A Study on High Performance Controller Design of Elastic Maniplator

탄성매니퓰레이터의 고성능 제어기 설계에 관한 연구

  • Lee, Ji-U (Dept.of Mechanical Design and Production Engineering, Kyungnam University) ;
  • Han, Seong-Hyeon (Dept.of Mechanical Design and Production Engineering, Kyungnam University) ;
  • Lee, Man-Hyeong (Busan National University)
  • 이지우 (경남대학교 기계설계과) ;
  • 한성현 (경남대학교 기계설계과) ;
  • 이만형 (부산대학교 제어기계공학과 및 기계기술연구소)
  • Published : 1992.09.01

Abstract

An industrial robot, installed real manufacturing processes an element of the system autmation, can be considered as an uncertain system due to dynamic uncertainties in inertial parameters and varying payloads. Most difficuties in controlling a robot manipulator are caused by the fact that the dynamic equations describing the motions of the manipulator are inherently nonlinear and heavily coupled effects between joints and associated links. Existing robot conrol systems have constant predefined gains and do not cover the complex dynamic interactions between manipulator joints. As a result, the manipulator is severly limited in range of application, speed of operation and variation of payload. The proposed controller is operated by adjusting its gains based on the response of the manipulator in such a way that the manipulator closely matches the reference model trajectories defined by the desinger. The proposed manipulator studied has two loops, an inner loop of model reference adaptive controller and an outer loop of state feedback controller with integral action to guarantee the stability of the adaptive scheme. This adaptation algorithm is based on the hyperstailiy approach with an improved Lyapunov function. The coupling among joints and the nonlinearity in the dynamic equation are explicitly considered. The designed manipulator controller shows good tracking performance in practical working environment, various load variations and parameter uncertainties.

Keywords