Reliability-Gated Source Anchoring for Continual Test-Time Adaptation
Abstract
Continual test-time adaptation (CTTA) updates a pretrained model online on an unlabeled, non-stationary stream while anchoring it to a frozen source checkpoint. This anchor is useful only when the source remains reliable. On CCC-Hard, however, a ResNet-50 source falls to approximately top- accuracy, while existing source-anchored CTTA methods continue applying the same anchor strength. We call this failure mode blind anchoring and propose RMemSafe, a reliability-gated extension of ROID that uses the frozen source's normalized predictive entropy to attenuate all explicit source-coupled uses in the objective. When the source posterior approaches uniformity, the gate closes: the source anchor and agreement filter vanish, and the objective reduces to a source-agnostic fallback comprising ROID's base losses plus marginal calibration. Combined with ASR, RMemSafe achieves the lowest error on of matched-split continual-corruption cells and is the best reset-based method on all , improving ROID+ASR by ~pp on ResNet-50 and ~pp on ViT-B/16. A controlled source-degradation sweep shows a shallower harm slope than ROID+ASR, consistent with the graceful-decay prediction. The entropy gate detects high-entropy source collapse, not confidently wrong low-entropy sources; this scope is explicitly evaluated and discussed.
Keywords
Cite
@article{arxiv.2605.14063,
title = {Reliability-Gated Source Anchoring for Continual Test-Time Adaptation},
author = {Vikash Singh and Debargha Ganguly and Weicong Chen and Sabyasachi Sahoo and Sreehari Sankar and Biyao Zhang and Mohsen Hariri and Shouren Wang and Osama Zafar and Christian Gagné and Vipin Chaudhary},
journal= {arXiv preprint arXiv:2605.14063},
year = {2026}
}