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Publications in Scientific Journals:

C. Mecklenbräuker, A. F. Molisch, J. Karedal, F. Tufvesson, A. Paier, L. Bernadó, T. Zemen, O. Klemp, N. Czink:
"Vehicular channel characterization and its implications for wireless system design and performance";
Proceedings of the IEEE (invited), Special Issue on Vehicular Communications (2011), 7; 1189 - 1212.



English abstract:
To make transportation safer, more efficient, and less harmful to the environment, traffic telematics services are currently being intensely investigated and developed. Such services require dependable wireless vehicle-to-infrastructure and vehicle-to-vehicle communications providing robust connectivity at moderate data rates. The development of such dependable vehicular communication systems and standards requires accurate models of the propagation channel in all relevant environments and scenarios. Key characteristics of vehicular channels are shadowing by other vehicles, high Doppler shifts, and inherent non-stationarity. All have major impact on the data packet transmission reliability and latency. This paper provides an overview of the existing vehicular channel measurements in a variety of important environments, and the observed channel characteristics (such as delay spreads and Doppler spreads) therein. We briefly discuss the available vehicular channel models and their respective merits and deficiencies. Finally, we discuss the implications for wireless system design with a strong focus on IEEE 802.11p. On the road towards a dependable vehicular network, room for improvements in coverage, reliability, scalability, and delay are highlighted, calling for evolutionary improvements in the IEEE 802.11p standard. Multiple antennas at the on-board units and road-side units are recommended to exploit spatial diversity for increased diversity and reliability. Evolutionary improvements in the PHY and MAC are required to yield dependable systems. Extensive references are provided.

Keywords:
vehicular communications, radio channel characterization, OFDM, IEEE 802.11p, MIMO, intelligent transport systems


"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
http://dx.doi.org/10.1109/JPROC.2010.2101990

Electronic version of the publication:
http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5710954



Related Projects:
Project Head Christoph Mecklenbräuker:
Christian Doppler Lab "Funktechnologien für nachhaltige Mobilität"

Project Head Christoph Mecklenbräuker:
ROADSAFE - Robuste verteilte Verkehrstelematik zur Erhöhung der Sicherheit im Straßenverkehr


Created from the Publication Database of the Vienna University of Technology.