Title :
Hybrid position/force control of constrained robot manipulator based on a feedforward neural network
Author :
Tian, Lianfang ; Wang, Jun ; Mao, Zongyuan
Author_Institution :
Dept. of Mech. Eng., California Univ., Riverside, CA, USA
Abstract :
In this paper, the control of constrained robotic manipulators is addressed and the solution of a reduced order model is obtained through a nonlinear transformation. A set of differential-algebraic equations are first derived. Then controllers are designed for position and force control. The position control involves the position and velocity feedback of end-effector, while the force control is developed based on an artificial neural network. The weights of the neural network are updated online using the force error as the objective function. An example of a 2-DOF manipulator system is studied in detail. Comparisons between a conventional PID controller and the designed controller are made and a practical application is carried out. The results demonstrate the effective performance of the system.
Keywords :
differential equations; feedback; feedforward neural nets; force control; manipulator dynamics; neurocontrollers; position control; velocity control; constrained dynamic models; constrained robot manipulator; differential-algebraic equations; feedforward neural network; force control; position control; reduced order model; velocity feedback; Artificial neural networks; Differential equations; Feedforward neural networks; Force control; Manipulators; Neural networks; Nonlinear equations; Position control; Reduced order systems; Robot control;
Conference_Titel :
Industrial Technology, 2002. IEEE ICIT '02. 2002 IEEE International Conference on
Print_ISBN :
0-7803-7657-9
DOI :
10.1109/ICIT.2002.1189924
