Where's Wally Now? Deep Generative and Discriminative Embeddings for Novelty Detection

P. Burlina, Neil J. Joshi, I-J. Wang
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引用次数: 32

Abstract

We develop a framework for novelty detection (ND) methods relying on deep embeddings, either discriminative or generative, and also propose a novel framework for assessing their performance. While much progress was made recently in these approaches, it has been accompanied by certain limitations: most methods were tested on relatively simple problems (low resolution images / small number of classes) or involved non-public data; comparative performance has often proven inconclusive because of lacking statistical significance; and evaluation has generally been done on non-canonical problem sets of differing complexity, making apples-to-apples comparative performance evaluation difficult. This has led to a relative confusing state of affairs. We address these challenges via the following contributions: We make a proposal for a novel framework to measure the performance of novelty detection methods using a trade-space demonstrating performance (measured by ROCAUC) as a function of problem complexity. We also make several proposals to formally characterize problem complexity. We conduct experiments with problems of higher complexity (higher image resolution / number of classes). To this end we design several canonical datasets built from CIFAR-10 and ImageNet (IN-125) which we make available to perform future benchmarks for novelty detection as well as other related tasks including semantic zero/adaptive shot and unsupervised learning. Finally, we demonstrate, as one of the methods in our ND framework, a generative novelty detection method whose performance exceeds that of all recent best-in-class generative ND methods.
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沃利现在在哪里?基于深度生成和判别嵌入的新颖性检测
我们开发了一个基于深度嵌入的新颖性检测(ND)方法框架,无论是判别式的还是生成式的,并且还提出了一个评估其性能的新框架。虽然这些方法最近取得了很大进展,但也有一定的局限性:大多数方法都是在相对简单的问题上进行测试的(低分辨率图像/少量类别)或涉及非公开数据;由于缺乏统计意义,比较绩效往往被证明是不确定的;评估通常是在不同复杂程度的非规范问题集上进行的,这使得苹果对苹果的比较性能评估变得困难。这导致了一种相对混乱的局面。我们通过以下贡献来解决这些挑战:我们提出了一个新的框架,使用贸易空间展示性能(由ROCAUC测量)作为问题复杂性的函数来衡量新颖性检测方法的性能。我们还提出了几个形式化描述问题复杂性的建议。我们针对更复杂的问题(更高的图像分辨率/类别数量)进行实验。为此,我们设计了几个由CIFAR-10和ImageNet (IN-125)构建的规范数据集,我们可以使用这些数据集来执行未来的新颖性检测基准以及其他相关任务,包括语义零/自适应射击和无监督学习。最后,作为我们的ND框架中的方法之一,我们证明了一种生成新颖性检测方法,其性能超过了最近所有同类最佳的生成ND方法。
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