Title :
Stable grasp planning by evolutionary programming
Author :
Katada, Yoshiaki ; Svinin, Mikhail ; Ohkura, Kazuhiro ; Ueda, Kanji
Author_Institution :
Dept. of Mech. Eng., Kobe Univ., Japan
fDate :
8/1/2001 12:00:00 AM
Abstract :
This paper deals with the problem of synthesis of stable grasp by multifingered hands. First, a mathematical description of the problem is formulated. The grasp to be synthesized should satisfy equilibrium conditions and unilateral frictional constraints. In addition, it should be stable against disturbances applied to the object. Two types of stability conditions, contact stability and Lyapunov stability, are taken into consideration. Contact points, contact forces and joint stiffnesses are considered as the problem variables. The objective function maximizes admissible linear and rotational disturbances applied to the object, Since the dimension and the complexity of the resulting constrained optimization problem is high enough, the evolutionary programming (EP) approach is explored. Two EP techniques, a conventional one and a specially designed robust technique with a genetic drift, are discussed. The feasibility of these techniques is verified for the synthesis of stable grasp by a three-fingered robotic hand
Keywords :
control system synthesis; dexterous manipulators; evolutionary computation; motion control; planning; stability; Lyapunov stability; constrained optimization problem; contact forces; contact points; contact stability; control design; equilibrium conditions; evolutionary programming; genetic drift; joint stiffnesses; multifingered hands; objective function; problem variables; stable grasp planning; three-fingered robotic hand; unilateral frictional constraints; Constraint optimization; Fingers; Genetic programming; Grasping; Helium; Humans; Lyapunov method; Robot programming; Robustness; Stability;
Journal_Title :
Industrial Electronics, IEEE Transactions on
