Journal of South China University of Technology(Natural Science) >
Signal Control Method of Adaptive Traffic Events in Connected Traffic Environment
Received date: 2024-11-04
Online published: 2025-07-10
Supported by
the Natural Science Foundation of Heilongjiang Province(PL2024E012)
The existing signal control methods for traffic incidents often fail to account for the impact of traffic flow redistribution caused by current intersection control scheme adjustments on adjacent intersections. This oversight essentially shifts traffic problems to adjacent intersections rather than resolving congestion effectively. In view of this, this study proposes an adaptive traffic incident signal control method (SCM-ATE) by leveraging the testability of networked traffic, the controllability of connected autonomous vehicles (CAVs), and the inducibility of connected human-driven vehicles. The SCM-ATE method uses the shortest path algorithm to plan the diversion path of obstructed traffic flow based on the determination of lanes and traffic flow caused by events, as well as the sufficient traffic capacity of adjacent intersections. The optimization objective is to minimize the average delay of vehicles at all intersections on the diversion path. A dynamic programming approach is then applied to jointly optimize signal timings and trajectories of connected vehicles along the designated route, thereby mitigating the adverse effects of incidents. The simulation results show that under low, medium, and high traffic loads, compared with traditional signal control methods, the SCM-ATE method reduces the average delay of vehicles by 12.56%, 20.34%, and 5.29%, respectively. Compared with the single-layer method using single intersection traffic signals and collaborative vehicle trajectory joint optimization (JOTS-CVT), the average delay of vehicles is reduced by 13.27%, 10.40%, and 1.25%, respectively. These outcomes confirm the effectiveness of SCM-ATE in enhancing traffic efficiency. Further research shows that the intersection traffic load and the penetration rate of networked autonomous vehicle have a significant impact on the optimization effect of SCM-ATE and the SCM-ATE method is more suitable for traffic scenarios where the penetration rate of networked autonomous vehicle is ≥ 0.3 and the lane flow rate ratio at the intersection is ≤ 0.7.
JIANG Xiancai , WU Zhanling , SAN Jingqi . Signal Control Method of Adaptive Traffic Events in Connected Traffic Environment[J]. Journal of South China University of Technology(Natural Science), 2025 , 53(12) : 46 -60 . DOI: 10.12141/j.issn.1000-565X.240533
| [1] | THANH T, DAN H, JIWON K,et al .MSGNN:a multi-structured graph neural network model for real-time incident prediction in large traffic networks[J].Transportation Research Part C:Emerging Technologies,2023,156:104354/1-24. |
| [2] | WANG Z L, QI X, JIANG H .Estimating the spatiotemporal impact of traffic incidents:an integer programming approach consistent with the propagation of shockwaves[J].Transportation Research Part B:Metho-dological,2018,111:356-369. |
| [3] | WANG Z, ZHENG Z, CHEN X,et al .Modeling the evolution of incident impact in urban road networks by leveraging the spatiotemporal propagation of shockwaves[J].Transportation Research Part C:Emerging Technologies,2024,164:104668/1-18. |
| [4] | ZHENG Z, WANG Z, CHEN X,et al .Spatiotemporal clustering for the impact region caused by a traffic incident:an improved fuzzy C-means approach with gua-ranteed consistency[J].Transportmetrica A:Transport Science,2025,21:1-30. |
| [5] | 何雅琴,容煜伦,柳祖鹏,等 .基于水波原理的城市突发事件交通影响程度研究[J].交通运输系统工程与信息,2017,17(5):151-156,172. |
| HE Ya-qin, RONG Yu-lun, LIU Zu-peng,et al .Traffic influence degree of urban traffic emergency based on water wave principle[J].Journal of Transportation Systems Engineering and Information Technology,2017,17(5):151-156,172. | |
| [6] | ALBERTO F, DANIELA G .Algorithms to find shortest and alternative paths in free flow and congested traffic regimes[J].Transportation Research Part C:Emerging Technologies,2016,73:1-29. |
| [7] | DING H, GUO F, ZHENG X Y,et al .Traffic guidance-perimeter control coupled method for the congestion in a macro network[J].Transportation Research Part C:Emerging Technologies,2017,81,300-316. |
| [8] | 胡立伟,赵雪亭,杨锦青,等 .基于双层规划的城市交通拥塞疏导优化研究[J].交通运输系统工程与信息,2021,21(5):222-227. |
| HU Li-wei, ZHAO Xue-ting, YANG Jin-qing,et al .Urban traffic congestion mitigation and optimization study based on two-level programming[J].Journal of Transportation Systems Engineering and Information Techno-logy,2021,21(5):222-227. | |
| [9] | 王嘉文,孙晨晨,赵靖,等 .交通事件下路段通行能力多层模糊估计方法[J].交通运输系统工程与信息,2023,23(6):100-110. |
| WANG Jia-wen, SUN Chen-chen, ZHAO Jing,et al .Multilayer fuzzy estimation method for road traffic capa-city affected by traffic incidents[J].Journal of Transportation Systems Engineering and Information Technology,2023,23(6):100-110. | |
| [10] | 龙雪琴,王瑞璇,王晗 .考虑出行者不同理性程度的拥堵交通流分配方法[J].交通运输系统工程与信息,2023,23(1):216-223. |
| LONG Xue-qin, WANG Rui-xuan, WANG Han .Traffic flow assignment method considering travelers’ different rational degree under congestions[J].Journal of Transportation Systems Engineering and Information Technology,2023,23(1):216-223. | |
| [11] | YU C, FENG Y, LIU H,et al .Integrated optimization of traffic signals and vehicle trajectories at isolated urban intersections[J].Transportation Research Part B:Methodological,2018,112:89-112. |
| [12] | LIU M, ZHAO J, HOOGENDOORN S,et al .A single-layer approach for joint optimization of traffic signals and cooperative vehicle trajectories at isolated intersections[J].Transportation Research Part C:Emer-ging Technologies,2022,134:103459/1-19. |
| [13] | XU T, SIMANTA B, MICHAEL W .Smoothing-MP:a novel max-pressure signal control considering signal coordination to smooth traffic in urban networks[J].Transportation Research Part C:Emerging Technologies,2024,166:104760/1-25. |
| [14] | WANG Y, CAI P, LU G .Cooperative autonomous traffic organization method for connected automated vehicles in multi-intersection road networks[J].Transportation Research Part C:Emerging Technologies,2020,111:458-476. |
| [15] | 张焕炯 .城市主要道路交叉口拥堵分析与改善措施[C]∥ 2018世界交通运输大会论文集.北京:[s.n.],2018:912-917. |
| [16] | JIANG X, SSHANG Q .A dynamic CAV-dedicated lane allocation method with the joint optimization of signal timing parameters and smooth trajectory in a mixed traffic environment[J].IEEE Transactions on Intelligent Transportation Systems,2023,24(6):6436-6449. |
| [17] | MILANES V, SHLADOVER S E .Modeling cooperative and autonomous adaptive cruise control dynamic responses using experimental data[J].Transportation Research Part C:Emerging Technologies,2014,48:285-300. |
| [18] | 蒋阳升,胡蓉,姚志洪,等 .智能网联车环境下异质交通流稳定性及安全性分析[J].北京交通大学学报,2020,44(1):27-33. |
| JIANG Yangsheng, HU Rong, YAO Zhihong,et al .Stability and safety analysis for heterogeneous traffic flow composed of intelligent and connected vehicles[J].Journal of Beijing Jiaotong University,2020,44(1):27-33. | |
| [19] | PANWAI S, DIA H .Comparative evaluation of microscopic car-following behavior[J].IEEE Transactions on Intelligent Transportation Systems,2005,6(3):314-325. |
| [20] | 蒋贤才,徐慧智 .混合驾驶环境下交叉口空间资源动态控制方法[J].交通运输系统工程与信息,2023,23(6):63-73. |
| JIANG Xian-cai, XU Hui-zhi .Dynamic control method for intersection space resources in mixed traffic environment[J].Journal of Transportation Systems Enginee-ring and Information Technology,2023,23(6):63-73. |
/
| 〈 |
|
〉 |