Title :
900-MHz multipath propagation measurements for US digital cellular radiotelephone
Author :
Rappaport, Theodore S. ; Seidel, Scott Y. ; Singh, Rajendra
Author_Institution :
Bradley Dept. of Electr. Eng., Virginia Polytech. Inst. & State Univ., Blacksburg, VA, USA
fDate :
5/1/1990 12:00:00 AM
Abstract :
The results of multipath power delay profile measurements of 900-MHz mobile radio channels in Washington, DC, Greenbelt, MD, Oakland, CA, and San Francisco, CA, are presented. The measurements have focused on acquiring worst-case profiles for typical operating locations. The data reveal that at over 98% of the measured locations, root mean square (RMS) delay spreads are less than 12 μs. Urban areas typically have RMS delay spreads on the order of 2-3 μs and continuous multipath power out to excess delays of 5 μs. In hilly residential areas and in open areas within a city, RMS delay spreads are slightly larger, typically having values of 5-7 μs. In very rare instances, reflections from city skylines and mountains can cause RMS delay spreads in excess of 20 μs. The worst-case profiles show resolvable diffuse multipath components at excess delays of 100 μs and amplitudes 18 dB below that of the first arriving signal
Keywords :
cellular radio; digital radio systems; fading; radiotelephony; radiowave propagation; 900 MHz; RMS delay spreads; UHF; USA; city skylines; digital cellular radiotelephone; fading; hilly residential areas; mobile radio channels; mountains; multipath propagation measurements; open areas; power delay profile measurements; radiowave propagation; resolvable diffuse multipath components; urban areas; Cities and towns; Land mobile radio; Multipath channels; Power measurement; Propagation delay; Reflection; Root mean square; Telephony; UHF measurements; Urban areas;
Journal_Title :
Vehicular Technology, IEEE Transactions on
