Enhancing Few-Shot Classification without Forgetting through Multi-Level Contrastive Constraints

arXiv - CS - Multimedia Pub Date : 2024-09-17 DOI:arxiv-2409.11286

Bingzhi Chen, Haoming Zhou, Yishu Liu, Biqing Zeng, Jiahui Pan, Guangming Lu

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Abstract

Most recent few-shot learning approaches are based on meta-learning with episodic training. However, prior studies encounter two crucial problems: (1) \textit{the presence of inductive bias}, and (2) \textit{the occurrence of catastrophic forgetting}. In this paper, we propose a novel Multi-Level Contrastive Constraints (MLCC) framework, that jointly integrates within-episode learning and across-episode learning into a unified interactive learning paradigm to solve these issues. Specifically, we employ a space-aware interaction modeling scheme to explore the correct inductive paradigms for each class between within-episode similarity/dis-similarity distributions. Additionally, with the aim of better utilizing former prior knowledge, a cross-stage distribution adaption strategy is designed to align the across-episode distributions from different time stages, thus reducing the semantic gap between existing and past prediction distribution. Extensive experiments on multiple few-shot datasets demonstrate the consistent superiority of MLCC approach over the existing state-of-the-art baselines.

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通过多层次对比约束增强无遗忘的少拍分类功能

近来，大多数 "少量学习 "方法都是基于 "元学习"（meta-learning）和 "序列训练"（isodic training）。然而，之前的研究遇到了两个关键问题：（1）（textit{存在归纳偏差}；（2）（textit{发生灾难性遗忘}。在本文中，我们提出了一个新颖的多层次对比约束（MLCC）框架，它将集内学习和跨集学习联合整合到一个统一的交互式学习范式中，以解决这些问题。此外，为了更好地利用以前的先验知识，我们还设计了跨阶段分布自适应策略，以调整不同时间阶段的跨集分布，从而缩小现有预测分布与过去预测分布之间的语义差距。在多个少量数据集上进行的广泛实验证明，MLCC 方法始终优于现有的最先进基线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Multimedia

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