Design and experimental evaluation of cooperative adaptive cruise control

Road throughput can be increased by driving at small inter-vehicle time gaps. The amplification of velocity disturbances in upstream direction, however, poses limitations to the minimum feasible time gap. String-stable behavior is thus considered an essential requirement for the design of automatic...

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Hauptverfasser:	Ploeg, Jeroen, Scheepers, Bart T. M., van Nunen, Ellen, van de Wouw, Nathan, Nijmeijer, Henk
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Acceleration Delay Logic gates Stability criteria Vehicle dynamics Vehicles
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creator	Ploeg, Jeroen Scheepers, Bart T. M. van Nunen, Ellen van de Wouw, Nathan Nijmeijer, Henk
description	Road throughput can be increased by driving at small inter-vehicle time gaps. The amplification of velocity disturbances in upstream direction, however, poses limitations to the minimum feasible time gap. String-stable behavior is thus considered an essential requirement for the design of automatic distance control systems, which are needed to allow for safe driving at time gaps well below 1 s. Theoretical analysis reveals that this requirement can be met using wireless inter-vehicle communication to provide real-time information of the preceding vehicle, in addition to the information obtained by common Adaptive Cruise Control (ACC) sensors. In order to validate these theoretical results and to demonstrate the technical feasibility, the resulting control system, known as Cooperative ACC (CACC), is implemented on a test fleet consisting of six passenger vehicles. Experiments clearly show that the practical results match the theoretical analysis, thereby indicating the possibilities for short-distance vehicle following.
doi_str_mv	10.1109/ITSC.2011.6082981
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Acceleration Delay Logic gates Stability criteria Vehicle dynamics Vehicles
title	Design and experimental evaluation of cooperative adaptive cruise control
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