Title :
NPID and Adaptive Approximation Control of Motion Systems With Friction
Author :
Naso, David ; Cupertino, Francesco ; Turchiano, Biagio
Author_Institution :
Dipt. di Elettrotec. ed Elettron., Politec. di Bari, Bari, Italy
Abstract :
This paper proposes a scheme for precise position control of a mechatronic servo system based on linear synchronous motors. The control is based on gain-scheduled proportional integral derivatives (PIDs) (known as NPID in related literature) and adaptive approximation of uncertainties. NPID and adaptive approximation are combined in a constructive way to inherit advantages and overcome limitations of the single methods. In particular, NPID is used to stabilize the nominal plant, and its gains are scheduled so as to minimize the effects of friction and other uncertainties. Adaptive approximation is used to compensate further effects of nonlinearities and obtain a better overall tracking accuracy. A report on an extensive experimental investigation is provided to illustrate the practical advantages of the proposed scheme.
Keywords :
adaptive control; friction; linear motors; machine control; mechatronics; position control; servomechanisms; stability; synchronous motors; three-term control; NPID; adaptive approximation control; friction; gain scheduled proportional integral derivatives; linear synchronous motors; mechatronic servo system; motion systems; nominal plant stability; precise position control; Approximation methods; Friction; Servomotors; Switches; Uncertainty; Vectors; Adaptive feedback linearization; linear synchronous motors (LSMs); precision motion control; proportional integral derivative (PID);
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2011.2106128
