TY  - EJOU
AU  - Byeon, Seunggyu 
AU  - Lee, Jung-hun 
AU  - Kim, Jong-Deok 

TI  - Fuzzy C-Means Clustering-Driven Pooling for Robust and Generalizable Convolutional Neural Networks
T2  - Computers, Materials \& Continua

PY  - 2026
VL  - 87
IS  - 2
SN  - 1546-2226

AB  - This paper introduces a fuzzy C-means-based pooling layer for convolutional neural networks that explicitly models local uncertainty and ambiguity. Conventional pooling operations, such as max and average, apply rigid aggregation and often discard fine-grained boundary information. In contrast, our method computes soft memberships within each receptive field and aggregates cluster-wise responses through membership-weighted pooling, thereby preserving informative structure while reducing dimensionality. Being differentiable, the proposed layer operates as standard two-dimensional pooling. We evaluate our approach across various CNN backbones and open datasets, including CIFAR-10/100, STL-10, LFW, and ImageNette, and further probe small training set restrictions on MNIST and Fashion-MNIST. In these settings, the proposed pooling consistently improves accuracy and weighted F1 over conventional baselines, with particularly strong gains when training data are scarce. Even with less than 1% of the training set, our method maintains reliable performance, indicating improved sample efficiency and robustness to noisy or ambiguous local patterns. Overall, integrating soft memberships into the pooling operator provides a practical and generalizable inductive bias that enhances robustness and generalization in modern CNN pipelines.
KW  - Fuzzy logic; fuzzy c-means clustering; membership-based pooling; convolutional neural networks; downsampling; feature extraction

DO  - 10.32604/cmc.2025.074033