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Improved Accuracy of XCO2 Retrieval Based on OCO-2 Rtretrieval Framework Model.

, , , , , и . IGARSS, стр. 2109-2112. IEEE, (2023)

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Xue Xue Zhang

Puangrat Yongvanit

Li Yong

Karn Yongsiriwit

Jia Xue

 

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An improved mosaic method considering atmospheric diffusion in aerosol optical depth retrieval case., , , , , , и . IGARSS, стр. 2308-2311. IEEE, (2012)Remote sensing data processing acceleration based on multi-core processors., , , и . IGARSS, стр. 641-644. IEEE, (2016)Aerosol optical depth retrieval over China from NOAA AVHRR data., , , , , и . IGARSS, стр. 3658-3661. IEEE, (2012)Aerosol Optical Thickness retrieval over snow-covered surface using AATSR data., , и . IGARSS, стр. 582-585. IEEE, (2013)Aerosol optical depth retrieval from recalibrated AVHRR data for China mainland in 1998., , , и . IGARSS, стр. 5745-5748. IEEE, (2016)Dust Aerosol Optical Depth Retrieval and Dust Storm Detection for Xinjiang Region Using Indian National Satellite Observations., , , , , , , , , и 2 other автор(ы). Remote. Sens., 8 (9): 702 (2016)Investigating the Long-Term Variation Trends of Absorbing Aerosols over Asia by Using Multiple Satellites., , , , , и . Remote. Sens., 14 (22): 5832 (2022)Deriving a Global and Hourly Data Set of Aerosol Optical Depth Over Land Using Data From Four Geostationary Satellites: GOES-16, MSG-1, MSG-4, and Himawari-8., , , , , , , и . IEEE Trans. Geosci. Remote. Sens., 58 (3): 1538-1549 (2020)Combing GOME-2B and OMI Satellite Data to Estimate Near-Surface NO2 of Mainland China., , , , , , , , и . IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens., (2021)Aerosol optical thickness from modis data at 500M resolution for two extreme aerosol events analysis., , , , , , , и . IGARSS, стр. 2792-2795. IEEE, (2010)