Fixed Size Sample Strategy for Change Detection and Isolation of Non-Orthogonal Faults
Abstract
The comparison between optimal sequential and non-sequential fixed size sample (FSS) strategies in the problem of abrupt change detection and isolation is discussed. The general case of non-orthogonal Gaussian hypotheses is considered. Each hypothesis is characterized by its mean vector (the change signature) and it is desirable to detect/isolate a change subject to the constraints on a prefixed time between false alarm and a maximum probability of false isolation. It is theoretically established that the performance of the proposed FSS algorithm is directly related to the mutual geometry between the hypotheses through the Kullback-Leibler information. It is shown that a simple FSS algorithm is almost as efficient as an optimal sequential one but in contrast to the sequential strategy, the FSS strategy can be easily used for monitoring in the case of variable structure systems.