Abstract
Pansharpening (PS) is a process used to generate high-resolution multispectral (MS) images from high-spatial-resolution panchromatic (PAN) and high-spectral-resolution multispectral images. In this paper, we propose a method for pansharpening by focusing on a compressed sensing (CS) technique. The spectral reproducibility of the CS technique is high due to its image reproducibility, but the reproduced image is blurry. Although methods of complementing this incomplete reproduction have been proposed, it is known that the existing method may cause ringing artifacts. On the other hand, component substitution is another technique used for pansharpening. It is expected that the spatial resolution of the images generated by this technique will be as high as that of the high-resolution PAN image, because the technique uses the corrected intensity calculated from the PAN image. Based on these facts, the proposed method fuses the intensity obtained by the component substitution method and the intensity obtained by the CS technique to move the spatial resolution of the reproduced image close to that of the PAN image while reducing the spectral distortion. Experimental results showed that the proposed method can reduce spectral distortion and maintain spatial resolution better than the existing methods.
Highlights
The optical sensors installed in satellites acquire panchromatic (PAN) and multispectral (MS)region images
We proposed a method for pansharpening based on compressed sensing (CS) theory
The intensity obtained from the component substitution method and the intensity obtained via the method based on CS theory are fused to reproduce the intensity close to the original
Summary
The optical sensors installed in satellites acquire panchromatic (PAN) and multispectral (MS). PAN sensors observe a wide range of visible and near-infrared (NIR) regions as one band with a high spatial resolution, and the MS sensor observes multiple bands. Pansharpening (PS) is a method used to generate a high-resolution MS images from these two types of data. Due to physical constraints [1], MS sensors are not designed to acquire high-resolution images. High-resolution MS images are obtained via the pansharpening process. PS techniques are used for change detection, target recognition, classification, backgrounds for map application, visual image analysis, etc
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