A Variable Speed Limit Controller for Recurrent Congestion Based on
the Optimal Solution
Reference
J.R.D. Frejo and
B. De Schutter,
"A Variable Speed Limit Controller for Recurrent Congestion Based on
the Optimal Solution," Proceedings of the 97th Annual
Meeting of the Transportation Research Board, Washington, DC,
14 pp., Jan. 2018. Paper 18-01084.
Abstract
The main goal of this paper is the proposal and simulation of a SPEed
limit controller for Recurrent Traffic jams (SPERT) that approximates
the behavior of an optimal controller when congestion profiles are
similar to the typical one. In order to achieve this goal, the optimal
solution for the typical demand profile is computed and used as a
first estimation for the logic-based controller. If the real
congestion differs from the typical one, the values of the speed
limits are adapted by advancing or delaying their activation and
deactivation. Eleven scenarios have been considered in order to test
to proposed controller under different traffic conditions. The results
show that the proposed controller is able to approach the optimal
behavior (with a better performance that previously proposed
easy-to-implement VSL control algorithms) while eliminating on-line
computational cost, and increasing robustness.
Downloads
- Corresponding technical report:
pdf
file
(557 KB)
Bibtex entry
@inproceedings{FreDeS:18-002,
author={J.R.D. Frejo and B. {D}e Schutter},
title={A Variable Speed Limit Controller for Recurrent Congestion Based on the
Optimal Solution},
booktitle={Proceedings of the 97th Annual Meeting of the Transportation Research
Board},
address={Washington, DC},
month=jan,
year={2018},
note={Paper 18-01084}
}
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Last update: February 21, 2026.