Effect of soil textural class and relative humidity of regions in accurate prediction of attenuation of millimeter waves during sand and dust storms

Author

Afzaal, Khan ; Bandopadhyaya, T.K. ; Poonam, Saxena

Author_Institution

Inst. of Technol., Barkatullah Univ., Bhopal, India

Volume

1

fYear

2001

fDate

2001

Firstpage

393

Abstract

This paper presents the importance of knowledge of soil textural class and relative humidity of desert and arid regions in accurate prediction of attenuation of millimeter waves during sand and dust storms. The moistness of sand/dust particles depends upon the relative humidity of the atmosphere. The dry clayey particles affects the millimeter waves more than the dry sandy particles, whereas in a humid climate sand particles after absorbing moisture affect the millimeter waves more severely. Calculations for attenuation have been carried out using Rayleigh and Mie theories at millimeter wave frequencies. It has been observed that the applicability of the Rayleigh formula in the millimeter wave band depends upon the soil texture of the region

Keywords

atmospheric humidity; dielectric losses; dust; millimetre wave propagation; moisture; permittivity; sand; soil; storms; texture; tropospheric electromagnetic wave propagation; EHF; MM-wave attenuation prediction; Mie theory; Rayleigh theory; arid regions; broadband communication; clay particles; desert regions; dust storms; millimeter radio wave propagation channel; relative humidity; sand particles; sand storms; silt; soil textural class; Atmosphere; Attenuation; Frequency; Humidity; Millimeter wave communication; Millimeter wave technology; Optical attenuators; Optical scattering; Soil; Storms;

fLanguage

English

Publisher

ieee

Conference_Titel

Physics and Engineering of Millimeter and Sub-Millimeter Waves, 2001. The Fourth International Kharkov Symposium on

Conference_Location

Kharkov

Print_ISBN

0-7803-6473-2

Type

conf

DOI

10.1109/MSMW.2001.946864

Filename

946864