Title :
Experimental evaluation of space/frequency/polarization diversity in the indoor wireless channel
Author :
Lemieux, Jean-Francois ; El-Tanany, Mohamed S. ; Hafez, H.M.
Author_Institution :
Dept. of Syst. & Comput. Eng., Carleton Univ., Ottawa, Ont., Canada
fDate :
8/1/1991 12:00:00 AM
Abstract :
A series of experiments that were conducted to evaluate the relative merits of frequency, space, and polarization diversities in indoor portable radio channels at 900 MHz are described. Unmodulated tones were used to probe the channel in a typical university work environment. The statistics of the signal envelopes were analyzed to determine the correlation of the field strengths when the signals are separated in space, frequency or polarization. According to the results presented here, the performance of a narrowband system (<200 kHz) at 900 MHz could greatly benefit from a frequency diversity scheme provided that the separation between the two frequencies is greater than approximately 5 MHz. Similarly, the advantage of space diversity is found significant when the two antennas are spaced by 3/4 wavelength or more. Co-polarized and cross-polarized signals are nearly uncorrelated and their relative field strengths differ by less than 2 dB in most locations
Keywords :
diversity reception; electromagnetic wave polarisation; field strength measurement; mobile radio systems; radiowave propagation; telecommunication channels; 5 MHz; 900 MHz; UHF; antennas; copolarised signals; correlation; cross-polarized signals; field strengths; frequency diversity; frequency separation; indoor portable radio channels; indoor wireless channel; narrowband system; polarisation diversity; radiowave propagation; signal envelope statistics; space diversity; university work environment; Attenuation measurement; Diversity reception; Frequency diversity; Narrowband; Polarization; Probes; Radio transmitters; Signal generators; Space technology; Wideband;
Journal_Title :
Vehicular Technology, IEEE Transactions on
