A comprehensive diagnosis of hybrid systems for discrete and parametric faults using hybrid I/O automata

Gan Zhou; Gautam Biswas; Wenquan Feng

doi:10.1016/j.ifacol.2015.09.518

A comprehensive diagnosis of hybrid systems for discrete and parametric faults using hybrid I/O automata

Gan Zhou
, Gautam Biswas
, Wenquan Feng

School of Electronic and Information Engineering

Beihang University
Vanderbilt University

Research output: Contribution to journal › Conference article › peer-review

8 Scopus citations

Abstract

This paper proposes an efficient online monitoring and diagnosis scheme for hybrid systems. The modeling framework is based on extended probabilistic hybrid I/O automata that represent the system behavior, coupling the continuous and discrete dynamics. The diagnosis architecture consists of two primary components: (1) a hybrid observer and (2) a diagnostics module. The hybrid observer employs a focused probabilistic estimation technique to track continuous behavior interspersed with discrete mode changes. The diagnostics module combines fault detection and isolation using a structural residual analysis method. Both discrete and parametric faults are considered in our framework. The working is illustrated on a hybrid two-tank system to demonstrate the effectiveness of this approach.

Original language	English
Pages (from-to)	143-149
Number of pages	7
Journal	IFAC-PapersOnLine
Volume	28
Issue number	21
DOIs	https://doi.org/10.1016/j.ifacol.2015.09.518
State	Published - 1 Sep 2015
Event	9th IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes, SAFEPROCESS 2015 - Paris, France Duration: 2 Sep 2015 → 4 Sep 2015

Keywords

Fault detection and isolation
Hybrid I/O automata
Hybrid observer
Hybrid systems
Minimal overconstrained subsystem

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10.1016/j.ifacol.2015.09.518

Cite this

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abstract = "This paper proposes an efficient online monitoring and diagnosis scheme for hybrid systems. The modeling framework is based on extended probabilistic hybrid I/O automata that represent the system behavior, coupling the continuous and discrete dynamics. The diagnosis architecture consists of two primary components: (1) a hybrid observer and (2) a diagnostics module. The hybrid observer employs a focused probabilistic estimation technique to track continuous behavior interspersed with discrete mode changes. The diagnostics module combines fault detection and isolation using a structural residual analysis method. Both discrete and parametric faults are considered in our framework. The working is illustrated on a hybrid two-tank system to demonstrate the effectiveness of this approach.",

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AU - Biswas, Gautam

AU - Feng, Wenquan

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N2 - This paper proposes an efficient online monitoring and diagnosis scheme for hybrid systems. The modeling framework is based on extended probabilistic hybrid I/O automata that represent the system behavior, coupling the continuous and discrete dynamics. The diagnosis architecture consists of two primary components: (1) a hybrid observer and (2) a diagnostics module. The hybrid observer employs a focused probabilistic estimation technique to track continuous behavior interspersed with discrete mode changes. The diagnostics module combines fault detection and isolation using a structural residual analysis method. Both discrete and parametric faults are considered in our framework. The working is illustrated on a hybrid two-tank system to demonstrate the effectiveness of this approach.

AB - This paper proposes an efficient online monitoring and diagnosis scheme for hybrid systems. The modeling framework is based on extended probabilistic hybrid I/O automata that represent the system behavior, coupling the continuous and discrete dynamics. The diagnosis architecture consists of two primary components: (1) a hybrid observer and (2) a diagnostics module. The hybrid observer employs a focused probabilistic estimation technique to track continuous behavior interspersed with discrete mode changes. The diagnostics module combines fault detection and isolation using a structural residual analysis method. Both discrete and parametric faults are considered in our framework. The working is illustrated on a hybrid two-tank system to demonstrate the effectiveness of this approach.

KW - Fault detection and isolation

KW - Hybrid I/O automata

KW - Hybrid observer

KW - Hybrid systems

KW - Minimal overconstrained subsystem

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M3 - 会议文章

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SN - 2405-8971

VL - 28

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JO - IFAC-PapersOnLine

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IS - 21

T2 - 9th IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes, SAFEPROCESS 2015

Y2 - 2 September 2015 through 4 September 2015

ER -

A comprehensive diagnosis of hybrid systems for discrete and parametric faults using hybrid I/O automata

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Keywords

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