Title :
The application of a three dimensional bistatic rainscatter model to radio systems coordination areas
Author_Institution :
Dept. of Math., Essex Univ., Colchester, UK
Abstract :
The current CCIR method of assessing the coordination distance between the earth station and terrestrial station considers the worst-case scenario of exact intersection of the two antenna beams for a backscatter geometry. It has long been known that there is asymmetry in the path loss between forward and backscatter. Because the general CCIR model is only two-dimensional, it cannot properly consider three-dimensional path loss contours. The author analyzes the path loss contours at a number of frequencies using a three-dimensional bistatic interference model. Preliminary results show that, even for the extreme worst-case scenario of two antenna beams intersecting exactly, the CCIR overestimates the coordination contours by at least 10%.<>
Keywords :
backscatter; electromagnetic wave scattering; losses; radio links; radiofrequency interference; radiowave propagation; rain; satellite relay systems; tropospheric electromagnetic wave propagation; 3D bistatic interference model; antenna beam intersection; backscatter; coordination distance; earth station link; path loss contours; radio systems; satellite communications; terrestrial radio relay link; three dimensional bistatic rainscatter model; Attenuation; Earth; Frequency; Ice; Interference; Mie scattering; Particle scattering; Radar scattering; Rain; Satellite ground stations;
Conference_Titel :
Antennas and Propagation Society International Symposium, 1992. AP-S. 1992 Digest. Held in Conjuction with: URSI Radio Science Meeting and Nuclear EMP Meeting., IEEE
Conference_Location :
Chicago, IL, USA
Print_ISBN :
0-7803-0730-5
DOI :
10.1109/APS.1992.221823
