Yuzhi Zhao scite author profile

This paper reviews the second challenge on spectral reconstruction from RGB images, i.e., the recovery of wholescene hyperspectral (HS) information from a 3-channel RGB image. As in the previous challenge, two tracks were provided: (i) a "Clean" track where HS images are estimated from noise-free RGBs, the RGB images are themselves calculated numerically using the ground-truth HS images and supplied spectral sensitivity functions (ii) a "Real World" track, simulating capture by an uncalibrated and unknown camera, where the HS images are recovered from noisy JPEG-compressed RGB images. A new, larger-than-ever, natural hyperspectral image data set is presented, containing a total of 510 HS images. The Clean and Real World tracks had 103 and 78 registered participants respectively, with 14 teams competing in the final testing phase. A description of the proposed methods, alongside their challenge scores and an extensive evaluation of top performing methods is also provided. They gauge the state-of-the-art in spectral reconstruction from an RGB image.

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Hierarchical Regression Network for Spectral Reconstruction from RGB Images

Zhao

Yan³

et al. 2020

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NTIRE 2020 Challenge on Real Image Denoising: Dataset, Methods and Results

Abdelhamed¹,

Afifi²,

Timofte³

et al. 2020

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SCGAN: Saliency Map-Guided Colorization With Generative Adversarial Network

Zhao

Cheung

et al. 2021

IEEE Trans. Circuits Syst. Video Technol.

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Given a grayscale photograph, the colorization system estimates a visually plausible colorful image. Conventional methods often use semantics to colorize grayscale images. However, in these methods, only classification semantic information is embedded, resulting in semantic confusion and color bleeding in the final colorized image. To address these issues, we propose a fully automatic Saliency Map-guided Colorization with Generative Adversarial Network (SCGAN) framework. It jointly predicts the colorization and saliency map to minimize semantic confusion and color bleeding in the colorized image. Since the global features from pre-trained VGG-16-Gray network are embedded to the colorization encoder, the proposed SCGAN can be trained with much less data than state-of-the-art methods to achieve perceptually reasonable colorization. In addition, we propose a novel saliency map-based guidance method. Branches of the colorization decoder are used to predict the saliency map as a proxy target. Moreover, two hierarchical discriminators are utilized for the generated colorization and saliency map, respectively, in order to strengthen visual perception performance. The proposed system is evaluated on ImageNet validation set. Experimental results show that SCGAN can generate more reasonable colorized images than state-of-the-art techniques.

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AIM 2020 Challenge on Efficient Super-Resolution: Methods and Results

Zhang

Danelljan

et al. 2020

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Densely Self-guided Wavelet Network for Image Denoising

Liu¹,

Yan²,

Zhao

2020

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Lightweight Single-Image Super-Resolution Network with Attentive Auxiliary Feature Learning

Wang

Zhao

et al. 2021

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AIM 2019 Challenge on RAW to RGB Mapping: Methods and Results

Ignatov

Zhang

et al. 2019

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Yuzhi Zhao

NTIRE 2020 Challenge on Spectral Reconstruction from an RGB Image

Hierarchical Regression Network for Spectral Reconstruction from RGB Images

NTIRE 2020 Challenge on Real Image Denoising: Dataset, Methods and Results

SCGAN: Saliency Map-Guided Colorization With Generative Adversarial Network

AIM 2020 Challenge on Efficient Super-Resolution: Methods and Results

Densely Self-guided Wavelet Network for Image Denoising

Lightweight Single-Image Super-Resolution Network with Attentive Auxiliary Feature Learning

AIM 2019 Challenge on RAW to RGB Mapping: Methods and Results

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