Rebalancing with Calibrated Sub-classes (RCS): An Enhanced Approach for Robust Imbalanced Classification

The class imbalance problem refers to the insufficiency of data in certain classes, which causes a classifier to be biased toward the majority class. Distribution calibration is a technique that seeks to estimate a more accurate class distribution based on an observed or estimated one. To address this issue, we propose a distribution calibration-based method-Rebalancing with Calibrated Sub-classes (RCS): An Enhanced Approach for Robust Imbalanced Classification, which estimates the distribution parameters of the minority classes using weighted parameters derived from a mixture of Gaussian components from both the majority and intermediate classes. An encoder-decoder network is trained to preserve the structure of the imbalanced data and prevent disentanglement. After training, feature vectors extracted from the encoder are used to generate synthetic samples through our distribution calibration strategy. This approach effectively mitigates the overgeneralization problem that arises when only the distribution of the majority class is used to approximate the minority class statistics. Instead, our method calibrates the parameters by leveraging the distribution of data points in neighboring regions. Experimental results demonstrate that the proposed method achieves superior classification performance compared to several baseline and state-of-the-art techniques across a diverse range of image, text, and tabular datasets.