Efficiency of dynamic traffic signal control in work zones with shuttle operation: theory and practice

Portable traffic signals with fixed-time signal plans are a common type of traffic control at work zones with shuttle traffic. The most-used alternatives are flagging and intelligent transport systems with traffic-actuated signals. These can provide more efficient traffic control, but existing polic...

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Bibliographic Details
Published in:European transport research review 2024-10, Vol.16 (1), p.57-19, Article 57
Main Author: Mikolášek, Igor
Format: Article
Language:English
Subjects:
Automotive Engineering
Case studies
Civil Engineering
Control systems
Dynamic control
Dynamical systems
Efficiency
Engineering
Flagging
Highway capacity
Intelligent transportation systems
One-lane two-way traffic
Original Paper
Portable traffic signals
Random variables
Regional/Spatial Science
Road conditions
Saturated flow
Temporary traffic management
Traffic capacity
Traffic control
Traffic delay
Traffic flow
Traffic planning
Traffic signals
Transportation
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Summary:Portable traffic signals with fixed-time signal plans are a common type of traffic control at work zones with shuttle traffic. The most-used alternatives are flagging and intelligent transport systems with traffic-actuated signals. These can provide more efficient traffic control, but existing policies often do little to encourage their practical application. This paper provides a clear and accessible overview of shuttle operations and a comparison of the main signal control types while addressing some knowledge gaps, such as whole-day operation efficiency. The relations between different variables of the signal plan and traffic flow are derived to build a theoretical framework and models for both deterministic and random arrivals to estimate delays and to find the optimal signal plan setting for a wide range of circumstances. The hypothetical scenarios are supported by a case study. Traffic and signal control data from several construction phases of a work zone with shuttle operation were gathered, processed, analysed, and used to compare different control scenarios. The results provide solid evidence for the efficiency of the dynamic systems. The magnitude of the difference is heavily affected by circumstances. The efficiency of the green signal almost doubled with the dynamic control. The case study also revealed a severe impact of road conditions (milling) on the work zone capacity. Several standards and policies are proposed based on the findings to encourage wider and more efficient adoption of traffic-actuated signals in work zones.
ISSN:1866-8887
1867-0717
1866-8887
DOI:10.1186/s12544-024-00672-y