In this paper, a simple and totally unsupervised image-based procedure is derived for the alignment of interpolated multispectral (MS) bands over the panchromatic (Pan) image. Key point of the method is the pixel-varying residue of the multivariate regression between interpolated MS bands and lowpass-filtered Pan image that is used for component-substitution (CS) pansharpening to produce a minimum mean squared error (MMSE) intensity component. Such a residue locally measures the misalignment between the datasets and, once it has been properly weighted by the projection coefficient of the MMSE intensity onto the kth band, the overlap of the lowpass and highpass components of the scene is recovered. Experiments performed on simulated Pleiades and true GeoEye-1 images show that local shifts, reasonably around two or three pixels in each direction, can be largely mitigated. The coefficient of determination (CD) of the multivariate regression of interpolated MS images to lowpass filtered Pan is used to globally quantify the alignment of datasets before and after the proposed pre-processing patch. The CD of the multivariate regression of pansharpened MS bands to original high-resolution Pan is a consistent full-scale measure of spatial quality of pansharpened products.

Deployment of pansharpening for correction of local misalignments between MS and Pan / Aiazzi, B.; Alparone, L.; Arienzo, A.; Baronti, S.; Garzelli, A.; Santurri, L.. - ELETTRONICO. - 10789:(2018), pp. 1-11. (Intervento presentato al convegno Image and Signal Processing for Remote Sensing XXIV 2018 tenutosi a Berlin, Germany nel 10-12 September 2018) [10.1117/12.2326611].

Deployment of pansharpening for correction of local misalignments between MS and Pan

Alparone, L.;ARIENZO, ALBERTO;
2018

Abstract

In this paper, a simple and totally unsupervised image-based procedure is derived for the alignment of interpolated multispectral (MS) bands over the panchromatic (Pan) image. Key point of the method is the pixel-varying residue of the multivariate regression between interpolated MS bands and lowpass-filtered Pan image that is used for component-substitution (CS) pansharpening to produce a minimum mean squared error (MMSE) intensity component. Such a residue locally measures the misalignment between the datasets and, once it has been properly weighted by the projection coefficient of the MMSE intensity onto the kth band, the overlap of the lowpass and highpass components of the scene is recovered. Experiments performed on simulated Pleiades and true GeoEye-1 images show that local shifts, reasonably around two or three pixels in each direction, can be largely mitigated. The coefficient of determination (CD) of the multivariate regression of interpolated MS images to lowpass filtered Pan is used to globally quantify the alignment of datasets before and after the proposed pre-processing patch. The CD of the multivariate regression of pansharpened MS bands to original high-resolution Pan is a consistent full-scale measure of spatial quality of pansharpened products.
2018
Proceedings of SPIE - The International Society for Optical Engineering
Image and Signal Processing for Remote Sensing XXIV 2018
Berlin, Germany
10-12 September 2018
Aiazzi, B.; Alparone, L.; Arienzo, A.; Baronti, S.; Garzelli, A.; Santurri, L.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1148328
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