Abstract
Part 1 Radiometric sensing of atmospheric water vapor and cloud liquid water vapour: clear-air observations of water vapour by ground-based microwave radiometers and Raman lidar, Y. Han et al observed and theoretical atmospheric emission at 20, 30 and 90 GHz - recent results from land- and ocean-based locations, J.B. Snider forward modelling for AMSU, P.J. Rayer profiling of atmospheric water vapour with the millimeter-wave imaging radiometer, J.R. Wang et al assimilation of satellite-derived moisture fields for numerical weather prediction, G. Deblonde et al estimation of errors in the two-beamwidth-antenna method for microwave measurement of atmospheric water vapor, S. Hashimoto improved GPS vertical surveying and GPS sensing of atmospheric water vapour, R. Ware et al using microwave radiometry and space geodetic systems for studies of atmospheric water-vapor variations, G. Elgered et al influence of topospheric electrical path delay on interferometric observations in millimeter radioastronomy, L. Olmi. Part 2 Cloud liquid. Part 3 Radiometric sensing of rain models of precipitation. Part 4 Retrieval of rain. Part 5 Radiometric sensing of the Earth's surface snow and ice. Part 6 Ocean surface. Part 7 Crops and forest. Part 8 New radiometric systems - synthetic aperture radiometers. Part 9 MIMR. Part 10 AMSU. Part 11 Ground-based. (Part contents)
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