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Vehicle Trajectory Impacts of Adaptive Cruise Control

Adaptive Cruise Control (ACC) is assumed to have a potentialto improve quality-of-service and safety and to reduce the environmentalimpact of the road traffic system. This paper use vehicletrajectories from traffic simulation to study impacts of ACCon vehicle acceleration and deceleration rates. The...

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Published in:	Journal of intelligent transportation systems 2012, Vol.16 (1), p.36
Main Author:	Tapani, Andreas
Format:	Article
Language:	English
Subjects:	TECHNOLOGY TEKNIKVETENSKAP
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container_title	Journal of intelligent transportation systems
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creator	Tapani, Andreas
description	Adaptive Cruise Control (ACC) is assumed to have a potentialto improve quality-of-service and safety and to reduce the environmentalimpact of the road traffic system. This paper use vehicletrajectories from traffic simulation to study impacts of ACCon vehicle acceleration and deceleration rates. The analysis isbased on traffic simulations with car-following models includingACC functionality and driver behaviour in ACC-equipped as wellas standard non-equipped vehicles. The simulation results showthat ACC can improve the traffic situation in terms of reduced accelerationand deceleration rates even though macroscopic trafficproperties may remain uninfluenced. This supports the hypothesisedpositive road safety and environmental effects of ACC. It isalso established that the results are largely dependent on the assumptionsmade regarding driver behaviour in ACC-equipped andstandard vehicles. It is consequently crucial to include appropriateassumptions regarding driver behaviour in traffic simulation basedanalyses of ACC.
doi_str_mv	10.1080/15472450.2012.639641
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subjects	TECHNOLOGY TEKNIKVETENSKAP
title	Vehicle Trajectory Impacts of Adaptive Cruise Control
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