.

Topics & Concepts

WorkspaceCartesian coordinate systemRobotKinematicsTrajectoryInverse kinematicsControl theory (sociology)Computer scienceRobot kinematicsParallel manipulatorRedundancy (engineering)Cartesian coordinate robotDegrees of freedom (physics and chemistry)Property (philosophy)Control engineeringMathematicsEngineeringArtificial intelligenceMobile robotPhysicsGeometryQuantum mechanicsPhilosophyControl (management)AstronomyEpistemologyOperating systemClassical mechanicsRobotic Mechanisms and DynamicsManufacturing Process and OptimizationIterative Learning Control Systems