English

Towards Robust Incremental Learning under Ambiguous Supervision

Machine Learning 2025-05-08 v4

Abstract

Traditional Incremental Learning (IL) targets to handle sequential fully-supervised learning problems where novel classes emerge from time to time. However, due to inherent annotation uncertainty and ambiguity, collecting high-quality annotated data in a dynamic learning system can be extremely expensive. To mitigate this problem, we propose a novel weakly-supervised learning paradigm called Incremental Partial Label Learning (IPLL), where the sequentially arrived data relate to a set of candidate labels rather than the ground truth. Technically, we develop the Prototype-Guided Disambiguation and Replay Algorithm (PGDR) which leverages the class prototypes as a proxy to mitigate two intertwined challenges in IPLL, i.e., label ambiguity and catastrophic forgetting. To handle the former, PGDR encapsulates a momentum-based pseudo-labeling algorithm along with prototype-guided initialization, resulting in a balanced perception of classes. To alleviate forgetting, we develop a memory replay technique that collects well-disambiguated samples while maintaining representativeness and diversity. By jointly distilling knowledge from curated memory data, our framework exhibits a great disambiguation ability for samples of new tasks and achieves less forgetting of knowledge. Extensive experiments demonstrate that PGDR achieves superior

Keywords

Cite

@article{arxiv.2501.13584,
  title  = {Towards Robust Incremental Learning under Ambiguous Supervision},
  author = {Rui Wang and Mingxuan Xia and Chang Yao and Lei Feng and Junbo Zhao and Gang Chen and Haobo Wang},
  journal= {arXiv preprint arXiv:2501.13584},
  year   = {2025}
}
R2 v1 2026-06-28T21:14:42.850Z