Dynamic optimal real-time algorithm for signals (DORAS): Case of isolated roadway intersections

•Developed a continuous model for intersection vehicle delay.•Derived optimal condition for intersection control.•Two heuristic methods are proposed and numerically tested. This paper studies intersection signal control in which traffic arrivals from all approaches along with the queues are assumed...

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Published inTransportation research. Part B: methodological Vol. 106; pp. 433 - 446
Main Authors Wang, Xiubin Bruce, Cao, Xiaowei, Wang, Changjun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2017
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ISSN0191-2615
1879-2367
DOI10.1016/j.trb.2017.06.005

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Abstract •Developed a continuous model for intersection vehicle delay.•Derived optimal condition for intersection control.•Two heuristic methods are proposed and numerically tested. This paper studies intersection signal control in which traffic arrivals from all approaches along with the queues are assumed known. The control policy minimizes the overall intersection delay by deciding the green intervals for signal phases dynamically as driven by real-time traffic but subject to a set of constraints such as min/max green time for each phase. This paper models intersection vehicle delay by assuming continuous vehicle arrival and departure, and presents the optimal condition for green signal switch. Prior to this work, there does not appear to have been a continuous model on optimal control applied to the general intersection. Two numerical algorithms are proposed: optimum based (DORAS) and queue-based heuristic (DORAS-Q) respectively. Numerical tests are conducted via discrete simulation using an actual intersection data covering peak, mid-day and mid-night hours, respectively. Comparison is conducted between actuated, DORAS, DORAS-Q and OPAC III. The tests show that the latter three methods all perform significantly better than the actuated.
AbstractList •Developed a continuous model for intersection vehicle delay.•Derived optimal condition for intersection control.•Two heuristic methods are proposed and numerically tested. This paper studies intersection signal control in which traffic arrivals from all approaches along with the queues are assumed known. The control policy minimizes the overall intersection delay by deciding the green intervals for signal phases dynamically as driven by real-time traffic but subject to a set of constraints such as min/max green time for each phase. This paper models intersection vehicle delay by assuming continuous vehicle arrival and departure, and presents the optimal condition for green signal switch. Prior to this work, there does not appear to have been a continuous model on optimal control applied to the general intersection. Two numerical algorithms are proposed: optimum based (DORAS) and queue-based heuristic (DORAS-Q) respectively. Numerical tests are conducted via discrete simulation using an actual intersection data covering peak, mid-day and mid-night hours, respectively. Comparison is conducted between actuated, DORAS, DORAS-Q and OPAC III. The tests show that the latter three methods all perform significantly better than the actuated.
Author Cao, Xiaowei
Wang, Xiubin Bruce
Wang, Changjun
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