Robust Position Control of an Electrohydraulic Actuator With a Faulty Actuator Piston Seal

The development of a fault tolerant control (FTC) strategy to compensate for the degrading effects of fluid leakage across a faulty actuator piston seal in an electrohydraulic positioning system is presented. Due to relatively large variations in the dynamics of the plant, accomplishing the FTC task with a single controller requires a compensator of relatively high gain. Hence, the problem is first reformulated by discretizing the desired range of fault tolerance into a number of distinct levels. Next, a set of low gain local controllers is synthesized via quantitative feedback theory, such that the resulting closed-loop systems all conform to a priori defined performance specifications. Each controller is designed to compensate for a specific level of leakage. A simple switching algorithm is then employed to determine the appropriate control action by scaling each controller's output based upon an estimate of the leakage level. Experimental results illustrate the ability of the designed FTC scheme to compensate for the degrading effect of the leakage fault.

[1]  I. Horowitz Fundamental theory of automatic linear feedback control systems , 1959 .

[2]  Steven J. Rasmussen,et al.  Quantitative feedback theory: fundamentals and applications: C. H. Houpis and S. J. Rasmussen; Marcel Dekker, New York, 1999, ISBN: 0-8247-7872-3 , 2001, Autom..

[3]  Nariman Sepehri,et al.  Fault tolerant control of electrohydraulic servo positioning systems , 2001, Proceedings of the 2001 American Control Conference. (Cat. No.01CH37148).

[4]  Donald McLean,et al.  Automatic Flight Control Systems , 1990 .

[5]  Nariman Sepehri,et al.  Design and experimental evaluation of a robust force controller for an electro-hydraulic actuator via quantitative feedback theory , 2000 .

[6]  H. E. Merritt,et al.  Hydraulic Control Systems , 1991 .

[7]  Sung Kyung Hong,et al.  Force control system design for aerodynamic load simulator , 2002 .

[8]  C. R. Burrows,et al.  The Dynamic Characteristics of an Electro-Hydraulic Servovalve , 1976 .

[9]  F.N. Bailey,et al.  Loop gain-phase shaping for single-input-single-output robust controllers , 1991, IEEE Control Systems.

[10]  Meir Pachter,et al.  MODELLING AND CONTROL OF AN ELECTRO‐HYDROSTATIC ACTUATOR , 1997 .

[11]  Duc Truong Pham,et al.  An artificial neural network based approach to fault diagnosis and classification of fluid power systems , 1997 .

[12]  Meir Pachter,et al.  A QFT subsonic envelope flight control system design , 1995, Proceedings of the IEEE 1995 National Aerospace and Electronics Conference. NAECON 1995.

[13]  Amit Shukla,et al.  Feedback design for robust tracking and robust stiffness in flight control actuators using a modified QFT technique , 1999 .

[14]  Meir Pachter,et al.  QFT applied to fault tolerant flight control system design , 1995, Proceedings of 1995 American Control Conference - ACC'95.

[15]  S. A. Snell,et al.  Quantitative feedback theory with a scheduled gain for full envelope longitudinal control , 1996 .

[16]  Wei Wei,et al.  QFT-based robust/fault-tolerant flight control design for a remote pilotless vehicle , 2000 .

[17]  Clifford R. Burrows,et al.  Fault diagnosis of a hydraulic actuator circuit using neural networks—an output vector space classification approach , 1997 .

[18]  N. Sepehri,et al.  Designing robust force control of hydraulic actuators despite system and environmental uncertainties , 2001 .

[19]  C. S. Cox,et al.  Modelling, design and control of a modern electropneumatic actuator , 1990 .

[20]  Meir Pachter,et al.  FUZZY SCHEDULING OF REGIONAL QFT CONTROLLERS , 1997 .

[21]  Duc Truong Pham,et al.  Fault classification of fluid power systems using a dynamics feature extraction technique and neural networks , 1998 .

[22]  Meir Pachter,et al.  Modeling and control of an electro-hydrostatic actuator , 1995, Proceedings of the IEEE 1995 National Aerospace and Electronics Conference. NAECON 1995.

[23]  John D'Azzo,et al.  Linear Control System Analysis and Design: Conventional and Modern , 1977 .