Unified motion reliability analysis and comparison study of planar parallel manipulators with interval joint clearance variables

•A unified kinematic analysis method for PPMs with manufacturing tolerances, input errors and joint clearances is developed.•A unified motion reliability analysis method for PPMs with interval joint clearance variables is presented.•3RRR and 3PRR PPMs are studied to demonstrate the effectiveness of...

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Published in:Mechanism and machine theory Vol. 138; pp. 58 - 75
Main Authors: Zhan, Zhenhui, Zhang, Xianmin, Zhang, Haodong, Chen, Gengchao
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.08.2019
Subjects:
Condition number
Joint clearances
Motion reliability
Planar parallel manipulator
Uncertainties
Motion reliability
Condition number
Planar parallel manipulator
Uncertainties
Joint clearances
ISSN:0094-114X, 1873-3999
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Abstract •A unified kinematic analysis method for PPMs with manufacturing tolerances, input errors and joint clearances is developed.•A unified motion reliability analysis method for PPMs with interval joint clearance variables is presented.•3RRR and 3PRR PPMs are studied to demonstrate the effectiveness of the two methods.•The LCI and motion reliability of 3RRR and 3PRR PPMs are compared. Motion reliability is a significant performance index for manipulators with uncertainties. This paper presents a unified motion reliability analysis method for general planar parallel manipulators (PPMs) with interval clearance variables of revolute and prismatic joints. The uncertainties of manufacturing and inputs are also considered and assumed to follow normal distributions. Two typical types of PPMs, 3RRR PPM and 3PRR PPM, are analyzed as examples to demonstrate the effectiveness of the method. For the purpose of a relatively fair comparison, the two PPMs are designed to have the same sizes of base platforms and moving platforms by using a traditional kinematic optimization based on the global conditioning index (GCI). Then, the comparison studies of the two PPMs are made with respect to performance indices of GCI, LCI (local conditioning index) and motion reliability. Furthermore, the index comparison between LCI and motion reliability is also carried out in detail through the two PPMs. The numerical analysis results indicate that: (i) the presented method could achieve a higher confidence estimate compared with the traditional probability method; (ii) the 3PRR PPM exhibits better motion reliability performance than the 3RRR PPM at the same uncertainty levels; and (iii) the traditional optimization based on the GCI cannot guarantee the good motion reliability performance of the PPM. This study provides support for the design and control of PPMs in terms of accuracy and motion reliability.
AbstractList •A unified kinematic analysis method for PPMs with manufacturing tolerances, input errors and joint clearances is developed.•A unified motion reliability analysis method for PPMs with interval joint clearance variables is presented.•3RRR and 3PRR PPMs are studied to demonstrate the effectiveness of the two methods.•The LCI and motion reliability of 3RRR and 3PRR PPMs are compared. Motion reliability is a significant performance index for manipulators with uncertainties. This paper presents a unified motion reliability analysis method for general planar parallel manipulators (PPMs) with interval clearance variables of revolute and prismatic joints. The uncertainties of manufacturing and inputs are also considered and assumed to follow normal distributions. Two typical types of PPMs, 3RRR PPM and 3PRR PPM, are analyzed as examples to demonstrate the effectiveness of the method. For the purpose of a relatively fair comparison, the two PPMs are designed to have the same sizes of base platforms and moving platforms by using a traditional kinematic optimization based on the global conditioning index (GCI). Then, the comparison studies of the two PPMs are made with respect to performance indices of GCI, LCI (local conditioning index) and motion reliability. Furthermore, the index comparison between LCI and motion reliability is also carried out in detail through the two PPMs. The numerical analysis results indicate that: (i) the presented method could achieve a higher confidence estimate compared with the traditional probability method; (ii) the 3PRR PPM exhibits better motion reliability performance than the 3RRR PPM at the same uncertainty levels; and (iii) the traditional optimization based on the GCI cannot guarantee the good motion reliability performance of the PPM. This study provides support for the design and control of PPMs in terms of accuracy and motion reliability.
Author Zhan, Zhenhui
Chen, Gengchao
Zhang, Xianmin
Zhang, Haodong
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Keywords Motion reliability
Condition number
Planar parallel manipulator
Uncertainties
Joint clearances
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  article-title: Singularity and path-planning with the working mode conversion of a 3-DOF 3-RRR planar parallel manipulator
  publication-title: Mech. Mach. Theory
  doi: 10.1016/j.mechmachtheory.2016.09.004
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  year: 2014
  ident: 10.1016/j.mechmachtheory.2019.03.041_bib0010
  article-title: Time-dependent mechanism reliability analysis with envelope functions and first-order approximation
  publication-title: J. Mech. Des.
  doi: 10.1115/1.4027636
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Snippet •A unified kinematic analysis method for PPMs with manufacturing tolerances, input errors and joint clearances is developed.•A unified motion reliability...
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Publisher
StartPage 58
SubjectTerms Condition number
Joint clearances
Motion reliability
Planar parallel manipulator
Uncertainties
Title Unified motion reliability analysis and comparison study of planar parallel manipulators with interval joint clearance variables
URI https://dx.doi.org/10.1016/j.mechmachtheory.2019.03.041
Volume 138
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