Title :
Propagation characteristics of short-range radio links at 60 GHz for mobile intervehicle communication
Author :
Schäfer, Wolfgang ; Lutz, Erich
Abstract :
It has been shown that a transmission range of 500 m with direct line of sight is achievable at 60 GHz with directional antennas and a transmission power below 2 W. If the line of sight is obstructed by trees, buildings, etc., communication is possible only within a drastically reduced distance. The channel will be non-time- and non-frequency-selective for a bit rate around 1 Mbit/s. The various propagation effects such as power-law with distance, oxygen and rain absorption, edge diffraction, and frequency- and time-selectivity are theoretically examined and a simple two-path propagation model is presented. A more realistic channel model combining the two-path model with multipath propagation is then developed. As expected, the minima of the two-path model are attenuated by the multipath signal. But this advantage is paid for by a lot of shorter fades which in fact could be more easily handled with error correction methods
Keywords :
digital radio systems; directive antennas; mobile radio systems; radio links; radiowave propagation; 1 Mbit/s; 500 m; EHF; O2; bit rate; channel model; directional antennas; distance; edge diffraction; error correction methods; frequency selectivity; line of sight; mobile intervehicle communication; multipath propagation; multipath signal; power-law; propagation characteristics; radiowave propagation; rain absorption; short-range radio links; time-selectivity; transmission power; transmission range; two-path propagation model; Diffraction; Electromagnetic wave absorption; Frequency; Microwave communication; Microwave propagation; Mobile communication; Power system modeling; Rain; Roads; Traffic control;
Conference_Titel :
Telecommunications Symposium, 1990. ITS '90 Symposium Record., SBT/IEEE International
Conference_Location :
Rio de Janeiro
DOI :
10.1109/ITS.1990.175600
