Abstract
High spatial quality (HQ) optical remote sensing images are very useful for target detection, target recognition and image classification. Due to the influence of imaging equipment accuracy and atmospheric environment, HQ images are difficult to acquire, while low spatial quality (LQ) remote sensing images are very easy to acquire. Hence, denoising and super-resolution (SR) reconstruction technology are the most important solutions to improve the quality of remote sensing images very effectively, which can lower the cost as much as possible. Most existing methods usually only employ denoising or SR technology to obtain HQ images. However, due to the complex structure and the large noise of remote sensing images, the quality of the remote sensing image obtained only by denoising method or SR method cannot meet the actual needs. To address these problems, a method of reconstructing HQ remote sensing images based on Generative Adversarial Network (GAN) named “Restoration Generative Adversarial Network with ResNet and DenseNet” (RRDGAN) is proposed, which can acquire better quality images by incorporating denoising and SR into a unified framework. The generative network is implemented by fusing Residual Neural Network (ResNet) and Dense Convolutional Network (DenseNet) in order to consider denoising and SR problems at the same time. Then, total variation (TV) regularization is used to furthermore enhance the edge details, and the idea of Relativistic GAN is explored to make the whole network converge better. Our RRDGAN is implemented in wavelet transform (WT) domain, since different frequency parts could be handled separately in the wavelet domain. The experimental results on three different remote sensing datasets shows the feasibility of our proposed method in acquiring remote sensing images.
Highlights
IntroductionHigh spatial quality (HQ) optical remote sensing images have the characteristics of high spatial resolution (HR) and low noise, which can be widely used in agricultural and forestry monitoring, urban planning, military reconnaissance and other fields
That, considering most of the remote sensing image denoising and SR methods are carried out directly in the spatial domain and processing different frequency parts of a remote sensing image is the key step to both denoising and SR reconstruction, so to improve the performance of our methods, RRDGAN is implemented in wavelet transform (WT) domain instead of directly in spatial domain
RRDGAN is implemented in WT domain, which could handle different parts of Low spatial resolution (LR)
Summary
High spatial quality (HQ) optical remote sensing images have the characteristics of high spatial resolution (HR) and low noise, which can be widely used in agricultural and forestry monitoring, urban planning, military reconnaissance and other fields. The time and cost of development and the vulnerability of the image to changes in atmosphere and light are the reasons for the acquisition of a large number of low spatial quality (LQ) remote sensing images. How to obtain HQ images economically and conveniently has been a major challenge in the field of remote sensing.
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