Title :
Geometrical method for modeling of asymmetric 6×6 Cartesian stiffness matrix
Author :
Chen, Shih-feng ; Kao, Imin
Author_Institution :
Dept. of Mech. Eng., Lunghwa Inst. of Technol., Taoyuan, Taiwan
Abstract :
In this paper, we study the 6×6 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 6×6 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 6×6 stiffness matrix in robotic grasping/manipulation and stiffness control
Keywords :
differential geometry; matrix algebra; robot dynamics; asymmetric 6×6 Cartesian stiffness matrix; cross-product matrix; differential geometry; external loads; rigid body; robotic grasping; robotic manipulation; skew-symmetric part; stiffness control; stiffness matrix symmetry; unloaded equilibrium configuration; Control systems; Equations; Geometry; Impedance; Jacobian matrices; Mechanical engineering; Orbital robotics; Solid modeling; Symmetric matrices; Transmission line matrix methods;
Conference_Titel :
Intelligent Robots and Systems, 2000. (IROS 2000). Proceedings. 2000 IEEE/RSJ International Conference on
Conference_Location :
Takamatsu
Print_ISBN :
0-7803-6348-5
DOI :
10.1109/IROS.2000.893185
