Liu, X., Wang, J., Leng, B., & Zhang, S. (2024). Dual-Modeling Decouple Distillation for Unsupervised Anomaly Detection. In Proceedings of the 32nd ACM International Conference on Multimedia (MM ’24), October 28-November 1, 2024, Melbourne, VIC, Australia. ACM, New York, NY, USA, 10 pages. https://doi.org/10.1145/3664647.3681669
This paper addresses the challenge of unsupervised anomaly detection in images, aiming to improve the localization accuracy of anomalies, particularly at both the edges and centers, by proposing a novel knowledge distillation-based method called Dual-Modeling Decouple Distillation (DMDD).
The proposed DMDD method utilizes a decoupled student-teacher network architecture, where the student network features are decoupled into normality and abnormality branches.
A dual-modeling distillation strategy is employed, consisting of Normality Guidance Modeling (NGM) and Abnormality Inverse Mimicking (AIM), to refine the decoupled features.
NGM guides the normality feature generation using teacher features, while AIM maximizes the distance between student and teacher features in anomalous regions.
Finally, a Multi-perception Segmentation Network fuses the anomaly maps from different stages, incorporating channel and spatial attention mechanisms for precise localization.
Experimental results on the MVTec AD, BTAD, and MPDD datasets demonstrate that DMDD significantly outperforms existing knowledge distillation-based methods for unsupervised anomaly detection.
Specifically, DMDD achieves state-of-the-art localization performance, surpassing previous methods in terms of pixel-level AUC and PRO metrics.
The ablation studies confirm the effectiveness of the proposed decoupled architecture, dual-modeling distillation, and multi-perception segmentation network.
The authors conclude that the proposed DMDD method effectively addresses the limitations of existing knowledge distillation-based approaches for unsupervised anomaly detection by:
This research significantly contributes to the field of unsupervised anomaly detection by proposing a novel and effective knowledge distillation-based method that achieves state-of-the-art localization performance.
The proposed DMDD method has the potential to improve the accuracy and reliability of anomaly detection systems in various applications, including industrial inspection, medical imaging, and surveillance.
While DMDD demonstrates promising results, future research could explore:
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by Xinyue Liu, ... a las arxiv.org 10-16-2024
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