零标签和多标签图像的准二分类器

Shuai Liao, E. Gavves, Changyong Oh, Cees G. M. Snoek
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引用次数: 0

摘要

softmax和二进制分类器通常是图像分类应用的首选。然而,由于softmax是专门为分类分类设计的,它假设每个图像只有一个类标签。这限制了它对标签数量不等于1的问题的适用性,尤其是零标签和多标签问题。在这些具有挑战性的环境中,理论上,二元分类器更适合。然而,由于它们忽略了类之间的相关性,因此在实践中它们不那么准确和可扩展。在本文中,我们从观察到二进制分类器和softmax分类器之间的唯一区别是它们的归一化函数开始。具体来说,当二元分类器自归一化其分数时,softmax分类器在归一化之前将所有类别的分数组合在一起。在此观察的基础上,我们引入了一个可学习的、恒定的、在类和数据点之间共享的归一化函数。通过这样做,我们得到了一种新的二元分类器,即拟二元分类器。我们在各种图像分类设置和几个数据集上显示,准二元分类器在常规二元和softmax分类器遭受损失的分类设置中表现得更好,包括零标签和多标签分类。更重要的是,我们表明准二元分类器产生良好校准的概率,允许直接和可靠的比较,不仅在类之间,而且在数据点之间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quasibinary Classifier for Images with Zero and Multiple Labels
The softmax and binary classifier are commonly preferred for image classification applications. However, as softmax is specifically designed for categorical classification, it assumes each image has just one class label. This limits its applicability for problems where the number of labels does not equal one, most notably zero- and multi-label problems. In these challenging settings, binary classifiers are, in theory, better suited. However, as they ignore the correlation between classes, they are not as accurate and scalable in practice. In this paper, we start from the observation that the only difference between binary and softmax classifiers is their normalization function. Specifically, while the binary classifier self-normalizes its score, the softmax classifier combines the scores from all classes before normalisation. On the basis of this observation we introduce a normalization function that is learnable, constant, and shared between classes and data points. By doing so, we arrive at a new type of binary classifier that we coin quasibinary classifier. We show in a variety of image classification settings, and on several datasets, that quasibinary classifiers are considerably better in classification settings where regular binary and softmax classifiers suffer, including zero-label and multi-label classification. What is more, we show that quasibinary classifiers yield well-calibrated probabilities allowing for direct and reliable comparisons, not only between classes but also between data points.
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