Frequency perturbation analysis for anomaly detection using Fourier heat map

International Conference on Quality Control by Artificial Vision Pub Date : 2023-07-28 DOI:10.1117/12.2690078

Yoshikazu Hayashi, Hiroaki Aizawa, Shunsuke Nakatsuka, K. Kato

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Abstract

Anomaly detection is an essential task within an industry domain, and sophisticated approaches have been proposed. PaDiM has a promising direction, utilizing ImageNet-pretrained convolutional neural networks without expensive training costs. However, the cues and biases utilized by PaDiM, i.e., shape-vs-texture bias in an anomaly detection process, are unclear. To reveal the bias, we proposed to apply frequency analysis to PaDiM. For frequency analysis, we use a Fourier Heat Map that investigates the sensitivity of the anomaly detection model to input noise in the frequency domain. As a result, we found that PaDiM utilizes texture information as a cue for anomaly detection, similar to the classification models. Based on this preliminary experiment, we propose a shape-aware Stylized PaDiM. Our model is a PaDiM that uses pre-trained weights learned on Stylized ImageNet instead of ImageNet. In the experiments, we confirmed that Stylized PaDiM improves the robustness of high-frequency perturbations. Stylized PaDiM also achieved higher performance than PaDiM for anomaly detection in clean images of MVTecAD.

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傅立叶热图异常检测的频率摄动分析

异常检测是工业领域的一项重要任务，已经提出了复杂的方法。PaDiM有一个很有前途的方向，利用imagenet预训练的卷积神经网络，而不需要昂贵的训练成本。然而，PaDiM在异常检测过程中使用的线索和偏差，即形状对纹理的偏差，尚不清楚。为了揭示偏倚，我们提出对PaDiM进行频率分析。对于频率分析，我们使用傅立叶热图来研究异常检测模型对频域输入噪声的敏感性。结果表明，PaDiM利用纹理信息作为异常检测的线索，类似于分类模型。在此初步实验的基础上，我们提出了一种形状感知的程式化PaDiM。我们的模型是一个PaDiM，它使用在程式化ImageNet上学习的预训练权重，而不是ImageNet。在实验中，我们证实了程式化的PaDiM提高了高频扰动的鲁棒性。在MVTecAD的干净图像中，程式化的PaDiM也取得了比PaDiM更高的异常检测性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Conference on Quality Control by Artificial Vision

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