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Geometrical method for modeling of asymmetric 6×6 Cartesian stiffness matrix

Shih-Feng Chen, Imin Kao

发表年份
2002
引用次数
15

摘要

In this paper, we study the 6/spl times/6 Cartesian stiffness matrices of conservative systems using the method of changing basis in differential geometry of the motion of the rigid body. We show that the stiffness matrix is symmetric at the unloaded equilibrium configuration. When the system is subjected to external loads, the 6/spl times/6 Cartesian stiffness matrix becomes asymmetric. The skew-symmetric part of the stiffness matrix is equal to the negative one-half of the cross-product matrix formed by the externally applied load, referenced to the inertial frame. This method presented in this paper provides a systematic way of constructing 6/spl times/6 stiffness matrix in robotic grasping/manipulation and stiffness control.

关键词

Direct stiffness methodStiffnessCartesian coordinate systemStiffness matrixSkew-symmetric matrixMatrix (chemical analysis)SkewMathematicsTangent stiffness matrixSymmetric matrix

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