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Bond Graph Model-based Fault Diagnosis of Hybrid Systems [electronic resource] / by Wolfgang Borutzky.

By: Borutzky, Wolfgang [author.].
Contributor(s): SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XV, 277 p. 172 illus., 98 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319118604.Subject(s): Engineering | Computer simulation | Control engineering | Robotics | Automation | Mechatronics | Electrical engineering | Engineering | Robotics and Automation | Simulation and Modeling | Communications Engineering, Networks | Control | MechatronicsAdditional physical formats: Printed edition:: No titleDDC classification: 629.892 Online resources: Click here to access online
Contents:
Introduction -- Bond Graph Representations of Hybrid System Models -- Structural Control Properties of Switched LTI Systems -- Bond Graph Model-based Quantitative FDI in Hybrid Systems -- Parameter Uncertainties -- Isolation of Multiple Parametric Faults from a Hybrid Model -- ARR based System Mode Identification -- Applications -- Failure Prognosis for Hybrid Systems Based on ARR Residuals -- Overall Conclusion and Discussion.
In: Springer eBooksSummary: This book presents a bond graph model-based approach to fault diagnosis in mechatronic systems appropriately represented by a hybrid model. The book begins by giving a survey of the fundamentals of fault diagnosis and failure prognosis, then recalls state-of-art developments referring to latest publications, and goes on to discuss various bond graph representations of hybrid system models, equations formulation for switched systems, and simulation of their dynamic behavior. The structured text: • focuses on bond graph model-based fault detection and isolation in hybrid systems; • addresses isolation of multiple parametric faults in hybrid systems; • considers system mode identification; • provides a number of elaborated case studies that consider fault scenarios for switched power electronic systems commonly used in a variety of applications; and • indicates that bond graph modelling can also be used for failure prognosis. In order to facilitate the understanding of fault diagnosis and the presented bond graph model-based approach to fault diagnosis in hybrid systems, three appendices cover the required notions, definitions, a short introduction into bond graph modelling, and some mathematical background. Bond Graph Model-based Fault Diagnosis in Hybrid Systems may be used in courses on fault diagnosis, as a supplementary text for advanced courses in modelling, simulation, and control, as well as for self-studies and as a reference. It has been designed to serve readers in academia and in industry concerned with fault diagnosis who might be interested to see how a graphical methodology such as bond graph modelling can support quantitative model-based fault diagnosis of engineering systems represented by a hybrid model.
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Introduction -- Bond Graph Representations of Hybrid System Models -- Structural Control Properties of Switched LTI Systems -- Bond Graph Model-based Quantitative FDI in Hybrid Systems -- Parameter Uncertainties -- Isolation of Multiple Parametric Faults from a Hybrid Model -- ARR based System Mode Identification -- Applications -- Failure Prognosis for Hybrid Systems Based on ARR Residuals -- Overall Conclusion and Discussion.

This book presents a bond graph model-based approach to fault diagnosis in mechatronic systems appropriately represented by a hybrid model. The book begins by giving a survey of the fundamentals of fault diagnosis and failure prognosis, then recalls state-of-art developments referring to latest publications, and goes on to discuss various bond graph representations of hybrid system models, equations formulation for switched systems, and simulation of their dynamic behavior. The structured text: • focuses on bond graph model-based fault detection and isolation in hybrid systems; • addresses isolation of multiple parametric faults in hybrid systems; • considers system mode identification; • provides a number of elaborated case studies that consider fault scenarios for switched power electronic systems commonly used in a variety of applications; and • indicates that bond graph modelling can also be used for failure prognosis. In order to facilitate the understanding of fault diagnosis and the presented bond graph model-based approach to fault diagnosis in hybrid systems, three appendices cover the required notions, definitions, a short introduction into bond graph modelling, and some mathematical background. Bond Graph Model-based Fault Diagnosis in Hybrid Systems may be used in courses on fault diagnosis, as a supplementary text for advanced courses in modelling, simulation, and control, as well as for self-studies and as a reference. It has been designed to serve readers in academia and in industry concerned with fault diagnosis who might be interested to see how a graphical methodology such as bond graph modelling can support quantitative model-based fault diagnosis of engineering systems represented by a hybrid model.

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