Anisotropic-Gaussian-Kernel-Based Fuzzy Clustering Algorithm for Feature Selection

Soft clustering algorithms based on fuzzy C-means (FCM) have been extensively applied to complex data analysis. However, existing FCM variants still encounter key limitations: a large number of iterations due to slow convergence on high-dimensional data, equal weights of all samples, which increases...

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Bibliographic Details
Published in:IEEE transactions on fuzzy systems Vol. 33; no. 9; pp. 3061 - 3075
Main Authors: Liu, Jun, Wu, Mengyuan, Lin, Mingwei, Xu, Zeshui
Format: Journal Article
Language:English
Published: IEEE 01.09.2025
Subjects:
Accuracy
Adaptive weights
Anisotropic
anisotropic Gaussian kernel (AGK)
Classification algorithms
Clustering algorithms
Feature extraction
feature reduction
fuzzy C-means (FCM)
Kernel
Linear programming
Machine learning algorithms
Noise
particle swarm optimization (PSO) algorithm with time-varying acceleration coefficients (PSO-TVAC)
Vectors
ISSN:1063-6706, 1941-0034
Online Access:Get full text
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Summary:Soft clustering algorithms based on fuzzy C-means (FCM) have been extensively applied to complex data analysis. However, existing FCM variants still encounter key limitations: a large number of iterations due to slow convergence on high-dimensional data, equal weights of all samples, which increases sensitivity to noise, and strong dependence on empirically chosen fuzzy parameters, often resulting in suboptimal solutions. In order to address these challenges, in this work, we propose an adaptive FCM clustering algorithm based on anisotropic Gaussian kernel function, which facilitates the process of feature selection for multidimensional data with fewer iterations after feature reduction based on updating the kernel width vector. In order to enhance the classification accuracy, we assign adaptive weights to each sample and adjust these weights to mitigate the impact of outliers on classification accuracy. Unlike traditional fuzzy clustering algorithms, we employ the particle swarm optimization algorithm with time-varying acceleration coefficients to determine the global optimal parameters, thus reducing the computational resources and enhancing the algorithm's efficiency. The experimental results based on 16 publicly available datasets validate that the proposed algorithm achieves higher classification accuracy with minimal number of iterations.
ISSN:1063-6706
1941-0034
DOI:10.1109/TFUZZ.2025.3581918