Geometry and Kinematic Analysis of a Redundantly Actuated Parallel Mechanism That Eliminates Singularities and Improves Dexterity-Reference-Cited by-同舟云学术

Geometry and Kinematic Analysis of a Redundantly Actuated Parallel Mechanism That Eliminates Singularities and Improves Dexterity

Published:2008-10-08 Issue:12 Volume:130 Page:
ISSN:1050-0472
Container-title:Journal of Mechanical Design
language:en
Short-container-title:

Author:

Saglia Jody A.¹,Dai Jian S.¹,Caldwell Darwin G.²

Affiliation:

1. Department of Mechanical Engineering, King’s College London, University of London, WC2R 2LS, England, UK; Italian Institute of Technology, Via Morego 30, Genova 16163, Italy

2. Italian Institute of Technology, Via Morego 30, Genova 16163, Italy

Abstract

This paper investigates the behavior of a type of parallel mechanisms with a central strut. The mechanism is of lower mobility, redundantly actuated, and used for sprained ankle rehabilitation. Singularity and dexterity are investigated for this type of parallel mechanisms based on the Jacobian matrix in terms of rank deficiency and condition number, throughout the workspace. The nonredundant cases with three and two limbs are compared with the redundantly actuated case with three limbs. The analysis demonstrates the advantage of introducing the actuation redundancy to eliminate singularities and to improve dexterity and justifies the choice of the presented mechanism for ankle rehabilitation.

Publisher

ASME International

Subject

Computer Graphics and Computer-Aided Design,Computer Science Applications,Mechanical Engineering,Mechanics of Materials

Link

http://asmedigitalcollection.asme.org/mechanicaldesign/article-pdf/doi/10.1115/1.2988472/5923866/124501_1.pdf

Reference17 articles.

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2. An Equilateral Ankle Rehabilitation Device Based on Parallel Mechanisms;Dai

3. A Novel Reconfigurable Ankle/Foot Rehabilitation Robot;Yoon

4. Design and Kinematics Analysis of Parallel Robots for Ankle Rehabilitation;Liu

5. Sprained Ankle Physiotherapy Based Mechanism Synthesis and Stiffness Analysis of a Robotic Rehabilitation Device;Dai;Auton. Rob.

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