Kouki Seo scite author profile

We propose a novel hue-preserving tone mapping scheme. Various tone mapping operations have been studied so far, but there are very few works on color distortion caused in image tone mapping. First, LDR images produced from HDR ones by using conventional tone mapping operators (TMOs) are pointed out to have some distortion in hue values due to clipping and rounding quantization processing. Next,we propose a novel method which allows LDR images to have the same maximally saturated color values as those of HDR ones. Generated LDR images by the proposed method have smaller hue degradation than LDR ones generated by conventional TMOs. Moreover, the proposed method is applicable to any TMOs. In an experiment, the proposed method is demonstrated not only to produce images with small hue degradation but also to maintain well-mapped luminance, in terms of three objective metrics: TMQI, hue value in CIEDE2000, and the maximally saturated color on the constanthue plane in the RGB color space.

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Deep Retinex Network for Estimating Illumination Colors with Self-Supervised Learning

Seo

Kinoshita

Kiya

2021

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We propose a novel Retinex image-decomposition network that can be trained in a self-supervised manner. The Retinex image-decomposition aims to decompose an image into illumination-invariant and illumination-variant components, referred to as "reflectance" and "shading," respectively. Although there are three consistencies that the reflectance and shading should satisfy, most conventional work considers only one or two of the consistencies. For this reason, the three consistencies are considered in the proposed network. In addition, by using generated pseudo-images for training, the proposed network can be trained with self-supervised learning. Experimental results show that our network can decompose images into reflectance and shading components. Furthermore, it is shown that the proposed network can be used for white-balance adjustment.

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Hue Correction Scheme for Multi-Exposure Image Fusion Considering Hue Distortion in Input Images

Seo

Kinoshita

et al. 2020

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We propose a novel hue-correction scheme for multiexposure image fusion (MEF). Various MEF methods have so far been studied to generate higher-quality images. However, there are few MEF methods considering hue distortion unlike other fields of image processing, due to a lack of a reference image that has correct hue. In the proposed scheme, we generate an HDR image as a reference for hue correction, from input multi-exposure images. After that, hue distortion in an image fused by an MEF method is removed by using hue information of the HDR one, on the basis of the constant-hue plane in the RGB color space. In simulations, the proposed scheme is demonstrated to be effective to correct hue-distortion caused by conventional MEF methods. Experimental results also show that the proposed scheme can generate high-quality images, regardless of exposure conditions of input multi-exposure images.

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Hue-Correction Scheme Considering Non-Linear Camera Response for Multi-Exposure Image Fusion

Seo¹,

Go²,

Kinoshita³

et al. 2020

IEICE Trans. Fundamentals

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We propose a novel hue-correction scheme for multi-exposure image fusion (MEF). Various MEF methods have so far been studied to generate higher-quality images. However, there are few MEF methods considering hue distortion unlike other fields of image processing, due to a lack of a reference image that has correct hue. In the proposed scheme, we generate an HDR image as a reference for hue correction, from input multi-exposure images. After that, hue distortion in images fused by an MEF method is removed by using hue information of the HDR one, on the basis of the constant-hue plane in the RGB color space. In simulations, the proposed scheme is demonstrated to be effective to correct hue-distortion caused by conventional MEF methods. Experimental results also show that the proposed scheme can generate high-quality images, regardless of exposure conditions of input multi-exposure images.

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Deep Retinex Network for Estimating Illumination Colors with Self-Supervised Learning

Seo

Kinoshita

Kiya

2021

Preprint

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Kouki Seo

A Hue-Preserving Tone Mapping Scheme Based on Constant-Hue Plane Without Gamut Problem

Deep Retinex Network for Estimating Illumination Colors with Self-Supervised Learning

Hue Correction Scheme for Multi-Exposure Image Fusion Considering Hue Distortion in Input Images

Hue-Correction Scheme Considering Non-Linear Camera Response for Multi-Exposure Image Fusion

Deep Retinex Network for Estimating Illumination Colors with Self-Supervised Learning

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