Nonlinear H2 control of Sawyer motors

In this paper we propose a nonlinear H2 control to improve transient response in the position control and to reduce energy consumption for the position tracking of Sawyer motors. The proposed method consists of a nonlinear torque modulation with a commutation scheme and gain scheduling LPV controller. The position control problem for the Sawyer motor is reformulated into the LPV system optimal problem. The nonlinear models of the Sawyer motors are analyzed as a LPV system. However, in LPV formulation, each vertex to guarantee the controllability should be chosen because of relationship between tracking motion and yaw motion. Hence, stabilizing the inner-loop system with state feedback controller is designed to solve above problem. The control gain scheduling is determined by using H2 control based on linear matrix inequality (LMI) approach. Since the proposed method is designed based on optimal control with gain scheduling based on LPV synthesis, the proposed method obtains both improved transient response and reduced energy consumption in the position control.

[1]  A. Schaft On a state space approach to nonlinear H ∞ control , 1991 .

[2]  P. Krishnamurthy,et al.  Robust adaptive control of sawyer motors without current measurements , 2004, IEEE/ASME Transactions on Mechatronics.

[3]  Farshad Khorrami,et al.  Closed-loop control of a base XY stage with rotational degree-of-freedom for a high-speed ultra-accurate manufacturing system , 1999, Proceedings 1999 IEEE International Conference on Robotics and Automation (Cat. No.99CH36288C).

[4]  Vicenç Puig,et al.  Gain-scheduled smith proportional-integral derivative controllers for linear parameter varying first-order plus time-varying delay systems , 2011 .

[5]  A. Schaft L/sub 2/-gain analysis of nonlinear systems and nonlinear state-feedback H/sub infinity / control , 1992 .

[6]  Hsin-Jang Shieh,et al.  An Integrator-Backstepping-Based Dynamic Surface Control Method for a Two-Axis Piezoelectric Micropositioning Stage , 2007, IEEE Transactions on Control Systems Technology.

[7]  A. Karimi,et al.  Linear Parameter-Varying Iterative Learning Control With Application to a Linear Motor System , 2010, IEEE/ASME Transactions on Mechatronics.

[8]  J. Hauser,et al.  Nonlinear H ∞ control around periodic orbits , 1997 .

[9]  Igor Cherepinsky,et al.  Control Design and Implementation for Sawyer Motors Used in Manufacturing Systems , 2011, IEEE Transactions on Control Systems Technology.

[10]  Van,et al.  L2-Gain Analysis of Nonlinear Systems and Nonlinear State Feedback H∞ Control , 2004 .

[11]  Chung Choo Chung,et al.  Nonlinear H2 control for position tracking of permanent magnet stepper motors , 2013, 52nd IEEE Conference on Decision and Control.

[12]  Muhammad H. Rashid,et al.  Robust high speed and high precision linear motor direct-drive XY-table motion system , 2004 .

[13]  Jianbin Qiu,et al.  Robust mixed H/sub 2//H αfiltering design for discrete-time switched polytopic linear systems , 2008 .