DocumentCode
1294667
Title
Doppler spectrum in mobile-to-mobile communications in the presence of three-dimensional multipath scattering
Author
Vatalaro, Francesco ; Forcella, Alessandro
Author_Institution
Dipartimento di Ingegneria Elettronica, Rome Univ., Italy
Volume
46
Issue
1
fYear
1997
fDate
2/1/1997 12:00:00 AM
Firstpage
213
Lastpage
219
Abstract
This paper provides analytical expressions for the time-autocorrelation function and the Doppler spectrum in a mobile radio channel in the presence of three-dimensional (3-D) multipath scattering. Mathematical modeling of the transmission channel is based on the assumption of wide-sense stationary (WSS) scattering. This paper deals with the case of a mobile-to-mobile radio link and derives formulas for the mobile-to-radiobase link as a special case. The Doppler spectrum examples provided are typical when assuming mobile terminal(s) located in densely built-up urban areas and simple dipole terminal antenna(s). Furthermore, the Doppler spectrum for transmission between a nongeostationary satellite and a mobile terminal located on the ground is analyzed. If different antenna patterns are to be considered and detailed knowledge is available on the multipath distribution, realistic Doppler spectra may be calculated using the approach presented in this paper
Keywords
Doppler effect; antenna radiation patterns; correlation methods; dipole antennas; electromagnetic wave scattering; land mobile radio; mobile satellite communication; multipath channels; radio links; 3D multipath scattering; Doppler spectrum; antenna radiation patterns; densely built-up urban areas; dipole terminal antennas; mathematical modeling; mobile radio channel; mobile terminals; mobile to mobile communications; mobile to mobile radio link; mobile to radiobase link; multipath distribution; nongeostationary satellite; three-dimensional multipath scattering; time-autocorrelation function; transmission channel; wide-sense stationary; Antennas and propagation; Dipole antennas; Doppler shift; Land mobile radio; Mathematical model; Mobile antennas; Mobile communication; Radio link; Scattering; Urban areas;
fLanguage
English
Journal_Title
Vehicular Technology, IEEE Transactions on
Publisher
ieee
ISSN
0018-9545
Type
jour
DOI
10.1109/25.554754
Filename
554754
Link To Document