Electromagnetic wave propagation and scattering in rain and other hydrometeors

This paper reviews the theories and the results of numerical calculations of interactions between hydrometeors and microwaves or millimeter waves propagating in media containing these hydrometeors. At frequencies above about 5 GHz, rain, snow, or ice crystals in high altitudes cause various degradin...

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Published in	Proceedings of the IEEE Vol. 71; no. 9; pp. 1029 - 1078
Main Author	Oguchi, T.
Format	Journal Article
Language	English
Published	New York, NY IEEE 01.01.1983 Institute of Electrical and Electronics Engineers
Subjects	Applied sciences Attenuation Crystals Electromagnetic propagation Electromagnetic scattering Exact sciences and technology Frequency estimation Ice Microwave theory and techniques Polarization Propagation through the atmosphere Radiocommunications Radiowave propagation Rain Shape Telecommunications Telecommunications and information theory Wave attenuation Water drop Snow Troposphere Satellite telecommunication Radio link Microwave Centimetric wave Wave depolarization Ice Electromagnetic wave Wave polarization Millimetric wave Rain Wave propagation Wave scattering Crossed field polarization Hydrometeor
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Abstract	This paper reviews the theories and the results of numerical calculations of interactions between hydrometeors and microwaves or millimeter waves propagating in media containing these hydrometeors. At frequencies above about 5 GHz, rain, snow, or ice crystals in high altitudes cause various degrading effects on the performance of communication links. The attenuation of the transmitted signals is a well-known example of such effects. Because of the demand for more communication channels, operating frequencies of both terrestrial and earth--scace communication systems become increasingly higher, and the communication technology becomes more and more sophisticated with the use of digital techniques, or the use of both orthogonaly polarized channels. These have given rise to the need of acquiring more detailed knowledge of interactions between hydrometeors and waves than is necessary for the calculation of attenuation. To obtain such knowledge, we have to know the detailed microphysical properties of hydrometeors, such as shape, size distributions, or the motion of hydrometeors while they are falling. These properties, some obtained previously by meteorolgists and some obtaianed recently by radio engineers to meet the requirements of present radio problems, are reviewed first. Various methods of calculations, and the detailed knowledge obtained from calculations of the single scattering properties of hydrometeors, whose sizes are generally comparable to wavelength, are then reviewed. With the information of these scattering properties, various propagation phenomena are discussed from a theoretical point of view. Specific subjects treated include attenuation, cross polarization due to rain or ice crystals in high altitudes, the methods of depolarization cancellation, rain scattering other then forward and backward which is necessary in the estimation of rain scatter interference between two communication links operating at the same frequency, various multiple or incoherent scattering effects on copolar and cross-polar signals, pulse shape, channel transfer characteristics, etc. The aim of this review is to provide fundamental background informations on the interactions between hydrometeors and radio waves, and hence the more practical investigations, such as long-term statistics of attenuation, are beyond the scope of this review.
AbstractList	This paper reviews the theories and the results of numerical calculations of interactions between hydrometeors and microwaves or millimeter waves propagating in media containing these hydrometeors. At frequencies above about 5 GHz, rain, snow, or ice crystals in high altitudes cause various degrading effects on the performance of communication links. The attenuation of the transmitted signals is a well-known example of such effects. Because of the demand for more communication channels, operating frequencies of both terrestrial and earth--scace communication systems become increasingly higher, and the communication technology becomes more and more sophisticated with the use of digital techniques, or the use of both orthogonaly polarized channels. These have given rise to the need of acquiring more detailed knowledge of interactions between hydrometeors and waves than is necessary for the calculation of attenuation. To obtain such knowledge, we have to know the detailed microphysical properties of hydrometeors, such as shape, size distributions, or the motion of hydrometeors while they are falling. These properties, some obtained previously by meteorolgists and some obtaianed recently by radio engineers to meet the requirements of present radio problems, are reviewed first. Various methods of calculations, and the detailed knowledge obtained from calculations of the single scattering properties of hydrometeors, whose sizes are generally comparable to wavelength, are then reviewed. With the information of these scattering properties, various propagation phenomena are discussed from a theoretical point of view. Specific subjects treated include attenuation, cross polarization due to rain or ice crystals in high altitudes, the methods of depolarization cancellation, rain scattering other then forward and backward which is necessary in the estimation of rain scatter interference between two communication links operating at the same frequency, various multiple or incoherent scattering effects on copolar and cross-polar signals, pulse shape, channel transfer characteristics, etc. The aim of this review is to provide fundamental background informations on the interactions between hydrometeors and radio waves, and hence the more practical investigations, such as long-term statistics of attenuation, are beyond the scope of this review. Numerical models of interactions between microwaves or mm-waves propagating through fields of hydrometeors are reviewed, with attention given to the problem of earth-space communications. Attenuation occurs in communications links at frequencies above 5 GHz, with the causative agents being rain, snow, or ice crystals at high altitudes. The dielectric properties of the hydrometeor objects are defined and consideration is given to the shape, fall velocity, and behavior of the raindrops, snowflakes, and ice particles in order to model their scattering properties and characterize the bulk attenuation and depolarization properties of the medium containing the hydrometeors. An adaptive depolarization cancellation technique for communications is described, as is remote sensing to determine the type of hydrometeors in the broadcast path. Finally, incoherent scattering effects such as amplitude and phase fluctuation, polarization distortion and bandwidth coherency are investigated. This paper reviews the theories and the results of numerical calculations of interactions between hydrometeors and microwaves or millimeter waves propagating in media containing these hydrometeors. At frequencies above about 5 GHz, rain, snow, or ice crystals in high altitudes cause various degrading effects on the performance of communication links. The attenuation of the transmitted signals is a well-known example of such effects. Because of the demand for more communication channels operating frequencies of both terrestrial and earth-space communication systems become increasingly higher, and the communication technology becomes more and more sophisticated with the use of digital techniques, or the use of both orthogonally polarized channels. These have given rise to the need of acquiring more detailed knowledge of interactions between hydrometeors and waves than is necessary for the calculation of attenuation.
Author	Oguchi, T.
Author_xml	– sequence: 1 givenname: T. surname: Oguchi fullname: Oguchi, T. organization: Radio Research Laboratories, Tokyo, Japan
BackLink	http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=9353085$$DView record in Pascal Francis
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Keywords	Wave attenuation Water drop Snow Troposphere Satellite telecommunication Radio link Microwave Centimetric wave Wave depolarization Ice Electromagnetic wave Wave polarization Millimetric wave Rain Wave propagation Wave scattering Crossed field polarization Hydrometeor
Language	English
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Snippet	This paper reviews the theories and the results of numerical calculations of interactions between hydrometeors and microwaves or millimeter waves propagating... Numerical models of interactions between microwaves or mm-waves propagating through fields of hydrometeors are reviewed, with attention given to the problem of...
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StartPage	1029
SubjectTerms	Applied sciences Attenuation Crystals Electromagnetic propagation Electromagnetic scattering Exact sciences and technology Frequency estimation Ice Microwave theory and techniques Polarization Propagation through the atmosphere Radiocommunications Radiowave propagation Rain Shape Telecommunications Telecommunications and information theory
Title	Electromagnetic wave propagation and scattering in rain and other hydrometeors
URI	https://ieeexplore.ieee.org/document/1456992 https://www.proquest.com/docview/23208166 https://www.proquest.com/docview/23214183
Volume	71
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