Evaluation of the Performance of city-wide, autonomous Route Choice based on Vehicle-to-vehicle-Communictaion. Krajzewicz, D., Boyom, D. T., & Wagner, P. In TRB 2008 (87. Annual Meeting), Juli, 2007.
Evaluation of the Performance of city-wide, autonomous Route Choice based on Vehicle-to-vehicle-Communictaion [link]Paper  abstract   bibtex   2 downloads  
The sharing of information between vehicles via vehicle-to-vehicle communication has a great potential for future traffic surveillance and management applications. One possible use case is the communication of information about the state of the road network, for example by transferring travel times into the navigation devices enabling them to compute routes using this knowledge. This work reports about a set of simulation results where the benefit of using information exchanged between vehicles was evaluated for a city scenario using an extended microscopic traffic flow simulation. The scenario is based on validated real-life data for a normal weekday within a middle-sized German city. Contrary to other approaches, the used model of vehicle-to-vehicle communication was implemented directly into the traffic simulation. It was kept as simple as possible in order to allow a fast execution needed for evaluating the effects on a large scale and was calibrated using data from the real life. This simulation study evaluates the influences of the model?s parameters and of the amount of vehicles equipped with vehicle-to-vehicle devices on the mean travel time within the simulated city.
@inproceedings{Krajzewicz2007a,
	author = {Daniel Krajzewicz and Danilot Teta Boyom and Peter Wagner},
	booktitle = {TRB 2008 (87. Annual Meeting)},
	title = {Evaluation of the Performance of city-wide, autonomous Route Choice based on Vehicle-to-vehicle-Communictaion},
	year = {2007},
	month = {Juli},
	abstract = {The sharing of information between vehicles via vehicle-to-vehicle
	communication has a great potential for future traffic surveillance
	and management applications. One possible use case is the communication
	of information about the state of the road network, for example by
	transferring travel times into the navigation devices enabling them
	to compute routes using this knowledge.


	This work reports about a set of simulation results where the benefit
	of using information exchanged between vehicles was evaluated for
	a city scenario using an extended microscopic traffic flow simulation.
	The scenario is based on validated real-life data for a normal weekday
	within a middle-sized German city. Contrary to other approaches,
	the used model of vehicle-to-vehicle communication was implemented
	directly into the traffic simulation. It was kept as simple as possible
	in order to allow a fast execution needed for evaluating the effects
	on a large scale and was calibrated using data from the real life.
	This simulation study evaluates the influences of the model?s parameters
	and of the amount of vehicles equipped with vehicle-to-vehicle devices
	on the mean travel time within the simulated city.},
	groups = {used, DanilotTeteBoyom, communication models, navigation, own (DLR), TS, assigned2groups},
	keywords = {Vehicle-to-vehicle communication, traffic management, simulation},
	owner = {Daniel},
	timestamp = {2011.12.02},
	url = {http://elib.dlr.de/50464/}
}
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