STAMP: Outlier-Aware Test-Time Adaptation with Stable Memory Replay
This addresses the challenge of open-world inference for machine learning systems by enabling robust adaptation during deployment, though it is incremental as it builds on prior TTA work.
The paper tackles the problem of test-time adaptation in the presence of unknown class outliers, proposing STAMP to improve both recognition and outlier detection performance, with results showing it outperforms existing methods.
Test-time adaptation (TTA) aims to address the distribution shift between the training and test data with only unlabeled data at test time. Existing TTA methods often focus on improving recognition performance specifically for test data associated with classes in the training set. However, during the open-world inference process, there are inevitably test data instances from unknown classes, commonly referred to as outliers. This paper pays attention to the problem that conducts both sample recognition and outlier rejection during inference while outliers exist. To address this problem, we propose a new approach called STAble Memory rePlay (STAMP), which performs optimization over a stable memory bank instead of the risky mini-batch. In particular, the memory bank is dynamically updated by selecting low-entropy and label-consistent samples in a class-balanced manner. In addition, we develop a self-weighted entropy minimization strategy that assigns higher weight to low-entropy samples. Extensive results demonstrate that STAMP outperforms existing TTA methods in terms of both recognition and outlier detection performance. The code is released at https://github.com/yuyongcan/STAMP.