Title :
Robust Fault Estimation Using Relative Information in Linear Multi-Agent Networks
Author :
Menon, Prathyush P. ; Edwards, Chris
Author_Institution :
Centre for Syst., Univ. of Exeter, Exeter, UK
Abstract :
In this technical note, a robust fault estimation method, based on sliding mode observers, is proposed for a collection of agents undertaking a shared task and exchanging only relative information over a communication network. Since the `system of systems´ formed by the agents is not observable with respect to relative sensing information, by appropriate transformations and scalings of the inputs and outputs of the actual system, a meaningful observable subsystem is created. For this new subsystem, after modal decomposition based on the associated Laplacian, decoupled sliding mode observers, depending only on the individual node level dynamics of the network, can be created exploiting an existing design philosophy. These collectively form a centralized fault estimation scheme for the original system.
Keywords :
Laplace equations; fault diagnosis; multi-agent systems; observers; variable structure systems; associated Laplacian; centralized fault estimation scheme; communication network; decoupled sliding mode observers; individual node level dynamics; linear multiagent networks; modal decomposition; observable subsystem; relative information; relative sensing information; robust fault estimation method; system of systems; Eigenvalues and eigenfunctions; Fault detection; Laplace equations; Observers; Symmetric matrices; Uncertainty; Faults; multi-agent networks; sliding mode observer;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2274689
