Data Centroid Based Multi-Level Fuzzy Min-Max Neural Network

Recently, a multi-level fuzzy min max neural network (MLF) was proposed, which improves the classification accuracy by handling an overlapped region (area of confusion) with the help of a tree structure. In this brief, an extension of MLF is proposed which defines a new boundary region, where the pr...

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Hauptverfasser: Deshmukh, Shraddha, Gandhi, Sagar, Sanap, Pratap, Kulkarni, Vivek
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Gandhi, Sagar
Sanap, Pratap
Kulkarni, Vivek
description Recently, a multi-level fuzzy min max neural network (MLF) was proposed, which improves the classification accuracy by handling an overlapped region (area of confusion) with the help of a tree structure. In this brief, an extension of MLF is proposed which defines a new boundary region, where the previously proposed methods mark decisions with less confidence and hence misclassification is more frequent. A methodology to classify patterns more accurately is presented. Our work enhances the testing procedure by means of data centroids. We exhibit an illustrative example, clearly highlighting the advantage of our approach. Results on standard datasets are also presented to evidentially prove a consistent improvement in the classification rate.
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title Data Centroid Based Multi-Level Fuzzy Min-Max Neural Network
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