An optimization approach for estimating multiple land surface and atmospheric variables from the geostationary advanced Himawari imager top-of-atmosphere …
Since a new generation of geostationary satellite data has incredibly high temporal, spatial,
and spectral resolutions, new methodologies are now needed to take advantage of both the …
and spectral resolutions, new methodologies are now needed to take advantage of both the …
[引用][C] An Optimization Approach for Estimating Multiple Land Surface and Atmospheric Variables From the Geostationary Advanced Himawari Imager Top-of …
H Ma, S Liang, H Shi, Y Zhang - IEEE Transactions on …, 2021 - ui.adsabs.harvard.edu
An Optimization Approach for Estimating Multiple Land Surface and Atmospheric Variables From
the Geostationary Advanced Himawari Imager Top-of-Atmosphere Observations - NASA/ADS …
the Geostationary Advanced Himawari Imager Top-of-Atmosphere Observations - NASA/ADS …
An Optimization Approach for Estimating Multiple Land Surface and Atmospheric Variables from the Geostationary Advanced Himawari Imager Top-of-Atmosphere …
H Ma, S Liang, H Shi, Y Zhang - IEEE Transactions on Geoscience and …, 2021 - hub.hku.hk
Since a new generation of geostationary satellite data has incredibly high temporal, spatial,
and spectral resolutions, new methodologies are now needed to take advantage of both the …
and spectral resolutions, new methodologies are now needed to take advantage of both the …
An optimization approach for estimating multiple land surface and atmospheric variables from the geostationary advanced Himawari imager top-of-atmosphere …
H Ma, S Liang, H Shi, Y Zhang - 2021 - cabidigitallibrary.org
Since a new generation of geostationary satellite data has incredibly high temporal, spatial,
and spectral resolutions, new methodologies are now needed to take advantage of both the …
and spectral resolutions, new methodologies are now needed to take advantage of both the …