Unsupervised Anomaly Detection
Unsupervised anomaly detection aims to identify unusual data points without relying on labeled examples, focusing on learning the characteristics of normal data to distinguish deviations. Current research emphasizes developing robust models using architectures like autoencoders, diffusion probabilistic models, and graph neural networks, often incorporating techniques such as test-time adaptation, knowledge distillation, and generative adversarial networks to improve accuracy and efficiency. This field is crucial for various applications, including medical image analysis, industrial quality control, and cybersecurity, where detecting rare events is critical but labeled data is scarce or expensive to obtain. The development of more efficient and interpretable methods remains a key focus.
Papers
Diffusion Models with Ensembled Structure-Based Anomaly Scoring for Unsupervised Anomaly Detection
Finn Behrendt, Debayan Bhattacharya, Lennart Maack, Julia Krüger, Roland Opfer, Robin Mieling, Alexander Schlaefer
SoftPatch: Unsupervised Anomaly Detection with Noisy Data
Xi Jiang, Ying Chen, Qiang Nie, Yong Liu, Jianlin Liu, Bin-Bin Gao, Jun Liu, Chengjie Wang, Feng Zheng
Adversarial Denoising Diffusion Model for Unsupervised Anomaly Detection
Jongmin Yu, Hyeontaek Oh, Jinhong Yang
Guided Reconstruction with Conditioned Diffusion Models for Unsupervised Anomaly Detection in Brain MRIs
Finn Behrendt, Debayan Bhattacharya, Robin Mieling, Lennart Maack, Julia Krüger, Roland Opfer, Alexander Schlaefer