[1] LYU Li-Qing, Hong-Xin XU, Ying-Hong LUAN. Development and prospect of integrated microwave imaging detection technology. Aerospace Shanghai, 34, 1-10(2017).
[2] Wen-Xin CHEN, Hao LI, LYU Rong-Chuan et al. Synchronous orbit microwave remote sensing technology. Space Electronic Technology, 1, 35-39(2014).
[3] B Bizzarri, A Gasiewski, D Staelin. Initiatives for Mw/Sub-Mm sounding from geostationary orbit, 548-552(2002).
[4] F Solman, D Staelin, J Kerekes et al. A microwave instrument for temperature and humidity sounding from geosynchronous orbit, 1704-1707(1998).
[5] D H Staelin, P W Rosenkranz. Applications review panel: High resolution passive microwave satellites. Report for NASA contract NAS5-23677(1978).
[6] A J Gasiewski, A Voronovich, B L Weber et al. Geosynchronous microwave (GEM) sounder/imager observation system simulation. Proceedings of IGARSS, IEEE, 3, 1209-1211(2003).
[7] B Bizzarri. Requirements and perspectives for MW/Sub-MM sounding from geostationary satellite, 97-105(2002).
[8] B Lambrigtsen, A Tanner, T Gaier et al. Prototyping a new earth observing sensor- GeoSTAR, 1-9(2007).
[9] J Christensen, A Carlstrom, H Ekstrom et al. GAS: The Geostationary Atmospheric Sounder(2007).
[10] H Liu, J Wu, S Zhang et al. Conceptual Design and Breadboarding Activities of Geostationary Interferometric microwave sounder (GIMS)(2009).
[11] Zhen-Chao XIE, Xiu-Wei LI, Chong-Bin YAO et al. Research on geostationary orbit microwave radiometer technology. Aerospace Shanghai, 35, 20-28(2018).
[12] Zhen-Chao XIE, Hong-Xin XU, Da-Wei AN et al. Remote sensing technology of experimental radiometer in geostationary orbit. Aerospace Shanghai, 35, 49-59(2018).
[13] X B Yin, W Zhou, M S Lin et al. End to end study of the Chinese salinity mission, 3544-3547(2017).
[14] Meng-Tong JIN, Hao LIU, Lin WU et al. Simulation of marine salinity detection tasks and analysis of external error sources on satellite-borne one-dimensional synthetic aperture microwave radiometer. Remote Sensing Technology and Application, 32, 346-355(2017).
[15] Zhao-Wen YU, Jian-Wen LIU, Jiang-Ping HUANG et al. Effect of assimilation of microwave data from AMSR2 on rainstorm prediction of WRF model. Meteorological Disasters Prevention, 24, 10-14(2017).
[16] A Voronovich, A Gasiewski, B Weber. A fast multistream scattering-based Jacobian for microwave radiance assimilation. IEEE Transactions on Geoscience and Remote Sensing, 42, 1749-1761(2004).
[17] H Liebe. MPM-An atmospheric millimeter-wave propagation model. international journal of infrared and millimeter waves, 10, 631-650(1989).
[18] M Janssen. Atmospheric remote sensing by microwave radiometry, Ch3(1993).
[19] A Limaye, C Crosson, C Laymon et al. Estimating accuracy in optimal deconvolution of synthetic AMSR-E observations. Remote Sensing of Environment, 100, 133-142(2006).
[20] G E Backus, J F Gilbert. Numerical applications of a formalism for geophysical inverse problems. Geophys. J.Int., 13, 247-276(1967).
[21] G Backus, F Gilbert. The resolving power of gross earth data. Geophysical Journal of the Royal Astronomical Society, 16, 169-205(1968).
[22] G Backus, F Gilbert. Uniqueness in the inversi on of inaccurate gross earth data. Phil. Trans. Roy. Soc. London A, 266, 123-192(1970).