Diagonal Recurrent Neural Network Control for Free-floating Space Flexible Manipulator with Unknown Parameters and External Disturbance

Abstract

The dynamic control problem for free-floating space flexible manipulator with unknown parameters and external disturbance in joint space is discussed.With the assumed modes method,the Lagrangian principle is utilized to model the dynamic function of the space flexible manipulator with completely uncontrolled base.Based on above,a diagonal recurrent neural network is used to approximate the inverse dynamic of space flexible manipulator.A control scheme based on diagonal recurrent neural network is designed to dominate the trajectory tracking of joint motion and damp out the vibration of the flexible link.The control scheme does not specially design active controller for flexible vibration suppression,so requires no measurement and feedback of flexible vibration mode,which greatly simplifies the controller structure.Furthermore,the control scheme not only requires no a priori knowledge about the accurate model and system parameters,but also can overcome the affect of external disturbance.A numerical simulation is carried out to illustrate the validity and feasibility of the proposed control scheme.