Reference
C. Pasquale, S. Sacone, S. Siri, and B. De Schutter, "A multi-class ramp
metering and routing control scheme to reduce congestion and traffic emissions
in freeway networks,"
Proceedings of the 14th IFAC Symposium
on Control in Transportation Systems (CTS 2016), Istanbul, Turkey, pp.
329-334, May 2016.
Abstract
In this paper, a multi-class and multi-objective combined ramp metering and
routing control strategy is proposed to improve performance in freeway traffic
networks. The control strategy is of the multi-class type, i.e. different
classes of vehicles are taken into account, so that specific control policies
can be devised for each class. Moreover, ramp metering and route guidance are
properly coordinated in order to reduce the total travel time and the total
emissions in the freeway system in a balanced way. The controller proposed in
the paper is of the predictive feedback type, i.e. the control computed at each
time step depends on the measured system state and on the prediction of the
system evolution, considering both a traffic and an emission model. Some
simulation results are presented showing the effectiveness of the proposed
control scheme.
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BibTeX
@inproceedings{PasSac:16-015,
author = {Pasquale, Cecilia and Sacone, Simona and Siri, Silvia and De
Schutter, Bart},
title = {A Multi-Class Ramp Metering and Routing Control Scheme to
Reduce Congestion and Traffic Emissions in Freeway Networks},
booktitle = {Proceedings of the 14th IFAC Symposium on Control in
Transportation Systems (CTS 2016)},
address = {Istanbul, Turkey},
pages = {329--334},
month = may,
year = {2016}
}
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