Resilient Practical Test-Time Adaptation: Soft Batch Normalization Alignment and Entropy-driven Memory Bank
CoRR(2024)
摘要
Test-time domain adaptation effectively adjusts the source domain model to
accommodate unseen domain shifts in a target domain during inference. However,
the model performance can be significantly impaired by continuous distribution
changes in the target domain and non-independent and identically distributed
(non-i.i.d.) test samples often encountered in practical scenarios. While
existing memory bank methodologies use memory to store samples and mitigate
non-i.i.d. effects, they do not inherently prevent potential model degradation.
To address this issue, we propose a resilient practical test-time adaptation
(ResiTTA) method focused on parameter resilience and data quality.
Specifically, we develop a resilient batch normalization with estimation on
normalization statistics and soft alignments to mitigate overfitting and model
degradation. We use an entropy-driven memory bank that accounts for timeliness,
the persistence of over-confident samples, and sample uncertainty for
high-quality data in adaptation. Our framework periodically adapts the source
domain model using a teacher-student model through a self-training loss on the
memory samples, incorporating soft alignment losses on batch normalization. We
empirically validate ResiTTA across various benchmark datasets, demonstrating
state-of-the-art performance.
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