An integrated real-time traffic signal system for transit signal priority, incident detection and congestion management

F. Ahmed; Y. E. Hawas

doi:10.1016/j.trc.2015.08.004

An integrated real-time traffic signal system for transit signal priority, incident detection and congestion management

F. Ahmed
, Y. E. Hawas

Department of Civil and Environmental Engineering

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

75 Citations (Scopus)

Abstract

This paper presents a traffic control system that can work standalone to handle various boundary conditions of the recurrent, non-recurrent congestion, transit signal priority and downstream blockage conditions to improve the overall traffic network vehicular productivity and efficiency. The control system uses field detectors' data to determine the boundary conditions of all incoming and exit links. The developed system is interfaced with CORSIM micro-simulation for rigorous evaluations with different types of signal phase settings. The comparative performance of this control logic is quite satisfactory for some of the most frequently used phase settings in the network with a high number of junctions under highly congested conditions.

Original language	English
Pages (from-to)	52-76
Number of pages	25
Journal	Transportation Research Part C: Emerging Technologies
Volume	60
DOIs	https://doi.org/10.1016/j.trc.2015.08.004
Publication status	Published - Nov 1 2015

Keywords

Congestion management
Incident detection
Micro simulation
Traffic signal control
Transit priority
Urban traffic networks

ASJC Scopus subject areas

Transportation
Automotive Engineering
Civil and Structural Engineering
Management Science and Operations Research

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10.1016/j.trc.2015.08.004

Cite this

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title = "An integrated real-time traffic signal system for transit signal priority, incident detection and congestion management",

abstract = "This paper presents a traffic control system that can work standalone to handle various boundary conditions of the recurrent, non-recurrent congestion, transit signal priority and downstream blockage conditions to improve the overall traffic network vehicular productivity and efficiency. The control system uses field detectors' data to determine the boundary conditions of all incoming and exit links. The developed system is interfaced with CORSIM micro-simulation for rigorous evaluations with different types of signal phase settings. The comparative performance of this control logic is quite satisfactory for some of the most frequently used phase settings in the network with a high number of junctions under highly congested conditions.",

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AU - Hawas, Y. E.

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Y1 - 2015/11/1

N2 - This paper presents a traffic control system that can work standalone to handle various boundary conditions of the recurrent, non-recurrent congestion, transit signal priority and downstream blockage conditions to improve the overall traffic network vehicular productivity and efficiency. The control system uses field detectors' data to determine the boundary conditions of all incoming and exit links. The developed system is interfaced with CORSIM micro-simulation for rigorous evaluations with different types of signal phase settings. The comparative performance of this control logic is quite satisfactory for some of the most frequently used phase settings in the network with a high number of junctions under highly congested conditions.

AB - This paper presents a traffic control system that can work standalone to handle various boundary conditions of the recurrent, non-recurrent congestion, transit signal priority and downstream blockage conditions to improve the overall traffic network vehicular productivity and efficiency. The control system uses field detectors' data to determine the boundary conditions of all incoming and exit links. The developed system is interfaced with CORSIM micro-simulation for rigorous evaluations with different types of signal phase settings. The comparative performance of this control logic is quite satisfactory for some of the most frequently used phase settings in the network with a high number of junctions under highly congested conditions.

KW - Congestion management

KW - Incident detection

KW - Micro simulation

KW - Traffic signal control

KW - Transit priority

KW - Urban traffic networks

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M3 - Article

AN - SCOPUS:84940027580

SN - 0968-090X

VL - 60

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JO - Transportation Research Part C: Emerging Technologies

JF - Transportation Research Part C: Emerging Technologies

ER -

An integrated real-time traffic signal system for transit signal priority, incident detection and congestion management

Abstract

Keywords

ASJC Scopus subject areas

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