一种用于领域泛化的简单特征增强

Pan Li, Da Li, Wei Li, S. Gong, Yanwei Fu, Timothy M. Hospedales
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引用次数: 95

摘要

主题域泛化(DG)问题要求经过训练的模型在一个不可见的目标域上表现良好,并且具有与源训练域不同的数据统计。在计算机视觉中,数据增强已被证明是更好地利用源数据来提高领域泛化的最有效方法之一。然而,现有的方法主要依赖于图像空间数据增强,这需要仔细的增强设计,并且提供有限的增强数据多样性。我们认为特征增强是DG更有前途的方向。我们发现,在训练过程中用高斯噪声扰动特征嵌入的一种非常简单的技术可以使分类器具有与现有技术相当的领域泛化性能。为了建立反映跨域可变性的更有意义的统计模型,我们在训练过程中进一步迭代估计完整的类条件特征协方差矩阵。随后的联合随机特征增强提供了一种有效的域随机化方法,在类内/跨域可变性方向上扰动特征。我们在三个标准域泛化基准(digital - dg, VLCS和PACS)上验证了我们提出的方法,并表明它在所有设置中都优于或可与最先进的状态相媲美,并通过实验分析来说明我们的方法如何训练稳健的泛化模型。
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A Simple Feature Augmentation for Domain Generalization
The topical domain generalization (DG) problem asks trained models to perform well on an unseen target domain with different data statistics from the source training domains. In computer vision, data augmentation has proven one of the most effective ways of better exploiting the source data to improve domain generalization. However, existing approaches primarily rely on image-space data augmentation, which requires careful augmentation design, and provides limited diversity of augmented data. We argue that feature augmentation is a more promising direction for DG. We find that an extremely simple technique of perturbing the feature embedding with Gaussian noise during training leads to a classifier with domain-generalization performance comparable to existing state of the art. To model more meaningful statistics reflective of cross-domain variability, we further estimate the full class-conditional feature covariance matrix iteratively during training. Subsequent joint stochastic feature augmentation provides an effective domain randomization method, perturbing features in the directions of intra-class/cross-domain variability. We verify our proposed method on three standard domain generalization benchmarks, Digit-DG, VLCS and PACS, and show it is outperforming or comparable to the state of the art in all setups, together with experimental analysis to illustrate how our method works towards training a robust generalisable model.
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