Fusion of hyperspectral and multispectral infrared astronomical images
Claire Guilloteau, Thomas Oberlin, Olivier Berné, Nicolas Dobigeon
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11 Jun 2020
This paper presents a data fusion method dedicated to high dimensional astronomical imaging. The fusion process reconstructs a high spatio-spectral resolution datacube, taking advantage of a multispectral observation image with high spatial resolution and a hyperspectral image with high spectral resolution.
We define a regularized inverse problem accounting for the specificities of the astronomical observation instruments, as spectrally variant blurs. To handle convolution operators as well as the high dimensionality of the data, the problem is solved in the frequency domain and in a low-dimensional subspace. The fusion model is evaluated on simulated observations of the Orion Bar and shows an excellent spatial and spectral reconstruction of the observed scene.
We define a regularized inverse problem accounting for the specificities of the astronomical observation instruments, as spectrally variant blurs. To handle convolution operators as well as the high dimensionality of the data, the problem is solved in the frequency domain and in a low-dimensional subspace. The fusion model is evaluated on simulated observations of the Orion Bar and shows an excellent spatial and spectral reconstruction of the observed scene.
