Study of Reliable Control Via an Integral-Type Sliding Mode Control Scheme

This paper studies the active reliable control issues for a class of second-order nonlinear uncertain systems using an integral-type sliding mode control (ISMC) strategy. The proposed ISMC reliable scheme is shown to be able to tolerate some of the actuators' faults whenever the fault detection and diagnosis information is available. The presented scheme also maintains the main advantages of the ISMC designs, including robustness, rapid response, and ease of implementation. When the uncertainties and the output of the faulty actuators are matched regarding the nominal healthy subsystem, the state trajectories of the nominal healthy subsystem and the uncertain faulty system are identical. As a result, the engineers may adopt an optimal strategy for the nominal system, creating a desired trajectory for that of the uncertain faulty system to follow. Simulation results demonstrate the benefits of the proposed scheme.

[1]  Mathukumalli Vidyasagar,et al.  Reliable stabilization using a multi-controller configuration , 1983 .

[2]  Jianliang Wang,et al.  Reliable guaranteed cost control for uncertain nonlinear systems , 2000, IEEE Trans. Autom. Control..

[3]  Jian-Xin Xu,et al.  Nonlinear integral-type sliding surface for both matched and unmatched uncertain systems , 2004, IEEE Transactions on Automatic Control.

[4]  Luis Romeral,et al.  Motor Fault Detection Using a Rogowski Sensor Without an Integrator , 2009, IEEE Transactions on Industrial Electronics.

[5]  Mihai Comanescu,et al.  Decoupled Current Control of Sensorless Induction-Motor Drives by Integral Sliding Mode , 2008, IEEE Transactions on Industrial Electronics.

[6]  Yew-Wen Liang,et al.  T–S Model-Based SMC Reliable Design for a Class of Nonlinear Control Systems , 2009, IEEE Transactions on Industrial Electronics.

[7]  Jianliang Wang,et al.  Reliable robust flight tracking control: an LMI approach , 2002, IEEE Trans. Control. Syst. Technol..

[8]  M. Azizur Rahman,et al.  Development and Implementation of a Novel Fault Diagnostic and Protection Technique for IPM Motor Drives , 2009, IEEE Transactions on Industrial Electronics.

[9]  Der-Cherng Liaw,et al.  Reliable control of nonlinear systems , 2000, IEEE Trans. Autom. Control..

[10]  William R. Perkins,et al.  Design of reliable control systems , 1992 .

[11]  Mihai Comanescu An Induction-Motor Speed Estimator Based on Integral Sliding-Mode Current Control , 2009, IEEE Transactions on Industrial Electronics.

[12]  Thierry Meynard,et al.  Survey on Fault Operation on Multilevel Inverters , 2010, IEEE Transactions on Industrial Electronics.

[13]  Maria Letizia Corradini,et al.  Actuator Failure Identification and Compensation Through Sliding Modes , 2007, IEEE Transactions on Control Systems Technology.

[14]  Jie Huang,et al.  Numerical approach to computing nonlinear H-infinity control laws , 1995 .

[15]  John D. Lowrance,et al.  Multiple-target tracking in dense noisy environments: a probabilistic mapping perspective , 2000, SPIE Defense + Commercial Sensing.

[16]  Yew-Wen Liang,et al.  Study of VSC Reliable Designs With Application to Spacecraft Attitude Stabilization , 2007, IEEE Transactions on Control Systems Technology.

[17]  Vadim I. Utkin,et al.  Sliding Modes in Control and Optimization , 1992, Communications and Control Engineering Series.

[18]  Michèle Basseville,et al.  On-board Component Fault Detection and Isolation Using the Statistical Local Approach , 1998, Autom..

[19]  Inseok Hwang,et al.  A Survey of Fault Detection, Isolation, and Reconfiguration Methods , 2010, IEEE Transactions on Control Systems Technology.

[20]  Yew-Wen Liang,et al.  Reliable Control of Nonlinear Systems via Variable Structure Scheme , 2006, IEEE Transactions on Automatic Control.

[21]  Guillermo R. Bossio,et al.  Online Model-Based Stator-Fault Detection and Identification in Induction Motors , 2009, IEEE Transactions on Industrial Electronics.

[22]  Jian-Xin Xu,et al.  Discrete-Time Output Integral Sliding-Mode Control for a Piezomotor-Driven Linear Motion Stage , 2008, IEEE Transactions on Industrial Electronics.

[23]  Leonid M. Fridman,et al.  Analysis and design of integral sliding manifolds for systems with unmatched perturbations , 2006, IEEE Transactions on Automatic Control.

[24]  M. M. Akhter,et al.  Effect of model uncertainty on failure detection: the threshold selector , 1988 .

[25]  Rolf Isermann,et al.  Fault-tolerant drive-by-wire systems , 2002 .

[26]  Robert F. Stengel Intelligent failure-tolerant control , 1991 .

[27]  Mo-Yuen Chow,et al.  On the Use of a Lower Sampling Rate for Broken Rotor Bar Detection With DTFT and AR-Based Spectrum Methods , 2008, IEEE Transactions on Industrial Electronics.

[28]  Alexander G. Loukianov,et al.  Multimachine Power-System Control: Integral-SM Approach , 2009, IEEE Transactions on Industrial Electronics.

[29]  R. Decarlo,et al.  Variable structure control of nonlinear multivariable systems: a tutorial , 1988, Proc. IEEE.