This paper describes the application of a closed-loop inverse kinematics algorithm to kinematic control of a robot manipulator, The scheme is formulated at the second-order level, i.e., in terms of velocity and acceleration variables, so as to allow the use of joint space computed torque control. A damped least-squares inverse of the Jacobian is used to ensure feasible joint motion in the neighborhood of kinematic singularities, The theoretical analysis of algorithm convergence is performed on the basis of a Lyapunov argument. The results of experiments on a six-joint industrial robot with open control architecture are presented.
Second-order kinematic control of robot manipulators with Jacobian damped least squares inverse: Theory and experiments / F., C., S., C., Siciliano, B.. - In: IEEE/ASME TRANSACTIONS ON MECHATRONICS. - ISSN 1083-4435. - STAMPA. - 2:(1997), pp. 188-194. [10.1109/3516.622971]
Second-order kinematic control of robot manipulators with Jacobian damped least squares inverse: Theory and experiments
SICILIANO, BRUNO
1997
Abstract
This paper describes the application of a closed-loop inverse kinematics algorithm to kinematic control of a robot manipulator, The scheme is formulated at the second-order level, i.e., in terms of velocity and acceleration variables, so as to allow the use of joint space computed torque control. A damped least-squares inverse of the Jacobian is used to ensure feasible joint motion in the neighborhood of kinematic singularities, The theoretical analysis of algorithm convergence is performed on the basis of a Lyapunov argument. The results of experiments on a six-joint industrial robot with open control architecture are presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.


