English

Toward Multi-class Anomaly Detection: Exploring Class-aware Unified Model against Inter-class Interference

Computer Vision and Pattern Recognition 2024-03-22 v1

Abstract

In the context of high usability in single-class anomaly detection models, recent academic research has become concerned about the more complex multi-class anomaly detection. Although several papers have designed unified models for this task, they often overlook the utility of class labels, a potent tool for mitigating inter-class interference. To address this issue, we introduce a Multi-class Implicit Neural representation Transformer for unified Anomaly Detection (MINT-AD), which leverages the fine-grained category information in the training stage. By learning the multi-class distributions, the model generates class-aware query embeddings for the transformer decoder, mitigating inter-class interference within the reconstruction model. Utilizing such an implicit neural representation network, MINT-AD can project category and position information into a feature embedding space, further supervised by classification and prior probability loss functions. Experimental results on multiple datasets demonstrate that MINT-AD outperforms existing unified training models.

Keywords

Cite

@article{arxiv.2403.14213,
  title  = {Toward Multi-class Anomaly Detection: Exploring Class-aware Unified Model against Inter-class Interference},
  author = {Xi Jiang and Ying Chen and Qiang Nie and Jianlin Liu and Yong Liu and Chengjie Wang and Feng Zheng},
  journal= {arXiv preprint arXiv:2403.14213},
  year   = {2024}
}
R2 v1 2026-06-28T15:28:21.829Z