The number of vehicles has increased significantly in recent years, which causeshigh density in traffic and further problems like accidents and road congestions.A solution regarding to this problem is vehicle-to-vehicle communication, wherevehicles are able to communicate with their neighboring vehicles even in the absenceof a central base station, to provide safer and more efficient roads and toincrease passenger safety.The goal of this thesis is to investigate basic physical layer parameters of ainter-vehicle communication system, like emission power, spectral emission, errorvector magnitude, guard interval, ramp-up/down time, and third order interceptpoint. I also studied the intelligent transportation system’s channel layout inEurope, how the interference of other systems are working in co-channel and adjacentchannels, and some proposals to use the allocated frequency bands. On theother hand, the fundamentals of OFDM transmission and definitions of OFDMkey parameters in IEEE 802.11p are investigated.The focus of this work is on the measurement of transmitter frontend parametersof a new testbed designed and fabricated in order to be used at inter-vehiclecommunication based on IEEE 802.11p. ; Road safety applications, Vehicle-to-Vehicle communication
Characterization of a 5GHz Modular Radio Frontend for WLAN Based on IEEE 802.11p
2008-01-01
Hochschulschrift
Elektronische Ressource
Englisch
IEEE 802.11p , Front-end , WLAN , 5.9 GHz , RF measurement , Physical layer , channel layout , OFDM , Vehicle-to-Vehicle communications , V2V , Telecommunications , Telekommunikation , Other Electrical Engineering , Electronic Engineering , Information Engineering , Annan elektroteknik och elektronik
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