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Visually Interpretable Fuzzy Neural Classification Network With Deep Convolutional Feature Maps

Chia‐Feng Juang, Yun-Wei Cheng, Yeh-Ming Lin

2023IEEE Transactions on Fuzzy Systems18 citationsDOI

Abstract

This article proposes a deep feature map-based fuzzy neural classification network (DFM-FNCN) with applications to shape-based classification problems. The DFM-FNCN is characterized by compact and visually interpretable fuzzy if-then rules. Classification features in the DFM-FNCN are obtained from feature maps in a deep convolutional neural network. The DFM-FNCN employs the divide-and-conquer technique, where a feature map-based fuzzification operation is proposed to find the firing strength of a fuzzy rule, to address the curse of dimensionality problem. The structure and parameters of the DFM-FNCN are learned through online rule generation and gradient descent algorithms, respectively. For visual interpretation of the learned fuzzy rules, this article designs a deep decoder to map the antecedent of a fuzzy rule to an object-shaped image. The inference behavior of a fuzzy rule is interpreted by inspecting the relationship between the visualized antecedent and the classification levels of each class in the consequent. To speed up retraining of the DFM-FNCN in a new scenario, this article proposes a method to select representative retraining images in a low-dimensional fuzzy rule-mapped space. The DFM-FNCN is applied to classify human postures and moving objects. Experimental results show the advantages of high classification accuracy, model interpretability, and retraining abilities of the DFM-FNCN.

Topics & Concepts

Artificial intelligenceConvolutional neural networkComputer sciencePattern recognition (psychology)Feature (linguistics)Feature extractionArtificial neural networkContextual image classificationFuzzy logicFuzzy setImage (mathematics)LinguisticsPhilosophyNeural Networks and ApplicationsAnomaly Detection Techniques and ApplicationsCurrency Recognition and Detection