Transformation Pursuit for Image Classification

2014 IEEE Conference on Computer Vision and Pattern Recognition Pub Date : 2014-06-23 DOI:10.1109/CVPR.2014.466

Mattis Paulin, Jérôme Revaud, Zaïd Harchaoui, F. Perronnin, C. Schmid

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引用次数: 100

Abstract

A simple approach to learning invariances in image classification consists in augmenting the training set with transformed versions of the original images. However, given a large set of possible transformations, selecting a compact subset is challenging. Indeed, all transformations are not equally informative and adding uninformative transformations increases training time with no gain in accuracy. We propose a principled algorithm -- Image Transformation Pursuit (ITP) -- for the automatic selection of a compact set of transformations. ITP works in a greedy fashion, by selecting at each iteration the one that yields the highest accuracy gain. ITP also allows to efficiently explore complex transformations, that combine basic transformations. We report results on two public benchmarks: the CUB dataset of bird images and the ImageNet 2010 challenge. Using Fisher Vector representations, we achieve an improvement from 28.2% to 45.2% in top-1 accuracy on CUB, and an improvement from 70.1% to 74.9% in top-5 accuracy on ImageNet. We also show significant improvements for deep convnet features: from 47.3% to 55.4% on CUB and from 77.9% to 81.4% on ImageNet.

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图像分类的变换追求

在图像分类中学习不变性的一个简单方法是用原始图像的变换版本来扩充训练集。然而，给定大量可能的转换，选择一个紧凑的子集是具有挑战性的。事实上，并非所有的转换都具有相同的信息量，添加无信息量的转换会增加训练时间，但准确度却没有提高。我们提出了一个原则性的算法——图像变换追踪(ITP)——用于自动选择一组紧凑的变换。ITP以贪婪的方式工作，通过在每次迭代中选择产生最高精度增益的那个。ITP还允许有效地探索组合基本转换的复杂转换。我们报告了两个公共基准测试的结果:鸟类图像的CUB数据集和ImageNet 2010挑战。使用Fisher向量表示，我们在CUB上将前1名的准确率从28.2%提高到45.2%，在ImageNet上将前5名的准确率从70.1%提高到74.9%。我们还展示了深度卷积特征的显著改进:在CUB上从47.3%提高到55.4%，在ImageNet上从77.9%提高到81.4%。

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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2014 IEEE Conference on Computer Vision and Pattern Recognition

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