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المرشدKiranyaz, Mustafa Serkan
المؤلفMiqdad, Hassan H.
تاريخ الإتاحة2019-03-11T10:40:46Z
تاريخ النشر2018-06
معرّف المصادر الموحدhttp://hdl.handle.net/10576/11389
الملخصComputational color constancy refers to the problem of estimating the color of the scene illumination in a color image, followed by color correction of the image through a white balancing process so that the colors of the image will be viewed as if the image was captured under a neutral white light source, and hence producing a plausible natural looking image. The illuminant estimation part is still a challenging task due to the ill-posed nature of the problem, and many methods have been proposed in the literature while each follows a certain approach in an attempt to improve the performance of the Auto-white balancing system for accurately estimating the illumination color for better image correction. These methods can typically be categorized into static-based and learning-based methods. Most of the proposed methods follow the learning-based approach because of its higher estimation accuracy compared to the former which relies on simple assumptions. While many of those learning-based methods show a satisfactory performance in general, they are built upon extracting handcrafted features which require a deep knowledge of the color image processing. More recent learning-based methods have shown higher improvements in illuminant estimation through using Deep Learning (DL) systems presented by the Convolutional Neural Networks (CNNs) that automatically learned to extract useful features from the given image dataset. In this thesis, we present a highly effective Deep Learning approach which treats the illuminant estimation problem as an illuminant classification task by learning a Convolutional Neural Network to classify input images belonging to certain pre-defined illuminant classes. Then, the output of the CNN which is in the form of class probabilities is used for computing the illuminant color estimate. Since training a deep CNN requires large number of training examples to avoid the “overfitting” problem, most of the recent CNN-based illuminant estimation methods attempted to overcome the limited number of images in the benchmark illuminant estimation dataset by sampling input images to multiple smaller patches as a way of data augmentation, but this can adversely affect the CNN training performance because some of these patches may not contain any semantic information and therefore, can be considered as noisy examples for the CNN that can lead to estimation ambiguity. However, in this thesis, we propose a novel approach for dataset augmentation through synthesizing images with different illuminations using the ground-truth illuminant color of other training images, which enhanced the performance of the CNN training compared to similar previous methods. Experimental results on the standard illuminant estimation benchmark dataset show that the proposed solution outperforms most of the previous illuminant estimation methods and show a competitive performance to the state-of-the-art methods.
اللغةen
الموضوعDEEP LEARNING
العنوانIlluminant Estimation By Deep Learning
النوعMaster Thesis
التخصصElectrical Engineering
dc.accessType Open Access


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