On Some Desired Properties of Data Augmentation by Illumination Simulation for Color Constancy

Nikola Banić, Karlo Koščević, M. Subašić, S. Lončarić
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Abstract

Computational color constancy is used in almost all digital cameras to reduce the influence of scene illumination on object colors. Many of the highly accurate published illumination estimation methods use deep learning, which relies on large amounts of images with known ground-truth illuminations. Since the size of the appropriate publicly available training datasets is relatively small, data augmentation is often used also by simulating the appearance of a given image under another illumination. Still, there are practically no reports on any desired properties of such simulated images or on the limits of their usability. In this paper, several experiments for determining some of these properties are proposed and conducted by comparing the behavior of the simplest illumination estimation methods on images of the same scenes obtained under real illuminations and images obtained through data augmentation. The experimental results are presented and discussed.
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基于颜色恒定性的光照模拟数据增强的一些期望性质
几乎所有的数码相机都使用计算颜色恒定性来减少场景照明对物体颜色的影响。许多已发表的高精度照明估计方法使用深度学习,该方法依赖于具有已知地面实况照明的大量图像。由于适当的公开可用训练数据集的大小相对较小,因此还经常通过模拟给定图像在另一照明下的外观来使用数据增强。尽管如此,实际上还没有关于这种模拟图像的任何期望特性或其可用性的限制的报告。在本文中,通过比较在真实照明下获得的相同场景的图像和通过数据增强获得的图像上最简单的照明估计方法的行为,提出并进行了几个确定其中一些特性的实验。给出并讨论了实验结果。
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