Approaching the Computational Color Constancy as a Classification Problem through Deep Learning
August 29, 2016 Β· Declared Dead Β· π Pattern Recognition
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Authors
Seoung Wug Oh, Seon Joo Kim
arXiv ID
1608.07951
Category
cs.CV: Computer Vision
Citations
104
Venue
Pattern Recognition
Last Checked
4 months ago
Abstract
Computational color constancy refers to the problem of computing the illuminant color so that the images of a scene under varying illumination can be normalized to an image under the canonical illumination. In this paper, we adopt a deep learning framework for the illumination estimation problem. The proposed method works under the assumption of uniform illumination over the scene and aims for the accurate illuminant color computation. Specifically, we trained the convolutional neural network to solve the problem by casting the color constancy problem as an illumination classification problem. We designed the deep learning architecture so that the output of the network can be directly used for computing the color of the illumination. Experimental results show that our deep network is able to extract useful features for the illumination estimation and our method outperforms all previous color constancy methods on multiple test datasets.
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