Anomalous Samples for Few-Shot Anomaly Detection
This work addresses anomaly detection for industrial applications where data is limited, but it is incremental as it builds on existing zero-shot and memory-based techniques.
The paper tackles the problem of binary anomaly classification in few-shot settings by proposing a method that incorporates anomalous samples into a multi-score detection framework, demonstrating effectiveness on industrial datasets.
Several anomaly detection and classification methods rely on large amounts of non-anomalous or "normal" samples under the assump- tion that anomalous data is typically harder to acquire. This hypothesis becomes questionable in Few-Shot settings, where as little as one anno- tated sample can make a significant difference. In this paper, we tackle the question of utilizing anomalous samples in training a model for bi- nary anomaly classification. We propose a methodology that incorporates anomalous samples in a multi-score anomaly detection score leveraging recent Zero-Shot and memory-based techniques. We compare the utility of anomalous samples to that of regular samples and study the benefits and limitations of each. In addition, we propose an augmentation-based validation technique to optimize the aggregation of the different anomaly scores and demonstrate its effectiveness on popular industrial anomaly detection datasets.