Paper Detail

The Gentle Collapse: Distributional Metrics for Continual Learning

Ahmed Anwar, Andreas Wagner, Federico Raue, Tobias Nauen, Andreas Dengel

arxiv Score 19.9

Published 2026-06-23 · First seen 2026-06-25

Research Track A

Abstract

Accuracy degradation is the standard metric for Catastrophic Forgetting (CF), however, it records only whether forgetting occurred or not. It saturates at the extremes and collapses discretely at task boundaries, hiding the internal structure of what is being forgotten. We introduce six softmax-derived metrics spanning true-label rank (TLR), predictive confidence, and distributional divergence that characterize forgetting continuously, each normalized to [0, 1] with no modification to training. On CIFAR-100, these metrics carry information where accuracy does not: at 0% accuracy, the Confusion Margin spans an IQR of [0.32, 0.50] across classes that accuracy treats identically. We demonstrate that this richer signal is actionable in mitigating catastrophic forgetting. Per-sample metric scores used as loss weights reduce forgetting by 1.3 percentage points over uniform experience replay (ER) on CIFAR-100. Furthermore, the slope of a metric over a small window provides a stable sampling criterion: at a small-window size (e.g. 3 epochs), accuracy-trend degrades to 34.79% (std. = 2.32) while log-TLR achieves 41.07% (std. = 0.57). This gap is structural since reliable small-window trend estimation requires a continuous signal. On TinyImageNet, log-TLR trend sampling reduces forgetting by 7.7 percentage points over the ER baseline.

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BibTeX

@article{anwar2026gentle,
  title = {The Gentle Collapse: Distributional Metrics for Continual Learning},
  author = {Ahmed Anwar and Andreas Wagner and Federico Raue and Tobias Nauen and Andreas Dengel},
  year = {2026},
  abstract = {Accuracy degradation is the standard metric for Catastrophic Forgetting (CF), however, it records only whether forgetting occurred or not. It saturates at the extremes and collapses discretely at task boundaries, hiding the internal structure of what is being forgotten. We introduce six softmax-derived metrics spanning true-label rank (TLR), predictive confidence, and distributional divergence that characterize forgetting continuously, each normalized to [0, 1] with no modification to training. },
  url = {https://arxiv.org/abs/2606.25165},
  keywords = {cs.LG},
  eprint = {2606.25165},
  archiveprefix = {arXiv},
}

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