Neural network solution for the forward kinematics problem of a redundant hydraulic shoulder

Abstract

In this paper, a neural network based solution for forward kinematics analysis of a hydraulic shoulder is presented. The shoulder has three degrees of freedom rotational motion produced by four hydraulic cylinders which makes it a redundant parallel robotic shoulder. Unlike the serial robots, forward kinematics problem of parallel robots is not easily solved because of the nonlinearity and complexity of the parallel robot's kinematic equations and there are several solutions which are almost impossible to be found analytically. The neural network used in this paper is of the feedforward net type and a multi-layer back propagation procedure is utilized to train the network. A simulation study is performed using two types of trajectories to illustrate the advantages of the proposed method in solving the forward kinematics problem of the redundant mechanism. The results show the method provides a fast solution and good tracking performance.