1. End-to-end simulations to optimize imaging spectroscopy mission requirements for seven scientific applications
- Author
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Briottet, X., Adeline, K., Bajjouk, Touria, Carrère, V., Chami, M., Constans, Y., Derimian, Y., Dupiau, A., Dumont, Marie, Doz, S., Fabre, S., Foucher, P.y., Herbin, H., Jacquemoud, S., Lang, M., Le Bris, A., Litvinov, P., Loyer, S., R, Marion, Minghelli, A., Miraglio, T., Sheeren, D., Szymanski, B., Romand, F., Desjardins, C., Rodat, D., Cheul, B., Briottet, X., Adeline, K., Bajjouk, Touria, Carrère, V., Chami, M., Constans, Y., Derimian, Y., Dupiau, A., Dumont, Marie, Doz, S., Fabre, S., Foucher, P.y., Herbin, H., Jacquemoud, S., Lang, M., Le Bris, A., Litvinov, P., Loyer, S., R, Marion, Minghelli, A., Miraglio, T., Sheeren, D., Szymanski, B., Romand, F., Desjardins, C., Rodat, D., and Cheul, B.
- Abstract
CNES is currently carrying out a Phase A study to assess the feasibility of a future hyperspectral imaging sensor (10 m spatial resolution) combined with a panchromatic camera (2.5 m spatial resolution). This mission focuses on both high spatial and spectral resolution requirements, as inherited from previous French studies such as HYPEX, HYPXIM, and BIODIVERSITY. To meet user requirements, cost, and instrument compactness constraints, CNES asked the French hyperspectral Mission Advisory Group (MAG), representing a broad French scientific community, to provide recommendations on spectral sampling, particularly in the Short Wave InfraRed (SWIR) for various applications. This paper presents the tests carried out with the aim of defining the optimal spectral sampling and spectral resolution in the SWIR domain for quantitative estimation of physical variables and classification purposes. The targeted applications are geosciences (mineralogy, soil moisture content), forestry (tree species classification, leaf functional traits), coastal and inland waters (bathymetry, water column, bottom classification in shallow water, coastal habitat classification), urban areas (land cover), industrial plumes (aerosols, methane and carbon dioxide), cryosphere (specific surface area, equivalent black carbon concentration), and atmosphere (water vapor, carbon dioxide and aerosols). All the products simulated in this exercise used the same CNES end-to-end processing chain, with realistic instrument parameters, enabling easy comparison between applications. 648 simulations were carried out with different spectral strategies, radiometric calibration performances and signal-to-noise Ratios (SNR): 24 instrument configurations × 25 datasets (22 images + 3 spectral libraries). The results show that spectral sampling up to 20 nm in the SWIR range is sufficient for most applications. However, 10 nm spectral sampling is recommended for applications based on specific absorption bands such as miner
- Published
- 2024
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