Title :
Radio Channel Characterization for Moderate Antenna Heights in Forest Areas
Author :
Oestges, Claude ; Villacieros, Belén Montenegro ; Vanhoenacker-Janvier, Danielle
Author_Institution :
Microwave Lab., Univ. catholique de Louvain, Louvain-la-Neuve, Belgium
Abstract :
This paper describes the results achieved by an experimental campaign whose goal was to characterize the directional propagation channel at 1.9 GHz in forested areas for moderate antenna heights. These experimental results are useful in the context of pedestrian radio-localization systems relying on cellphone signals. Wideband experimental results, which are recorded with transmit-to-receive distances ranging from 40 to 110 m, indicate that the path loss is well modeled by ITU-R Recommendation 833-4. The temporal fading and multipath dispersion are also analyzed. The delay spread, which ranges from 60 to 120 ns, is strongly anticorrelated with the temporal coherence and increases with transmit-to-receive distance. The azimuth spread remains limited, with average values of about 15deg.
Keywords :
antenna arrays; cellular radio; dispersion (wave); fading; radio direction-finding; wireless channels; ITU-R Recommendation 833-4; antenna array; azimuth spread; cellphone signal; delay spread; directional propagation channel; distance 40 m to 110 m; forest area; frequency 1.9 GHz; moderate antenna height; multipath dispersion; path loss; pedestrian radio-localization system; radio channel characterization; temporal coherence; temporal fading; time 60 ns to 120 ns; transmit-to-receive distance; Localization; Ricean fading; radio propagation;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2009.2024947
