Evaluation on vertical space characteristics of atmospheric water vapor and ozone for FY-4A GIIRS data sounding

Ci SONG; Qiu YIN

doi:10.11972/j.issn.1001-9014.2021.04.013

[1] Xiu-Qing HU, Xin-Hua NIU, Na XU et al. Improvement and application ability promotion of FY-3D medium-resolution spectral imager Ⅱ(2018).

[2] Jian-Wen HUA, Jian-Hua MAO. Atmospheric vertical sounder on FY-4 meteorological satellite. Science, Frontier, 70, 24-29(2018).

[3] Ci SONG, Qiu YIN, Ya-Nan XIE. Development of channel selection methods for infrared atmospheric vertical sounding. Infrared, 40, 18-26(2019).

[4] Zhi-Qing ZHANG, Feng LU, Xiang FANG et al. Application and development of the FY-4A meteorological satellite. Aerospace shanghai, 34, 8-19(2017).

[5] Yu-Han YANG, Qiu YIN, Jiong SHU. Channel selection of atmosphere vertical sounder (GIIRS) onboard the FY-4A geostationary satellite. J. Infrared . Millim. Waves, 37, 603-610(2018).

[6] Cheng-Li QI, Ming-Jian GU, Xiu-Qing HU et al. FY-3 satellite infrared high spectral sounding technique and potential application. Advanced in Meteorological Science and Technology, 6, 88-93(2016).

[7] C Song, Q Yin. Research on vertical space characteristic of satellite infrared hyperspectral atmospheric sounding data. Frontiers of Earth Science, 7(2021).

[8] Qing-Cun ZENG. Principle of atmospheric infrared telemetry, 13-30(1974).

[9] B J Conrath. Vertical resolution of temperature profiles obtained from remote radiation measurements. J Atmos Sci, 29, 1262-1271(1972).

[10] O E Thompson, J K Eom, J R Wagenhofer. On the resolution of temperature profile finestructure by the NOAA satellite vertical temperature profile radiometer. Mon Weather Rev, 104, 117-126(1976).

[11] W I Newman. The application of generalized inverse theory to the recovery of temperature profiles. J Atmos Sci, 36, 559-565(1979).

[12] R J Purser, H L Huang. Estimating effective data density in a satellite retrieval or an objective analysis. J Appl Metoerol, 32, 1092-1107.

[13] E S Maddy, C D Barnet. Vertical resolution estimates in Version 5 of AIRS operational retrievals. IEEE Trans on Geosci and Remote Sens, 46, 2375-2384(1993).

[14] F Wang, J Li, T J Schmit, S A Ackerman. Trade-off studies of a hyperspectual infrared sounder on a geostationary satellite. Appl Opt, 46, 200-209(2007).

[15] Chao-Hua DONG, Jun LI, Peng ZHANG et al. Principle and application of satellite hyper-spectral infrared atmospheric remote sensing, 1-9(2013).

[16] R Niclòs, J A Valiente, M J Barberà et al. Land surface air temperature retrieval from EOS-MODIS images. IEEE Geoscience & Remote Sensing Letters, 11, 1380-1384(2014).

[17] Shuang LUO, Qiu YIN. Statistical characteristics analysis of global temperature vertical profile. Journal of Tropical Meteorology, 35, 556-566(2019).

[18] Chuan NONG, Qiu YIN, Ci SONG et al. Sensitivity analysis of satellite infrared hyper-spectral atmospheric sounder GIIRS on FY-4A. J. Infrared Millim. Waves, 40, 351-362(2020).

[19] W J Randel, R S Stolarski, D M Cunnold et al. Trends in the vertical distribution of ozone. Science, 285, 1689-1692(1999).

[20] G C Wang, Q X Kong, H B Chen et al. Characteristics of ozone vertical distribution in the atmosphere over Beijing. Advances in Earth Science, 19, 743-748(2004).