Remote sensing of path-averaged raindrop size distributions from microwave scattering measurements

Author

Furuhama, Yoji ; Ihara, Toshio

Author_Institution

Radio Res. Lab., Ministry of Posts and Telecommunications, Tokyo, Japan

Volume

29

Issue

2

fYear

1981

fDate

3/1/1981 12:00:00 AM

Firstpage

275

Lastpage

281

Abstract

A multichannel microwave propagation experimental system whose frequencies are 1.7 GHz, 11.5 GHz, 34.5 GHz, and 81.8 GHz is introduced in order to measure not only attenuation and phase shift due to rain, but also to infer a path-averaged raindrop size distribution $\\overline {N(D)}$ from the measurements, in addition to 11.5 GHz, 34.5 GHz, and 81.8 GHz copolar attenuation, phase variations between the frequencies of 34.5 GHz and 11.5 GHz (with reference to 34.5 GHz) due to heavy rain are measured. These measurements, i.e., propagation constants, constitute a Fredholm integral equation of the first kind with respect to $\\overline {N(D)}$ . This equation is solved numerically by several inversion techniques, and the results for $\\overline {N(D)}$ > are compared with each other. It is made clear that the remote sensing of $\\overline {N(D)}$ from the measurements of microwave scattering is a useful method.

Keywords

Electromagnetic scattering, inverse problem; Meteorological radar; Microwave radio propagation meteorological factors; Millimeter-wave radio propagation meteorological factors; Attenuation measurement; Frequency measurement; Integral equations; Microwave measurements; Microwave propagation; Phase measurement; Rain; Remote sensing; Scattering; Size measurement;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/TAP.1981.1142567

Filename

1142567