Covariance-Aware Feature Alignment with Pre-Computed Source Statistics for Test-Time Adaptation to Multiple Image Corruptions

• Published in: 2023 IEEE International Conference on Image Processing (ICIP) pp. 800 - 804
• Main Authors: Adachi, Kazuki, Yamaguchi, Shin'Ya, Kumagai, Atsutoshi
• Format: Conference Proceeding
• Language: English
• Published: IEEE 08.10.2023
• Subjects: Adaptation models; Face recognition; Feature extraction; image corruption; Image recognition; Neural network; Predictive models; test-time adaptation; Training; Urban areas
• DOI: 10.1109/ICIP49359.2023.10222901

Real-world image recognition systems often face corrupted input images, which cause distribution shifts and degrade the performance of models. These systems often use a single prediction model in a central server and process images sent from various environments, such as cameras distributed in cities or cars. Such single models face images corrupted in heterogeneous ways in test time. Thus, they require to instantly adapt to the multiple corruptions during testing rather than being re-trained at a high cost. Test-time adaptation (TTA), which aims to adapt models without accessing the training dataset, is one of the settings that can address this problem. Existing TTA methods indeed work well on a single corruption. However, the adaptation ability is limited when multiple types of corruption occur, which is more realistic. We hypothesize this is because the distribution shift is more complicated, and the adaptation becomes more difficult in case of multiple corruptions. In fact, we experimentally found that a larger distribution gap remains after TTA. To address the distribution gap during testing, we propose a novel TTA method named Covariance-Aware Feature alignment (CAFe). We empirically show that CAFe outperforms prior TTA methods on image corruptions, including multiple types of corruptions.