Forward displacement analysis of a new 1CCC-5SPS parallel mechanism using Gröbner theory

Dongming Gan; Q. Liao; J. S. Dai; S. Wei; L. D. Seneviratne

doi:10.1243/09544062JMES1185

Forward displacement analysis of a new 1CCC-5SPS parallel mechanism using Gröbner theory

Dongming Gan
, Q. Liao
, J. S. Dai
, S. Wei
, L. D. Seneviratne

Mechanical & Nuclear Engineering

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

A new parallel mechanism 1CCC-5SPS which has distance and angle constraints is introduced in this article. Degree of freedom and forward kinematic analysis of this new parallel mechanism are presented, in which four equivalent polynomial equations are obtained from the original six geometrical constraint equations. The Gröbner basis theory is used with the four equations and the problem of forward displacement is reduced to a 40th degree polynomial equation in a single unknown from a constructed 10 × 10 Sylvester's matrix which is small in size, from which 40 different locations of the moving platform can be derived. A numerical example confirms the efficiency of the procedure.

Original language	British English
Pages (from-to)	1233-1241
Number of pages	9
Journal	Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
Volume	223
Issue number	5
DOIs	https://doi.org/10.1243/09544062JMES1185
State	Published - 1 May 2009

Keywords

Angle constraint
Forward displacement analysis
General Stewart mechanism
Gröbner basis

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title = "Forward displacement analysis of a new 1CCC-5SPS parallel mechanism using Gr{\"o}bner theory",

abstract = "A new parallel mechanism 1CCC-5SPS which has distance and angle constraints is introduced in this article. Degree of freedom and forward kinematic analysis of this new parallel mechanism are presented, in which four equivalent polynomial equations are obtained from the original six geometrical constraint equations. The Gr{\"o}bner basis theory is used with the four equations and the problem of forward displacement is reduced to a 40th degree polynomial equation in a single unknown from a constructed 10 × 10 Sylvester's matrix which is small in size, from which 40 different locations of the moving platform can be derived. A numerical example confirms the efficiency of the procedure.",

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AU - Liao, Q.

AU - Dai, J. S.

AU - Wei, S.

AU - Seneviratne, L. D.

PY - 2009/5/1

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N2 - A new parallel mechanism 1CCC-5SPS which has distance and angle constraints is introduced in this article. Degree of freedom and forward kinematic analysis of this new parallel mechanism are presented, in which four equivalent polynomial equations are obtained from the original six geometrical constraint equations. The Gröbner basis theory is used with the four equations and the problem of forward displacement is reduced to a 40th degree polynomial equation in a single unknown from a constructed 10 × 10 Sylvester's matrix which is small in size, from which 40 different locations of the moving platform can be derived. A numerical example confirms the efficiency of the procedure.

AB - A new parallel mechanism 1CCC-5SPS which has distance and angle constraints is introduced in this article. Degree of freedom and forward kinematic analysis of this new parallel mechanism are presented, in which four equivalent polynomial equations are obtained from the original six geometrical constraint equations. The Gröbner basis theory is used with the four equations and the problem of forward displacement is reduced to a 40th degree polynomial equation in a single unknown from a constructed 10 × 10 Sylvester's matrix which is small in size, from which 40 different locations of the moving platform can be derived. A numerical example confirms the efficiency of the procedure.

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KW - General Stewart mechanism

KW - Gröbner basis

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Forward displacement analysis of a new 1CCC-5SPS parallel mechanism using Gröbner theory

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