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The Land Surface Vegetation Features Observed by GPM/DPR Backscattering in Mongolia.

, , , and . IGARSS, page 6636-6639. IEEE, (2019)

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Assessing the use of camera-based indices for characterizing canopy phenology in relation to gross primary production in a deciduous broad-leaved and an evergreen coniferous forest in Japan., , , , , , and . Ecol. Informatics, (2012)JAXA High Resolution Land-Use and Land-Cover Map of Japan., , , , , , and . IGARSS, page 2384-2387. IEEE, (2013)New JAXA High-Resolution Land Use/Land Cover Map for Vietnam Aiming for Natural Forest and Plantation Forest Monitoring., , , , and . Remote. Sens., 12 (17): 2707 (2020)A Vegetation Index to Estimate Terrestrial Gross Primary Production Capacity for the Global Change Observation Mission-Climate (GCOM-C)/Second-Generation Global Imager (SGLI) Satellite Sensor., , , , , , , , , and 2 other author(s). Remote. Sens., 4 (12): 3689-3720 (2012)The Land Surface Vegetation Features Observed by GPM/DPR Backscattering in Mongolia., , , and . IGARSS, page 6636-6639. IEEE, (2019)JAXA super sites 500: Large-scale ecological monitoring sites for satellite validation in Japan., , , , , , , , and . IGARSS, page 3866-3869. IEEE, (2015)Creation of New Global Land Cover Map with Map Integration., , , , , and . J. Geographic Information System, 3 (2): 160-165 (2011)Generation of the High-Resolution Land-Use and Land-Cover Map in Japan Version 21.11., , , , , , , , , and . IGARSS, page 4339-4342. IEEE, (2022)Validating GCOM-C Terrestrial Ecology Products: How Should In-Situ Observation Be Performed at Satellite Scale?, , , , , , , , , and 4 other author(s). IGARSS, page 9196-9199. IEEE, (2019)