Dynamic Bus Dispatching Method Based on Mixed Control Strategy

被引:0
作者
Liu, Zhihan [1 ]
Qu, Wenliang [2 ]
Bie, Yiming [1 ]
机构
[1] Jilin Univ, Sch Transportat, Changchun 130022, Peoples R China
[2] Shanghai Urban Construct Design & Res Inst, Shanghai 200125, Peoples R China
来源
SMART TRANSPORTATION SYSTEMS 2024, KES-STS 2024 | 2024年 / 407卷
关键词
Bus bunching; Dynamic scheduling; Mixed strategy; Overtaking; Speed guidance;
D O I
10.1007/978-981-97-6748-9_6
中图分类号
U [交通运输];
学科分类号
08 ; 0823 ;
摘要
In-service buses are susceptible to stochastic factors, specifically bus bunching, which can introduce unreliability. To address the ongoing bus bunching problem, we propose a comprehensive control strategy that incorporates speed guidance, intersection signal adjustments, and cooperative overtaking. A dynamic dispatching model based on the strategy is developed, with the objective function considering headway irregularity, the total travel time of passengers, and delay of the private vehicle. The model is solved using a genetic algorithm. In this paper, we conduct numerical experiments and compare the performance of the proposed strategy with the uncontrolled strategy. The results demonstrate that the proposed strategy can not only ensure the stability, but also improve the efficiency of the bus, thereby validating the performance of this method.
引用
收藏
页码:59 / 68
页数:10
相关论文
共 50 条
[31]   Participants Mixed Strategy in Logistics Finance based on Game Theory [J].
Qiao Jingyuan ;
Wei Guili ;
Ke Jinchuan .
PROCEEDINGS OF THE 2015 INTERNATIONAL CONFERENCE ON EDUCATION, MANAGEMENT, INFORMATION AND MEDICINE (EMIM 2015), 2015, 8 :988-994
[32]   Mixed Mutation Strategy Evolutionary Programming Based on Shapley Value [J].
Pang, Jinwei ;
Dong, Hongbin ;
He, Jun ;
Feng, Qi .
2016 IEEE CONGRESS ON EVOLUTIONARY COMPUTATION (CEC), 2016, :2805-2812
[33]   A Dynamic Scheduling Method for Carrier Aircraft Support Operation under Uncertain Conditions Based on Rolling Horizon Strategy [J].
Yuan, Peilong ;
Han, Wei ;
Su, Xichao ;
Liu, Jie ;
Song, Jingyu .
APPLIED SCIENCES-BASEL, 2018, 8 (09)
[34]   Dynamic holding control to avoid bus bunching: A multi-agent deep reinforcement learning framework [J].
Wang, Jiawei ;
Sun, Lijun .
TRANSPORTATION RESEARCH PART C-EMERGING TECHNOLOGIES, 2020, 116 (116)
[35]   Optimizing Integrated Eco-Driving Control and Holding Strategy for Real-Time Bus Bunching Mitigation [J].
Li, Xin ;
Xu, Weihan ;
Wang, Tianqi ;
Yuan, Yun .
IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS, 2024, 25 (07) :7568-7582
[36]   A hybrid fuzzy-neural-based dynamic scheduling method for part feeding of mixed-model assembly lines [J].
Zhou, Binghai ;
Zhao, Zhe .
COMPUTERS & INDUSTRIAL ENGINEERING, 2022, 163
[37]   A Multi-objective Evolutionary Algorithm Based on Mixed Game Strategy [J].
Li, Yuandan ;
Zhang, Shiwen ;
Li, Zhiyong .
2016 12TH INTERNATIONAL CONFERENCE ON NATURAL COMPUTATION, FUZZY SYSTEMS AND KNOWLEDGE DISCOVERY (ICNC-FSKD), 2016, :241-252
[38]   Dynamic Scheduling Strategy of Shared Vehicles Based on Time Series [J].
Zhu, Liu ;
Zheng, Wanting ;
Zhong, Min .
INTERNATIONAL CONFERENCE ON SMART TRANSPORTATION AND CITY ENGINEERING 2021, 2021, 12050
[39]   An Integrated Design Scheme of Dynamic Scheduling and Control for Networked Control Systems Based on Dynamic Dwell Time [J].
Yang Jun ;
Zhou Chuan ;
Chen Qing-Wei ;
Liu Tian-Yu .
2014 33RD CHINESE CONTROL CONFERENCE (CCC), 2014, :5774-5778
[40]   Accounting for passenger loss in bus bunching reduction: a robust real-time speed control method [J].
Ning, Kunpeng ;
Jiang, Hai .
TRANSPORTMETRICA A-TRANSPORT SCIENCE, 2024,
12345