Stefano Baronti scite author profile

This paper compares two general and formal solutions to the problem of fusion of multispectral images with high-resolution panchromatic observations. The former exploits the undecimated discrete wavelet transform, which is an octave bandpass representation achieved from a conventional discrete wavelet transform by omitting all decimators and upsampling the wavelet filter bank. The latter relies on the generalized Laplacian pyramid, which is another oversampled structure obtained by recursively subtracting from an image an expanded decimated lowpass version. Both the methods selectively perform spatial-frequencies spectrum substitution from an image to another. In both schemes, context dependency is exploited by thresholding the local correlation coefficient between the images to be merged, to avoid injection of spatial details that are not likely to occur in the target image. Unlike other multiscale fusion schemes, both the present decompositions are not critically subsampled, thus avoiding possible impairments in the fused images, due to missing cancellation of aliasing terms. Results are presented and discussed on SPOT data

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MTF-tailored Multiscale Fusion of High-resolution MS and Pan Imagery

Aiazzi¹,

Alparone²,

Baronti³

et al. 2006

photogramm eng remote sensing

732

388

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Multispectral and Panchromatic Data Fusion Assessment Without Reference

Alparone¹,

Aiazzi²,

Baronti³

et al. 2008

photogramm eng remote sensing

694

285

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This paper introduces a novel approach for evaluating the quality of pansharpened multispectral (MS) imagery without resorting to reference originals. Hence, evaluations are feasible at the highest spatial resolution of the panchromatic (PAN) sensor. Wang and Bovik's image quality index (QI) provides a statistical similarity measurement between two monochrome images. The QI values between any couple of MS bands are calculated before and after fusion and used to define a measurement of spectral distortion. Analogously, QI values between each MS band and the PAN image are calculated before and after fusion to yield a measurement of spatial distortion. The rationale is that such QI values should be unchanged after fusion, i.e., when the spectral information is translated from the coarse scale of the MS data to the fine scale of the PAN image. Experimental results, carried out on very high-resolution Ikonos data and simulated Pléiades data, demonstrate that the results provided by the proposed approach are consistent and in trend with analysis performed on spatially degraded data. However, the proposed method requires no reference originals and is therefore usable in all practical cases.

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Remote sensing image fusion using the curvelet transform

et al. 2007

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Stefano Baronti

Improving Component Substitution Pansharpening Through Multivariate Regression of MS $+$Pan Data

Context-driven fusion of high spatial and spectral resolution images based on oversampled multiresolution analysis

MTF-tailored Multiscale Fusion of High-resolution MS and Pan Imagery

Multispectral and Panchromatic Data Fusion Assessment Without Reference

Remote sensing image fusion using the curvelet transform

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