Title :
A Systematic Procedure for the Elastodynamic Modeling and Identification of Robot Manipulators
Author :
Rognant, Mathieu ; Courteille, Eric ; Maurine, Patrick
Author_Institution :
Lab. de Genie Civil et Genie Mec. EA-3913, Univ. Europeenne de Bretagne, Rennes, France
Abstract :
This paper presents a systematic procedure for the elastodynamic modeling of industrial robots that is applicable to either serial or parallel manipulators. This procedure is based on a 3-D space generalization of the equivalent rigid link system (ERLS) description, the finite-element method (FEM), and the Lagrange principle. It considers flexible links and joints, and leads to generic equations of motion expressed according to the angles of the actuated joints and the independent elastic degrees of freedom. An efficient identification process through modal analysis is detailed, and the description of damping and joint behavior according to the model application is discussed. The method is applied to a 3-D delta-like parallel structure and successfully validated through an experimental impact testing-based modal analysis.
Keywords :
damping; elastodynamics; finite element analysis; flexible manipulators; identification; industrial manipulators; modal analysis; 3-D delta-like parallel structure; 3-D space generalization; Lagrange principle; elastodynamic modeling; equations of motion; equivalent rigid link system; finite element method; flexible joint; flexible link; industrial robot; parallel manipulator; robot manipulator; serial manipulator; Calibration; Equations; Identification; Kinematics; Manipulators; Mathematical model; Calibration and identification; elastodynamic modeling; experimental modal analysis; mechanism design;
Journal_Title :
Robotics, IEEE Transactions on
DOI :
10.1109/TRO.2010.2066910
