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DRESS: Disentangled Representation-based Self-Supervised Meta-Learning for Diverse Tasks

Machine Learning 2025-03-14 v1 Computer Vision and Pattern Recognition

Abstract

Meta-learning represents a strong class of approaches for solving few-shot learning tasks. Nonetheless, recent research suggests that simply pre-training a generic encoder can potentially surpass meta-learning algorithms. In this paper, we first discuss the reasons why meta-learning fails to stand out in these few-shot learning experiments, and hypothesize that it is due to the few-shot learning tasks lacking diversity. We propose DRESS, a task-agnostic Disentangled REpresentation-based Self-Supervised meta-learning approach that enables fast model adaptation on highly diversified few-shot learning tasks. Specifically, DRESS utilizes disentangled representation learning to create self-supervised tasks that can fuel the meta-training process. Furthermore, we also propose a class-partition based metric for quantifying the task diversity directly on the input space. We validate the effectiveness of DRESS through experiments on datasets with multiple factors of variation and varying complexity. The results suggest that DRESS is able to outperform competing methods on the majority of the datasets and task setups. Through this paper, we advocate for a re-examination of proper setups for task adaptation studies, and aim to reignite interest in the potential of meta-learning for solving few-shot learning tasks via disentangled representations.

Keywords

Cite

@article{arxiv.2503.09679,
  title  = {DRESS: Disentangled Representation-based Self-Supervised Meta-Learning for Diverse Tasks},
  author = {Wei Cui and Tongzi Wu and Jesse C. Cresswell and Yi Sui and Keyvan Golestan},
  journal= {arXiv preprint arXiv:2503.09679},
  year   = {2025}
}

Comments

9 pages, 6 figures. An earlier version of the paper has been presented at the Self-Supervised Learning workshop at the 2024 NeurIPS conference

R2 v1 2026-06-28T22:18:01.366Z