Though anomaly detection (AD) can be viewed as a classification problem (nominal vs. anomalous) it is usually treated in an unsupervised manner since one typically does not have access to, or it is infeasible to utilize, a dataset that sufficiently characterizes what it means to be "anomalous." In this paper we present results demonstrating that this intuition surprisingly seems not to extend to deep AD on images. For a recent AD benchmark on ImageNet, classifiers trained to discern between normal samples and just a few (64) random natural images are able to outperform the current state of the art in deep AD. Experimentally we discover that the multiscale structure of image data makes example anomalies exceptionally informative.
翻译:虽然异常点检测(AD)可以被视为一个分类问题(名词对异常点),但它通常以不受监督的方式处理,因为一个人通常无法或无法使用一个能够充分描述其意思是“有色人种”的数据集。 在本文中,我们介绍了结果,表明这种直觉似乎并不令人惊讶地延伸至图像上的深度反常。对于最近一个图像网的AD基准,受过训练能够辨别正常样本和少数(64)随机自然图像的分类人员能够超越深层AD的当前艺术状态。 我们实验性地发现,图像数据的多尺度结构使得异常现象非常明显。
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