Related papers: Orthogonal Activation with Implicit Group-Aware Bias Learning for Class Imbalance

Orthogonal Activation with Implicit Group-Aware Bias Learning for Class Imbalance

URL: http://arxiv.org/abs/2512.20006v1
Date: Tue, 23 Dec 2025 03:05:25 GMT
Title: Orthogonal Activation with Implicit Group-Aware Bias Learning for Class Imbalance
Authors: Sukumar Kishanthan, Asela Hevapathige,
Abstract summary: Class imbalance is a common challenge in machine learning and data mining.<n>We propose a novel activation function, named OGAB, designed to alleviate class imbalance in deep learning classifiers.<n>We demonstrate the effectiveness of our solution on both real-world and synthetic imbalanced datasets.
Score: 1.2891210250935148
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Class imbalance is a common challenge in machine learning and data mining, often leading to suboptimal performance in classifiers. While deep learning excels in feature extraction, its performance still deteriorates under imbalanced data. In this work, we propose a novel activation function, named OGAB, designed to alleviate class imbalance in deep learning classifiers. OGAB incorporates orthogonality and group-aware bias learning to enhance feature distinguishability in imbalanced scenarios without explicitly requiring label information. Our key insight is that activation functions can be used to introduce strong inductive biases that can address complex data challenges beyond traditional non-linearity. Our work demonstrates that orthogonal transformations can preserve information about minority classes by maintaining feature independence, thereby preventing the dominance of majority classes in the embedding space. Further, the proposed group-aware bias mechanism automatically identifies data clusters and adjusts embeddings to enhance class separability without the need for explicit supervision. Unlike existing approaches that address class imbalance through preprocessing data modifications or post-processing corrections, our proposed approach tackles class imbalance during the training phase at the embedding learning level, enabling direct integration with the learning process. We demonstrate the effectiveness of our solution on both real-world and synthetic imbalanced datasets, showing consistent performance improvements over both traditional and learnable activation functions.

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