Microwave scattering on atmospheric particles
DOI:
https://doi.org/10.1109/ICATT.2007.4425110Keywords:
atmospheric particles, hydrometeor types, microwave scattering, radar, remote recognition, telecommunications, wave polarizationsAbstract
The models of microwave scattering on atmospheric particles are presented. Shape, size, material, and other properties of scatterers are taken into account at different wave polarizations. Results are important for remote recognition of hydrometeor types, radar and telecommunications.References
DEIRMENDJIAN, D. Electromagnetic Scattering on Spherical Poly dispersions. New York: American Elsevier Publishing Company, Inc. 1969.
SHUPIATSKY, A.B.; YANOVSKY, F.J. The influence of microphysical and electrical characteristics of troposphere non-homogeneity on transformation of polarization parameters of radar signals. Proc. of 16 All-Union Conf. on Propagation of Radiowaves, Kharkov, 1990, part 2, p.96-97.
SHUPIATSKY, A.B.; YANOVSKY, F.J. Radar method of localization of aircraft icing zones. USSR Patent No 4898827, Priority 14 May 1990, positive decision, 1991.
PITERTSEV, A.; SIDORENKO, T.; YANOVSKY, F. Aircraft Icing Prevention Radar System: Models and Software for Calculation of Information Parameters. Proc. of Int. Radar Symp., Berlin, Germany, 2005, p.489-492.
YANOVSKY, F.J. Doppler-Polarimetric Approach for Supercooled Water Detection in Clouds and Precipitation by Airborne Weather Radar. Proc. of Int. Radar Symp., Warsaw, Poland, 2004, p.93-100.
MAZIN, I.P. Microstructure of clouds. In Clouds and Cloudy Atmosphere. Leningrad: Gidrometeoizdat, 1989, p.297-344 [in Russian].
DOVIAK, R.; ZRNIC, D. Doppler Radar and Weather Observations. London: Academic Press, Inc., 1993.
DE WOLF, D.A.; RUSSCHENBERG, H.W.J.; LIGTHART, L.P. Effective permittivity of and scattering from wet snow and ice droplets at weather radar wavelengths. IEEE Trans. Antennas Propag., Sep. 1990, v.38, n.9, p.1317-1325, doi: http://dx.doi.org/10.1109/8.56981.
YANOVSKY, F.J.; RUSSCHENBERG, H.W.J.; LIGTHART, L.P. The Turbulence-Driven Relationship of Doppler and Polarimetrie Radar Parameters of Rain: Introduction of the Spectral Differential Reflectivity. IEEE Trans. Geoscience Remote Sensing, submitted paper.
YANOVSKY, F.J. Polarimetrie Technique for Aircraft Icing Alert Using Airborne Radar. Proc. of the European Radar Conf. EuRAD 2004, Amsterdam, 2004, p.33-36.
HELDRING, A.; RIUS, J.M.; LIGTHART, L.P.; CARDAMA, A. Accurate numerical modeling of the TARA reflector system. IEEE Trans. Antennas Propag., Jul. 2004, v.52, n.7, p.1758-1766, doi: http://dx.doi.org/10.1109/TAP.2004.831408.
YANOVSKY, F.; MARCHUK, V.; OSTROVSKY, Y.; PITERTSEV, A. Neural Network Identification Algorithm for Weather Radar. Proc. of Int. Symp. on Tropospheric Profiling ISTP7, 11-17 June 2006, Boulder, CO, USA, CD ROM, 9 p., http://www.eol.ucar.edu/istp2006/istpprogram.html.