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MANIPULATION

Closed‐loop inverse kinematics algorithm for constrained flexible manipulators under gravity

Bruno Siciliano

Year
1999
Citations
5

Abstract

This work deals with the inverse kinematics problem for a flexible robot manipulator under gravity in contact with a stiff surface. This problem consists of finding the joint and deflection variables for a given tip position and constraint force. The solution algorithm is based on the well-known closed-loop inverse kinematics (CLIK) scheme, using the Jacobian transpose, developed for rigid manipulators. The Jacobian employed in the algorithm is obtained by correcting the equivalent rigid manipulator Jacobian with two terms that account for the static deflections due to gravity and contact force, respectively. The algorithm is tested in a number of case studies on a planar two-link arm. ©1999 John Wiley & Sons, Inc.

Keywords

Jacobian matrix and determinantInverse kinematicsKinematicsTransposeControl theory (sociology)Position (finance)InverseKinematics equationsPlanarConstraint (computer-aided design)

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