Optimal internal boundary control of lane-free automated vehicle traffic

Milad Malekzadeh; Ioannis Papamichail; Markos Papageorgiou; Klaus Bogenberger

doi:10.1016/j.trc.2021.103060

Optimal internal boundary control of lane-free automated vehicle traffic

Milad Malekzadeh, Ioannis Papamichail, Markos Papageorgiou, Klaus Bogenberger

Chair of Traffic Engineering and Control

Technical University of Crete

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

A recently proposed paradigm for vehicular traffic in the era of CAV (connected and automated vehicles), called TrafficFluid, involves lane-free vehicle movement. Lane-free traffic implies that incremental road widening (narrowing) leads to corresponding incremental increase (decrease) of capacity; and this opens the way for consideration of real-time internal boundary control on highways and arterials, in order to flexibly share the total (both directions) road width and capacity among the two directions in dependence of the bi-directional demand and traffic conditions, so as to maximize the total (two directions) flow efficiency. The problem is formulated as a convex QP (Quadratic Programming) problem that may be solved efficiently, and representative case studies shed light on and demonstrate the features, capabilities and potential of the novel control action.

Original language	English
Article number	103060
Journal	Transportation Research Part C: Emerging Technologies
Volume	126
DOIs	https://doi.org/10.1016/j.trc.2021.103060
State	Published - May 2021

Keywords

Lane free
Optimal control
QP
TrafficFluid

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10.1016/j.trc.2021.103060

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title = "Optimal internal boundary control of lane-free automated vehicle traffic",

abstract = "A recently proposed paradigm for vehicular traffic in the era of CAV (connected and automated vehicles), called TrafficFluid, involves lane-free vehicle movement. Lane-free traffic implies that incremental road widening (narrowing) leads to corresponding incremental increase (decrease) of capacity; and this opens the way for consideration of real-time internal boundary control on highways and arterials, in order to flexibly share the total (both directions) road width and capacity among the two directions in dependence of the bi-directional demand and traffic conditions, so as to maximize the total (two directions) flow efficiency. The problem is formulated as a convex QP (Quadratic Programming) problem that may be solved efficiently, and representative case studies shed light on and demonstrate the features, capabilities and potential of the novel control action.",

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Optimal internal boundary control of lane-free automated vehicle traffic

Abstract

Keywords

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