论文信息 - Closed-loop Actuator-fault Detection and Isolation using Invariant Sets and Tubes

Closed-loop Actuator-fault Detection and Isolation using Invariant Sets and Tubes

Abstract This paper proposes a new actuator-fault detection and isolation (FDI) strategy for closed-loop discrete time-invariant systems by using invariant sets and tubes. In this approach, invariant sets are used for fault detection (FD) and the establishment of FDI conditions, while the tubes are generated for fault isolation (FI) at transient state. Comparing with the existing set-theoretic FDI techniques, the advantage of this approach consists in that it exhibits a balance between the conservativeness of FDI conditions, the fast FI response and the computational complexity. The effectiveness of the proposed technique is illustrated by a numerical example.

Vicenç Puig | Feng Xu | Carlos Ocampo-Martinez | Sorin Olaru | Florin Stoican

[1] Carlos Ocampo-Martinez,et al. Actuator fault‐tolerant control based on set separation , 2010 .

[2] Michel Kinnaert,et al. Diagnosis and Fault-Tolerant Control , 2006 .

[3] María M. Seron,et al. A systematic method to obtain ultimate bounds for perturbed systems , 2007, Int. J. Control.

[4] A. Neumaier. The Wrapping Effect, Ellipsoid Arithmetic, Stability and Confidence Regions , 1993 .

[5] José A. De Doná,et al. Actuator fault tolerant multi-controller scheme using set separation based diagnosis , 2010, Int. J. Control.

[6] Sorin Olaru,et al. Positive invariant sets for fault tolerant multisensor control schemes , 2008 .