High-Fidelity Zero-Shot Texture Anomaly Localization Using Feature Correspondence Analysis
Abstract
We propose a novel method for Zero-Shot Anomaly Localization on textures. The task refers to identifying abnormal regions in an otherwise homogeneous image. To obtain a high-fidelity localization, we leverage a bijective mapping derived from the 1-dimensional Wasserstein Distance. As opposed to using holistic distances between distributions, the proposed approach allows pinpointing the non-conformity of a pixel in a local context with increased precision. By aggregating the contribution of the pixel to the errors of all nearby patches we obtain a reliable anomaly score estimate. We validate our solution on several datasets and obtain more than a 40% reduction in error over the previous state of the art on the MVTec AD dataset in a zero-shot setting. Also see https://reality.tf.fau.de/pub/ardelean2024highfidelity.html.
Cite
Text
Ardelean and Weyrich. "High-Fidelity Zero-Shot Texture Anomaly Localization Using Feature Correspondence Analysis." Winter Conference on Applications of Computer Vision, 2024.Markdown
[Ardelean and Weyrich. "High-Fidelity Zero-Shot Texture Anomaly Localization Using Feature Correspondence Analysis." Winter Conference on Applications of Computer Vision, 2024.](https://mlanthology.org/wacv/2024/ardelean2024wacv-highfidelity/)BibTeX
@inproceedings{ardelean2024wacv-highfidelity,
title = {{High-Fidelity Zero-Shot Texture Anomaly Localization Using Feature Correspondence Analysis}},
author = {Ardelean, Andrei-Timotei and Weyrich, Tim},
booktitle = {Winter Conference on Applications of Computer Vision},
year = {2024},
pages = {1134-1144},
url = {https://mlanthology.org/wacv/2024/ardelean2024wacv-highfidelity/}
}