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Title: | Finite-horizon estimation of randomly occurring faults for a class of nonlinear time-varying systems |
Authors: | Dong, H Wang, Z Ding, SX Gao, H |
Keywords: | Fault estimation;Nonlinear stochastic systems;Randomly occurring faults;Recursive;Riccati difference equations;Time-varying systems |
Issue Date: | 2014 |
Publisher: | Elsevier Ltd |
Citation: | Automatica, 50:12, pp. 3182 - 3189, 2014 |
Abstract: | This paper is concerned with the finite-horizon estimation problem of randomly occurring faults for a class of nonlinear systems whose parameters are all time-varying. The faults are assumed to occur in a random way governed by two sets of Bernoulli distributed white sequences. The stochastic nonlinearities entering the system are described by statistical means that can cover several classes of well-studied nonlinearities. The aim of the problem is to estimate the random faults, over a finite horizon, such that the influence from the exogenous disturbances onto the estimation errors is attenuated at the given level quantified by an H∞-norm in the mean square sense. By using the completing squares method and stochastic analysis techniques, necessary and sufficient conditions are established for the existence of the desired finite-horizon H∞ fault estimator whose parameters are then obtained by solving coupled backward recursive Riccati difference equations (RDEs). A simulation example is utilized to illustrate the effectiveness of the proposed fault estimation method. |
URI: | http://www.sciencedirect.com/science/article/pii/S0005109814004075 http://bura.brunel.ac.uk/handle/2438/9770 |
DOI: | http://dx.doi.org/10.1016/j.automatica.2014.10.026 |
ISSN: | 0005-1098 |
Appears in Collections: | Dept of Computer Science Research Papers |
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