FUEL CONSUMPTION OF ADAPTIVE CRUISE CONTROL PLATOONS: BENCH EXPERIMENTS AND DATA-DRIVEN ESTIMATION FOR REAL TRAFFIC --Manuscript Draft
Résumé
Vehicles equipped with adaptive cruise control (ACC) systems are expected to improve
traffic safety and decrease fuel consumption. Recent studies have shown that ACC
leads to string instability in the case of platooning and can therefore result in higher
energy needs compared to a platoon of human-driven vehicles (HDV). However, the
impact of the ACC on fuel consumption in the case of platooning and the global impact
of ACC overconsumption in traffic is not known yet. This study examines the impact of
ACC systems on traffic consumption using experimental data and traffic records.
In this study, we inject the speed profiles of ACC and HDV platoons that follow a
similar leader trajectory into an engine bench. Then we identify the event that leads to
an overconsumption in the case of platooning. Using HighD and ExiD records, we
detect if the events leading to overconsumption often happen in traffic. The results of
the engine bench show that only ACC platoons of six or more vehicles with a short
time-gap setting consume more than HDV platoons. The results on HighD and ExiD
show that such an event happens£
once out of 1250 if we divide the time into steps of 15 seconds.
This shows that even if overconsumption exists in specific cases, it is too rare in traffic
to impact global fuel consumption.
Domaines
Sciences de l'ingénieur [physics]Origine | Fichiers produits par l'(les) auteur(s) |
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