Title :
Fault diagnosis in closed control loops via frequency domain approach
Author :
Sauter, D. ; Hamelin, F. ; Ghetie, M.
Author_Institution :
Centre de Rech. en Autom. de Nancy (CRAN), Univ. Henri Poincare, Vandæuvre, France
Abstract :
This paper deals with the problem of designing detection filters for FD1 in closed control loops. The methodology presented in here makes use of model-based approaches applied to linear systems. The residual generator proposed in the following is derived from the transfer functions of the system in open and closed loop, and is designed to be sensitive to the different types of faults which can occur on the plant (e.g., sensor, actuator, process). Another topic of interest is that of the robustness of the FD1 systems to different disturbances. The solution proposed here consists in a detection filter which is placed at the output of the residual generator in order to reduce the sensitivity to these disturbances and enhance only the influence of the faults on the residuals. The design procedure of the detection filter is based on the optimization of a performance index expressed in the frequency domain.
Keywords :
closed loop systems; fault diagnosis; frequency-domain analysis; linear systems; open loop systems; performance index; robust control; transfer functions; FDI system robustness; closed control loops; closed loop system; detection filters; fault diagnosis; frequency domain approach; linear systems; model-based approach; open loop system; performance index optimization; residual generator; transfer functions; Fault diagnosis; Frequency-domain analysis; Generators; Mathematical model; Optimization; Robustness; Transfer functions; Closed Loops; Fault Detection and Isolation; Frequency Domain; Linear Systems; Process Control;
Conference_Titel :
Control Conference (ECC), 1997 European
Conference_Location :
Brussels
Print_ISBN :
978-3-9524269-0-6
