Distributed Fault Detection and Isolation Filter Design for a Network of Heterogeneous Multiagent Systems

Distributed Fault Detection and Isolation Filter Design for a Network of Heterogeneous Multiagent Systems

In this brief a distributed fault detection and isolation (FDI) methodology for a network of heterogeneous multiagent systems with different dynamics and order from one another is proposed. An FDI filter is designed such that the effects of disturbances and control inputs on the residual signals are...

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Veröffentlicht in:IEEE transactions on control systems technology 2014-05, Vol.22 (3), p.1061-1069
Hauptverfasser: Davoodi, Mohammad Reza, Khorasani, Khashayar, Talebi, Heidar Ali, Momeni, Hamid Reza
Format: Artikel
Sprache:eng
Schlagworte:
Actuators
Design engineering
Dynamical systems
Dynamics
Extended linear matrix inequality (LMI)
Fault detection
fault detection and isolation (FDI)
Faults
heterogeneous multiagent systems
Linear matrix inequalities
Methodology
Multi-agent systems
Networks
Nickel
Observers
Symmetric matrices
Tasks
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container_issue 3
container_start_page 1061
container_title IEEE transactions on control systems technology
container_volume 22
creator Davoodi, Mohammad Reza
Khorasani, Khashayar
Talebi, Heidar Ali
Momeni, Hamid Reza
description In this brief a distributed fault detection and isolation (FDI) methodology for a network of heterogeneous multiagent systems with different dynamics and order from one another is proposed. An FDI filter is designed such that the effects of disturbances and control inputs on the residual signals are minimized (for accomplishing the fault detection task) subject to the constraint that the transfer matrix function from the faults to the residuals is equal to a preassigned diagonal transfer matrix (for accomplishing the fault isolation task). Moreover, by utilizing the proposed methodology, isolation of simultaneous occurring faults can also be handled. Sufficient conditions for solvability of the problem are obtained in terms of linear matrix inequality (LMI) feasibility conditions. The extended LMI characterization is then used to reduce the conservativeness of the solution by eliminating the couplings between the Lyapunov matrices and the agents' matrices. Simulation results presented demonstrate the effectiveness and capabilities of our proposed design methodology.
doi_str_mv 10.1109/TCST.2013.2264507
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subjects Actuators
Design engineering
Dynamical systems
Dynamics
Extended linear matrix inequality (LMI)
Fault detection
fault detection and isolation (FDI)
Faults
heterogeneous multiagent systems
Linear matrix inequalities
Methodology
Multi-agent systems
Networks
Nickel
Observers
Symmetric matrices
Tasks
title Distributed Fault Detection and Isolation Filter Design for a Network of Heterogeneous Multiagent Systems
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