Fault-tolerant Control Systems [electronic resource] : Design and Practical Applications / by Hassan Noura, Didier Theilliol, Jean-Christophe Ponsart, Abbas Chamseddine.

By: Noura, Hassan [author.]Contributor(s): Theilliol, Didier [author.] | Ponsart, Jean-Christophe [author.] | Chamseddine, Abbas [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Series: Advances in Industrial Control: Publisher: London : Springer London, 2009Description: XXI, 233 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781848826533Subject(s): Engineering | Chemical engineering | Vibration | Control engineering systems | Electronics | Engineering | Control | Electronics and Microelectronics, Instrumentation | Industrial Chemistry/Chemical Engineering | Automotive Engineering | Vibration, Dynamical Systems, Control | Control , Robotics, MechatronicsAdditional physical formats: Printed edition:: No titleDDC classification: 629.8 LOC classification: TJ212-225Online resources: Click here to access online
Contents:
to Model-based Fault Diagnosis and Fault-tolerant Control -- Actuator and Sensor Fault-tolerant Control Design -- Application to a Winding Machine -- Application to a Three-tank System -- Sensor Fault-tolerant Control Method for Active Suspension System -- Conclusion.
In: Springer eBooksSummary: Fault-tolerant Control Systems reports the development of fault diagnosis and fault-tolerant control (FTC) methods with their application to real plants. After an introduction to fault diagnosis and FTC, a chapter on actuators and sensors in systems with varying degrees of nonlinearity leads to three chapters in which the design of FTC systems is given thorough coverage for real applications: • a winding machine typifying a subsystem in various sheet and film processes; • a hydraulic three-tank system representative of those used widely in chemical plants; and • an active suspension system demonstrating application in whole large-scale systems by splitting into subsystems. Actuator and sensor faults are accommodated within the control-law design and the integration of fault diagnosis models in the FTC systems described. Commentary is given on the recent results presented. Critical failures – the loss of system observability from total loss of a sensor and of controllability from complete loss of an actuator – are considered. Linearized systems around an operating point and nonlinear systems are discussed and illustrated. A complete simulation platform of the three-tank system, in closed-loop, with or without actuator and sensor faults, is provided for the use of the reader via download from www.springer.com/978-1-84882-652-6. With its emphasis on real application, Fault-tolerant Control Systems makes an important contribution to the literature on FTC and will be of significant assistance to practicing control engineers with problems of this nature to solve. The book will also be of use to academic researchers and graduate students interested in FTC, bringing to their attention the need to adapt their methods for implementation and suggesting ways in which this can be done.
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to Model-based Fault Diagnosis and Fault-tolerant Control -- Actuator and Sensor Fault-tolerant Control Design -- Application to a Winding Machine -- Application to a Three-tank System -- Sensor Fault-tolerant Control Method for Active Suspension System -- Conclusion.

Fault-tolerant Control Systems reports the development of fault diagnosis and fault-tolerant control (FTC) methods with their application to real plants. After an introduction to fault diagnosis and FTC, a chapter on actuators and sensors in systems with varying degrees of nonlinearity leads to three chapters in which the design of FTC systems is given thorough coverage for real applications: • a winding machine typifying a subsystem in various sheet and film processes; • a hydraulic three-tank system representative of those used widely in chemical plants; and • an active suspension system demonstrating application in whole large-scale systems by splitting into subsystems. Actuator and sensor faults are accommodated within the control-law design and the integration of fault diagnosis models in the FTC systems described. Commentary is given on the recent results presented. Critical failures – the loss of system observability from total loss of a sensor and of controllability from complete loss of an actuator – are considered. Linearized systems around an operating point and nonlinear systems are discussed and illustrated. A complete simulation platform of the three-tank system, in closed-loop, with or without actuator and sensor faults, is provided for the use of the reader via download from www.springer.com/978-1-84882-652-6. With its emphasis on real application, Fault-tolerant Control Systems makes an important contribution to the literature on FTC and will be of significant assistance to practicing control engineers with problems of this nature to solve. The book will also be of use to academic researchers and graduate students interested in FTC, bringing to their attention the need to adapt their methods for implementation and suggesting ways in which this can be done.

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