Model-Based Fault Diagnosis Techniques
Ding, Steven X.
Model-Based Fault Diagnosis Techniques Design Schemes, Algorithms and Tools / [electronic resource] : by Steven X. Ding. - 2nd ed. 2013. - XX, 504 p. online resource. - Advances in Industrial Control, 1430-9491 . - Advances in Industrial Control, .
Basic Ideas, Major Issues, and Tools in the Observer-Based FDI Framework -- Modelling of Technical Systems -- Structural Fault Detectability, Isolability and Identifiability -- Basic Residual Generation Methods -- Perfect Unknown Input Decoupling -- Residual Generation with Enhanced Robustness against Unknown Inputs -- Residual Generation with Enhanced Robustness against Model Uncertainties -- Norm-Based Residual Evaluation and Threshold Computation -- Statistical-Methods-Based Residual Evaluation and Threshold Setting -- Integration of Norm-Based and Statistical Methods -- Integrated Design of Fault Detection Systems -- Fault Isolation Schemes.
Guaranteeing a high system performance over a wide operating range is an important issue surrounding the design of automatic control systems with successively increasing complexity. As a key technology in the search for a solution, advanced fault detection and identification (FDI) is receiving considerable attention. This book introduces basic model-based FDI schemes, advanced analysis and design algorithms, and mathematical and control-theoretic tools. This second edition of Model-Based Fault Diagnosis Techniques contains: · new material on fault isolation and identification, and fault detection in feedback control loops; · extended and revised treatment of systematic threshold determination for systems with both deterministic unknown inputs and stochastic noises; addition of the continuously-stirred tank heater as a representative process-industrial benchmark; and · enhanced discussion of residual evaluation in stochastic processes. Model-based Fault Diagnosis Techniques will interest academic researchers working in fault detection and diagnosis and as a textbook it is suitable for graduate students in a formal university-based course or as a self-study aid for practicing engineers working with automatic control or mechatronic systems from backgrounds as diverse as chemical process and power engineering. Model-based Fault Diagnosis Techniques will interest academic researchers working in fault detection and diagnosis and as a textbook it is suitable for graduate students in a formal university-based course or as a self-study aid for practicing engineers working with automatic control or mechatronic systems from backgrounds as diverse as chemical process and power engineering. · enhanced discussion of residual evaluation in stochastic processes. Model-based Fault Diagnosis Techniques will interest academic researchers working in fault detection and diagnosis and as a textbook it is suitable for graduate students in a formal university-based course or as a self-study aid for practicing engineers working with automatic control or mechatronic systems from backgrounds as diverse as chemical process and power engineering. Advances in Industrial Control aims to report and encourage the transfer of technology in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. The series offers an opportunity for researchers to present an extended exposition of new work in all aspects of industrial control.
9781447147992
10.1007/978-1-4471-4799-2 doi
Engineering.
Chemical engineering.
Control engineering.
Quality control.
Reliability.
Industrial safety.
Power electronics.
Engineering.
Control.
Industrial Chemistry/Chemical Engineering.
Power Electronics, Electrical Machines and Networks.
Quality Control, Reliability, Safety and Risk.
TJ212-225
629.8
Model-Based Fault Diagnosis Techniques Design Schemes, Algorithms and Tools / [electronic resource] : by Steven X. Ding. - 2nd ed. 2013. - XX, 504 p. online resource. - Advances in Industrial Control, 1430-9491 . - Advances in Industrial Control, .
Basic Ideas, Major Issues, and Tools in the Observer-Based FDI Framework -- Modelling of Technical Systems -- Structural Fault Detectability, Isolability and Identifiability -- Basic Residual Generation Methods -- Perfect Unknown Input Decoupling -- Residual Generation with Enhanced Robustness against Unknown Inputs -- Residual Generation with Enhanced Robustness against Model Uncertainties -- Norm-Based Residual Evaluation and Threshold Computation -- Statistical-Methods-Based Residual Evaluation and Threshold Setting -- Integration of Norm-Based and Statistical Methods -- Integrated Design of Fault Detection Systems -- Fault Isolation Schemes.
Guaranteeing a high system performance over a wide operating range is an important issue surrounding the design of automatic control systems with successively increasing complexity. As a key technology in the search for a solution, advanced fault detection and identification (FDI) is receiving considerable attention. This book introduces basic model-based FDI schemes, advanced analysis and design algorithms, and mathematical and control-theoretic tools. This second edition of Model-Based Fault Diagnosis Techniques contains: · new material on fault isolation and identification, and fault detection in feedback control loops; · extended and revised treatment of systematic threshold determination for systems with both deterministic unknown inputs and stochastic noises; addition of the continuously-stirred tank heater as a representative process-industrial benchmark; and · enhanced discussion of residual evaluation in stochastic processes. Model-based Fault Diagnosis Techniques will interest academic researchers working in fault detection and diagnosis and as a textbook it is suitable for graduate students in a formal university-based course or as a self-study aid for practicing engineers working with automatic control or mechatronic systems from backgrounds as diverse as chemical process and power engineering. Model-based Fault Diagnosis Techniques will interest academic researchers working in fault detection and diagnosis and as a textbook it is suitable for graduate students in a formal university-based course or as a self-study aid for practicing engineers working with automatic control or mechatronic systems from backgrounds as diverse as chemical process and power engineering. · enhanced discussion of residual evaluation in stochastic processes. Model-based Fault Diagnosis Techniques will interest academic researchers working in fault detection and diagnosis and as a textbook it is suitable for graduate students in a formal university-based course or as a self-study aid for practicing engineers working with automatic control or mechatronic systems from backgrounds as diverse as chemical process and power engineering. Advances in Industrial Control aims to report and encourage the transfer of technology in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. The series offers an opportunity for researchers to present an extended exposition of new work in all aspects of industrial control.
9781447147992
10.1007/978-1-4471-4799-2 doi
Engineering.
Chemical engineering.
Control engineering.
Quality control.
Reliability.
Industrial safety.
Power electronics.
Engineering.
Control.
Industrial Chemistry/Chemical Engineering.
Power Electronics, Electrical Machines and Networks.
Quality Control, Reliability, Safety and Risk.
TJ212-225
629.8