The Fault Diagnosis Problem: Residual Generators Design Using Neural Networks in a Two-Tanks Interconnected System

In this work, a fault detection method based on a neural-network models bank to residual generation and a residual evaluation scheme using a fuzzy rules type is developed. The case of study is a nonlinear hydraulic system consisting of two interconnected tanks which is simulated, in normal condition...

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Bibliographic Details
Main Authors: Anzurez-Marin, J., Cuevas-Silva, O., Pitalua-Diaz, N.
Format: Conference Proceeding
Language:English
Subjects:
Artificial neural networks
Biological neural networks
Decision making
Fault detection
Fault diagnosis
Interconnected systems
Mathematical model
Neural Network
Neural networks
Nonlinear Systems
Signal generators
Takagi-Sugeno model
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Summary:In this work, a fault detection method based on a neural-network models bank to residual generation and a residual evaluation scheme using a fuzzy rules type is developed. The case of study is a nonlinear hydraulic system consisting of two interconnected tanks which is simulated, in normal conditions and fault conditions. In this case we use also its equivalent Takagi-Sugeno Model in discreet time. This way, the simulation provides the data to train each one of the neuronal models. The update the weights is based on the algorithm BP (Back Propagation) with a stage of scale applied to the training data in order to avoid over-training on the neural network, due to the asymptotic limits of the sigmoid function used. The results show a correct identification on the different fault scenes and it motivates us to the real implementation of faults diagnosis procedure.
DOI:10.1109/CERMA.2009.44