Priority-Based Traffic Signal Coordination System With Multi-Modal Priority and Vehicle Actuation in a Connected Vehicle Environment

Thumbnail
Name:
Priority Based Traffic Signal ...
Size:
2.248Mb
Format:
PDF
Description:
Final Accepted Manuscript
Download
Author
Das, Debashis
Altekar, Niraj Vasant
Head, K. Larry
Affiliation
Systems and Industrial Engineering, University of Arizona
Issue Date
2022-11-25
Keywords
Mechanical Engineering
Civil and Structural Engineering
automated/autonomous/connected vehicles
connected
coordination
ITS
multi-modal
operations
optimization
signal timing

Metadata
Show full item record
Publisher
SAGE Publications
Citation
Das, D., Altekar, N. V., & Head, K. L. (2023). Priority-Based Traffic Signal Coordination System With Multi-Modal Priority and Vehicle Actuation in a Connected Vehicle Environment. Transportation Research Record, 2677(5), 666-681. https://doi.org/10.1177/03611981221134627
Journal
Transportation Research Record
Rights
© National Academy of Sciences: Transportation Research Board 2022.
Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.
Abstract
This paper presents a priority-based coordination system that provides preferential treatment to vehicles traveling along a coordinated route. A mixed-integer linear program model is enhanced to consider coordination as a form of priority along with the multi-modal priority for eligible emergency, transit, and freight connected vehicles and provides dilemma zone protection to freight vehicles in a connected vehicle environment. The optimization model generates an optimal signal timing schedule that minimizes the total weighted delay of the coordination requests, priority requests, and dilemma zone requests, and maximizes the flexible implementation of the optimal signal timing schedule. The optimal signal timing schedule allows real-time vehicle actuation using traditional vehicle detection. The simulation experiments and statistical analysis show that priority-based coordination can achieve performance equivalent to a traditional coordination system. The priority-based coordination method is integrated into the priority control Multi-modal Intelligent Traffic Signal System and is implemented in the Maricopa County SMARTDrive ProgramSM test bed in Anthem, Arizona, and in Portland, Oregon.
Note
Immediate access
ISSN
0361-1981
EISSN
2169-4052
DOI
10.1177/03611981221134627
Version
Final accepted manuscript
Collections