Publication: Compressing and improving fuzzy rules using genetic algorithm and its application to fault detection
Date
2013
Authors
Yap K.S.
Wong S.Y.
Tiong S.K.
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Abstract
The fuzzy rule sets, which have been derived from the hybrid neural network model, called the O-EGART-PR-FIS, is an integration of the Adaptive Resonance Theory (ART) into Generalized Regression Neural Network (GRNN), display substantial redundancy and low interpretability that leads to time-consuming prediction process. The O-EGART-PR-FIS approach can achieve the highest accuracy rate among all, however the extracted rules are less compact. Hence, in this paper, we propose a genetic algorithm based method with the inclusion of the 'Don't Care' antecedent (hereafter denoted as DC-GA) to the foundation of the O-EGART-PR-FIS, with the aim of further optimizing the existing fuzzy rules. The improved model is applied to two benchmark problems, and the rules extracted are analyzed, discussed and compared with other published methods. From the comparison results, it is observed that the improved model is attested to be statistically superior to other ANN models. Therefore, it reveals the efficacy of DC-GA in eliciting a set of compact and yet easily comprehensible rules while sustaining a high classification performance. � 2013 IEEE.
Description
Keywords
Fault Detection , Fuzzy Inference System , Genetic Algorithm , Rule Extraction , Factory automation , Fault detection , Genetic algorithms , Neural networks , Adaptive resonance theory , Bench-mark problems , Classification performance , Fuzzy inference systems , Generalized Regression Neural Network(GRNN) , Hybrid neural networks , Prediction process , Rule extraction , Fuzzy rules