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An efficient finite element formulation of dynamics for a flexible robot with different type of joints

My, C.A. and Bien, D.X. and Le, C.H. and Packianather, M. (2019) An efficient finite element formulation of dynamics for a flexible robot with different type of joints. Mechanism and Machine Theory, 134. pp. 267-288. ISSN 0094114X

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Abstract

If two adjacent links of a flexible robot are connected via a revolute joint or a fixed prismatic joint, the relative motion of the next link will depend on both the joint motion and the elastic displacement of the distal end of the previous link. However, if the two adjacent links are connected via a sliding prismatic joint, the relative motion of the next link will depend additionally on the elastic deformation distributed along the previous link. Therefore, formulation of the motion equations for a multi-link flexible robot consisting of the revolute joints, the fixed prismatic joints and the sliding prismatic joints is challenging. In this study, the finite element kinematic and dynamic formulation was successfully developed and validated for the flexible robot, in which a transformation matrix is proposed to describe the kinematics of both the joint motion and the link deformation. Additionally, a new recursive formulation of the dynamic equations is introduced. As compared with the previous methods, the time complexity of the formulation is reduced by O(2η), where η is the number of finite elements on all links. The numerical examples and experiments were implemented to validate the proposed kinematic and dynamic modelling method. © 2018 Elsevier Ltd

Item Type: Article
Divisions: Research centers > Advanced Technology Center
Institutes > Institute of Simulation Technology
Identification Number: 10.1016/j.mechmachtheory.2018.12.026
Uncontrolled Keywords: Dynamics; Equations of motion; Flexible manipulators; Kinematics; Linear transformations; Numerical methods; Robots; Dynamic formulation; Elastic displacements; Finite element formulations; Flexible robotic arms; Flexible robots; Multi-link flexible robots; Recursive formulation; Transformation matrices; Finite element method
Additional Information: Language of original document: English. All Open Access, Green.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9366

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