DocumentCode
1036877
Title
Low angle signal fading at 38 GHz in the High Arctic
Author
Lam, W.I.
Author_Institution
Communications Research Centre, Government of Canada, Ottawa, ON, Canada
Volume
35
Issue
12
fYear
1987
fDate
12/1/1987 12:00:00 AM
Firstpage
1495
Lastpage
1499
Abstract
In 1984 a microwave propagation experiment was conducted at 
N latitude in Alert, Canada, to study the characteristics of low angle fading at a frequency of 38 GHz. By monitoring the continuous wave (CW) signal transmitted from the orbiting LES-8 satellite, propagation data were gathered over a range of elevation angles from 
to 
. A total of three sets of measurments were made in the spring, summer, and winter. These allowed comparisons to be made of the seasonal characteristics of low angle fading in the arctic. The experimental data were examined with respect to the atmospheric conditions observed at Alert. The results presented include the variation of the median signal level with the elevation angle, cumulative distributions of the received signal level and fade rate statistics. The amount of signal fading increased rapidly as the elevation angle decreased. Fading was most severe in the summer which also had the highest fade rates. Very little fading was observed in the winter.
N latitude in Alert, Canada, to study the characteristics of low angle fading at a frequency of 38 GHz. By monitoring the continuous wave (CW) signal transmitted from the orbiting LES-8 satellite, propagation data were gathered over a range of elevation angles from to . A total of three sets of measurments were made in the spring, summer, and winter. These allowed comparisons to be made of the seasonal characteristics of low angle fading in the arctic. The experimental data were examined with respect to the atmospheric conditions observed at Alert. The results presented include the variation of the median signal level with the elevation angle, cumulative distributions of the received signal level and fade rate statistics. The amount of signal fading increased rapidly as the elevation angle decreased. Fading was most severe in the summer which also had the highest fade rates. Very little fading was observed in the winter.Keywords
Arctic regions; Millimeter-wave radio propagation meteorological factors; Arctic; Atmospheric measurements; Extraterrestrial measurements; Fading; Frequency; Microwave propagation; Monitoring; Satellites; Springs; Statistical distributions;
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/TAP.1987.1144049
Filename
1144049
Link To Document