Contrastive Continual Learning with Importance Sampling and Prototype-Instance Relation Distillation

ArXiv Pub Date : 2024-03-07 DOI:10.1609/aaai.v38i12.29259
Jiyong Li, Dilshod Azizov, Yang Li, Shangsong Liang
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Abstract

Recently, because of the high-quality representations of contrastive learning methods, rehearsal-based contrastive continual learning has been proposed to explore how to continually learn transferable representation embeddings to avoid the catastrophic forgetting issue in traditional continual settings. Based on this framework, we propose Contrastive Continual Learning via Importance Sampling (CCLIS) to preserve knowledge by recovering previous data distributions with a new strategy for Replay Buffer Selection (RBS), which minimize estimated variance to save hard negative samples for representation learning with high quality. Furthermore, we present the Prototype-instance Relation Distillation (PRD) loss, a technique designed to maintain the relationship between prototypes and sample representations using a self-distillation process. Experiments on standard continual learning benchmarks reveal that our method notably outperforms existing baselines in terms of knowledge preservation and thereby effectively counteracts catastrophic forgetting in online contexts. The code is available at https://github.com/lijy373/CCLIS.
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利用重要性采样和原型-实例关系提炼进行对比式持续学习
最近,由于对比学习方法具有高质量的表征,人们提出了基于排演的对比持续学习,以探索如何持续学习可转移的表征嵌入,从而避免传统持续学习设置中的灾难性遗忘问题。在此框架基础上,我们提出了通过重要度采样进行对比式连续学习(CCLIS),通过一种新的重放缓冲区选择(RBS)策略恢复以前的数据分布,从而保存知识,这种策略能最大限度地减少估计方差,为高质量的表征学习保存硬负样本。此外,我们还提出了原型-实例关系蒸馏(PRD)损失,这是一种旨在利用自蒸馏过程保持原型与样本表示之间关系的技术。在标准的持续学习基准上进行的实验表明,我们的方法在知识保存方面明显优于现有的基准,从而有效地抵消了在线环境下的灾难性遗忘。代码见 https://github.com/lijy373/CCLIS。
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