A novel motion synthesis approach with expandable solution space for planar linkages based on kinematic-mapping

Burmester theory states that up to 4 exact solutions can be found for dyad synthesis problem with five prescribed poses. Many cases have shown that five given poses could result in no exact solution. For more than five poses, what designers obtained are usually mathematically optimal approximated so...

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Published inMechanism and machine theory Vol. 105; pp. 164 - 175
Main Authors Zhao, Ping, Li, Xiangyun, Zhu, Lihong, Zi, Bin, Ge, Q.J.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2016
Subjects
Expandable solution space
Kinematic mapping
Motion synthesis
Rehabilitation mechanism
Kinematic mapping
Expandable solution space
Motion synthesis
Rehabilitation mechanism
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Abstract Burmester theory states that up to 4 exact solutions can be found for dyad synthesis problem with five prescribed poses. Many cases have shown that five given poses could result in no exact solution. For more than five poses, what designers obtained are usually mathematically optimal approximated solution, which might not be suitable under practical conditions. In those situations, designers usually want to gradually lower the accuracy requirement so as to bring more approximated solution into consideration. This paper proposed an N-pose motion synthesis approach with expandable solution space for planar linkages. Based on kinematic mapping theory, the optimal joint type and linkage dimensions for planar dyads can be simultaneously obtained. The proposed work mainly focused on the situation that no exact solution exists for five given poses, or that mathematical optimal solution cannot satisfy practical requirements. In those two cases, our approach showed that the solution space can be expanded by introducing or gradually increasing error tolerance, and hereby we could obtain more approximate solutions to determine the best-suited dyads subject to various practical constraints. Finally, four-bar linkages or parallel linkage systems can be constructed to approximate the N-pose given motion and satisfy practical constraints as well. •A motion synthesis approach with expandable solution space for planar linkages•The optimal joint type and linkage dimensions can be simultaneously obtained.•The solution space can be expanded by gradually increasing error tolerance.•Various practical constraints can be satisfied along with the motion synthesis.
AbstractList Burmester theory states that up to 4 exact solutions can be found for dyad synthesis problem with five prescribed poses. Many cases have shown that five given poses could result in no exact solution. For more than five poses, what designers obtained are usually mathematically optimal approximated solution, which might not be suitable under practical conditions. In those situations, designers usually want to gradually lower the accuracy requirement so as to bring more approximated solution into consideration. This paper proposed an N-pose motion synthesis approach with expandable solution space for planar linkages. Based on kinematic mapping theory, the optimal joint type and linkage dimensions for planar dyads can be simultaneously obtained. The proposed work mainly focused on the situation that no exact solution exists for five given poses, or that mathematical optimal solution cannot satisfy practical requirements. In those two cases, our approach showed that the solution space can be expanded by introducing or gradually increasing error tolerance, and hereby we could obtain more approximate solutions to determine the best-suited dyads subject to various practical constraints. Finally, four-bar linkages or parallel linkage systems can be constructed to approximate the N-pose given motion and satisfy practical constraints as well. •A motion synthesis approach with expandable solution space for planar linkages•The optimal joint type and linkage dimensions can be simultaneously obtained.•The solution space can be expanded by gradually increasing error tolerance.•Various practical constraints can be satisfied along with the motion synthesis.
Author Zhao, Ping
Li, Xiangyun
Ge, Q.J.
Zi, Bin
Zhu, Lihong
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Keywords Kinematic mapping
Expandable solution space
Motion synthesis
Rehabilitation mechanism
Language English
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Snippet Burmester theory states that up to 4 exact solutions can be found for dyad synthesis problem with five prescribed poses. Many cases have shown that five given...
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StartPage 164
SubjectTerms Expandable solution space
Kinematic mapping
Motion synthesis
Rehabilitation mechanism
Title A novel motion synthesis approach with expandable solution space for planar linkages based on kinematic-mapping
URI https://dx.doi.org/10.1016/j.mechmachtheory.2016.06.021
Volume 105
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