Class-incremental learning with Balanced Embedding Discrimination Maximization

Class incremental learning is committed to solving representation learning and classification assignments while avoiding catastrophic forgetting in scenarios where categories are increasing. In this work, a unified method named Balanced Embedding Discrimination Maximization (BEDM) is developed to ma...

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Bibliographic Details
Published in:Neural networks 2024-11, Vol.179, p.106487, Article 106487
Main Authors: Wei, Qinglai, Zhang, Weiqin
Format: Article
Language:English
Subjects:
Algorithms
Bias mitigation
Class incremental learning
Feature independence
Humans
Machine Learning
Neural Networks, Computer
Orthogonality
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Summary:Class incremental learning is committed to solving representation learning and classification assignments while avoiding catastrophic forgetting in scenarios where categories are increasing. In this work, a unified method named Balanced Embedding Discrimination Maximization (BEDM) is developed to make the intermediate embedding more distinctive. Specifically, we utilize an orthogonality constraint based on doubly-blocked Toeplitz matrix to minimize the correlation of convolution kernels, and an algorithm for similarity visualization is introduced. Furthermore, uneven samples and distribution shift among old and new tasks eventuate strongly biased classifiers. To mitigate the imbalance, we propose an adaptive balance weighting in softmax to compensate insufficient categories dynamically. In addition, hybrid embedding learning is introduced to preserve knowledge from old models, which involves less hyper-parameters than conventional knowledge distillation. Our proposed method outperforms the existing approaches on three mainstream benchmark datasets. Moreover, we technically visualize that our method can produce a more uniform similarity histogram and more stable spectrum. Grad-CAM and t-SNE visualizations further confirm its effectiveness. Code is available at https://github.com/wqzh/BEDM.
ISSN:0893-6080
1879-2782
1879-2782
DOI:10.1016/j.neunet.2024.106487