DocumentCode
1340045
Title
Characterization of UHF radio propagation channels in tunnel environments for microcellular and personal communications
Author
Zhang, Y.P. ; Hwang, Y.
Author_Institution
Dept. of Electr. Eng., City Univ. Hong Kong, Hong Kong
Volume
47
Issue
1
fYear
1998
fDate
2/1/1998 12:00:00 AM
Firstpage
283
Lastpage
296
Abstract
Narrowband and wideband propagation measurements have been conducted in five tunnels. The effects of pedestrians, vehicles, and curvature on propagation are included in the characterization. The narrowband propagation is characterized in terms of power distance law, slow fading, and fast fading statistics: wideband propagation, rms delay spread, and its statistics. The results show that the power distance law is insensitive to the location of the transmit antenna in the cross section of a tunnel, but not to the antenna insertion loss. The lognormal distribution basically fits the slow variation of the received signals, whereas the Rician distribution, the fast fading in the straight empty sections of the tunnels. In the curved tunnel sections, the Rayleigh distribution does not fit the fast fading variation as is expected. Tunnel radio propagation channels are dependent strongly upon frequency. Higher frequency signals exhibit more severe fluctuations and larger rms delay spread. The rms delay spreads are found to be generally less than 25 and 103 ns for the emptied and occupied tunnel conditions, respectively. One can conclude that the tunnel channels have a broad coherent bandwidth and can support the data rate up to 1 Mb per second without equalization
Keywords
Rayleigh channels; Rician channels; UHF radio propagation; cellular radio; channel capacity; fading; land mobile radio; personal communication networks; transmitting antennas; 1 Mbit/s; Rayleigh distribution; Rician distribution; UHF radio propagation channels; coherent bandwidth; curvature; data rate; fast fading; fluctuations; insertion loss; lognormal distribution; microcellular communications; narrowband propagation; pedestrians; personal communications; power distance law; received signals; rms delay spread; slow fading; statistics; transmit antenna; tunnel environments; vehicles; wideband propagation; Antennas and propagation; Delay; Fading; Frequency; Narrowband; Rayleigh channels; Statistical distributions; Transmitting antennas; UHF propagation; Wideband;
fLanguage
English
Journal_Title
Vehicular Technology, IEEE Transactions on
Publisher
ieee
ISSN
0018-9545
Type
jour
DOI
10.1109/25.661054
Filename
661054
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