Title :
An iterative learning control method with application for CNC machine tools
Author :
Kim, Dong-II ; Kim, Sungkwun
Author_Institution :
FA Res. Inst., Samsung Electron., Kyungki-Do, South Korea
Abstract :
A proportional, integral, and derivative (PID) type iterative learning controller is proposed for precise tracking control of industrial robots and computer numerical controller (CNC) machine tools performing repetitive tasks. The convergence of the output error by the proposed learning controller is guaranteed under a certain condition even when the system parameters are not known exactly and unknown external disturbances exist. As the proposed learning controller is repeatedly applied to the industrial robot or the CNC machine tool with the path-dependent repetitive task, the distance difference between the desired path and the actual tracked or machined path, which is one of the most significant factors in the evaluation of control performance, is progressively reduced. The experimental results demonstrate that the proposed learning controller can improve machining accuracy when the CNC machine tool performs repetitive machining tasks
Keywords :
computerised numerical control; control system analysis; control system synthesis; industrial robots; iterative methods; learning systems; machine tools; machining; numerical control; robots; three-term control; CNC machine tools; PID iterative learning controller; distance difference; industrial robot; output error convergence; path-dependent repetitive task; precise tracking control; repetitive machining tasks; Computer numerical control; Electrical equipment industry; Industrial control; Iterative methods; Machine learning; Machine tools; PD control; Pi control; Proportional control; Service robots;
Journal_Title :
Industry Applications, IEEE Transactions on
