Litcius/Paper detail

Hue-Correction Scheme Based on Constant-Hue Plane for Deep-Learning-Based Color-Image Enhancement

Yuma Kinoshita, Hitoshi Kiya

2020IEEE Access32 citationsDOIOpen Access PDF

Abstract

In this paper, we propose a novel hue-correction scheme based on the constant-hue plane in the RGB color space for deep-learning-based color-image enhancement. Existing hue-preserving image-enhancement methods cannot be applied to state-of-the-art enhancement methods such as deep-learning-based ones. Our main contributions are a discussion on the enhancement performance and the hue distortion of existing image-enhancement methods as well as the first attempt to make hue correction applicable to any existing image-enhancement methods including deep-learning-based ones. This novel scheme is carried out on the basis of the constant-hue plane in the RGB color space. In simulations, we first evaluated conventional image-enhancement methods in terms of the enhancement performance and hue distortion by using five objective metrics: the maximally saturated color similarity, the hue difference in CIEDE2000, discrete entropy, HIGRADE, and NIQMC. The experimental results show that recent deep-learning-based methods have a higher enhancement performance but cause images to be hue-distorted. In addition, the proposed scheme is demonstrated to be effective for suppressing hue distortion even under the use of deep-learning-based enhancement methods. Furthermore, it allows us not only to correct hue but also to maintain the performance of image-enhancement methods.

Topics & Concepts

HueRGB color modelArtificial intelligenceColor spaceRGB color spaceComputer visionComputer scienceDistortion (music)MathematicsColor imagePattern recognition (psychology)Image (mathematics)Image processingComputer networkAmplifierBandwidth (computing)Image Enhancement TechniquesAdvanced Image Processing TechniquesImage and Signal Denoising Methods