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A study of realistic dynamic traffic assignment with signal control, time-scale, and emission
| 题名: | A study of realistic dynamic traffic assignment with signal control, time-scale, and emission |
| 正文语种: | 英文 |
| 作者: | Tarikul Islam; Hai L. Vu; Manoj Panda; Dong Ngoduy |
| 作者单位: | Intelligent Transport Systems Lab, Swinburne University of Technology, Victoria, Australia; Institute of Transport Studies, Monash University, Victoria, Australia; Department of Civil and Natural Resources Engineering, University of Canterbury, New Zealand |
| 关键词: | Cell Transmission Model; Dynamic Traffic Assignment; emission-based DTA formulation; time-scale; traffic signal control; vehicle holding-back problem |
| 摘要: | Dynamic Traffic Assignment (DTA) is a mathematical framework that with a System Optimal (SO) objective is often used for long-term transport planning, design, and traffic management. However, the conventional SO-DTA formulation gives optimal solutions having an unrealistic vehicle Holding–Back (HB) property. Existing approaches in the literature aiming to resolve the HB problem are either computationally intractable or suffer from recursive parameter selection problem. In addition, most of the existing Signal Control (SC) models considered in the DTA formulation are mixed-integer or nonlinear in nature that are not scalable for large networks. With an exception, there exists a linear signal control model that can only set signal control cycle-length equal to DTA time-slot duration, and thus trades the accuracy of the SO-DTA solution for a more realistic cycle-length. In this article, we address the above issues by proposing a linear Non-Holding-Back SO-DTA with SC (NHB DTA-SC) formulation for single destination networks. The embedded signal control in the proposed framework enables us to set realistic cycle-length using any DTA time-slot (i.e., flexible time-scale). We find that the time-scale has a significant impact on traffic density which affects vehicle-discharged emissions. To this end, we develop a novel linear Emission-Based DTA with SC (EB DTA-SC) formulation that obtains NHB flows as well as lowest possible emission. Our results show that there is a 32% difference between emission estimated by 60-second and 5-second time-scales. |
| 出版年: | 2018 |
| 期刊名称: | Journal of Intelligent Transportation Systems Technology Planning and Operations |
| 卷: | 22 |
| 期: | 5 |
| 页码: | 446-461 |
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