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基于元胞自动机的路内停车对路段通行能力的影响研究

沈金星 蒋文凤 曹惠敏 马昌喜

沈金星, 蒋文凤, 曹惠敏, 马昌喜. 基于元胞自动机的路内停车对路段通行能力的影响研究[J]. 交通信息与安全, 2023, 41(4): 132-142. doi: 10.3963/j.jssn.1674-4861.2023.04.014
引用本文: 沈金星, 蒋文凤, 曹惠敏, 马昌喜. 基于元胞自动机的路内停车对路段通行能力的影响研究[J]. 交通信息与安全, 2023, 41(4): 132-142. doi: 10.3963/j.jssn.1674-4861.2023.04.014
SHEN Jinxing, JIANG Wenfeng, CAO Huimin, MA Changxi. A Study on Impact of Curb Parking on Road Capacity Using Cellular Automata[J]. Journal of Transport Information and Safety, 2023, 41(4): 132-142. doi: 10.3963/j.jssn.1674-4861.2023.04.014
Citation: SHEN Jinxing, JIANG Wenfeng, CAO Huimin, MA Changxi. A Study on Impact of Curb Parking on Road Capacity Using Cellular Automata[J]. Journal of Transport Information and Safety, 2023, 41(4): 132-142. doi: 10.3963/j.jssn.1674-4861.2023.04.014

基于元胞自动机的路内停车对路段通行能力的影响研究

doi: 10.3963/j.jssn.1674-4861.2023.04.014
基金项目: 

国家自然科学基金项目 51808187

国家自然科学基金项目 52062027

详细信息
    作者简介:

    沈金星(1985—),博士,副教授. 研究方向:交通安全与环境. E-mail:shenjx03@163.com

    通讯作者:

    马昌喜(1979—),博士,教授. 研究方向:交通运输系统优化与设计. E-mail:machangxi@mail.lzjtu.cn

  • 中图分类号: U491

A Study on Impact of Curb Parking on Road Capacity Using Cellular Automata

  • 摘要: 设置路内泊位是解决停车供需不平衡问题的1种重要的措施。然而,不合理的路内泊位设置不仅无法解决停车难的问题,还会降低道路通行能力,导致交通拥堵,从而衍生出一系列交通问题。为进一步从微观层面探究路内停车泊位供求关系以及停车便利性对路段通行能力的影响,构建了1个包括跟驰模型、换道模型和停靠模型的单向双车道元胞自动机模型。在跟驰模型中,通过为停车路段和非停车路段设置不同的慢化概率,探究机动车正常行驶和巡游停靠过程的差异性。在停靠模型中,通过设置停车机动持续时间,解析路内停车便利性对路段通行能力的影响。基于实地调查数据,对模型中正常行驶车辆和巡游停靠车辆的运行规则分别进行了标定,并对模型的可靠性进行了验证。与现有模型的对比分析结果表明,本文模型具有最好的拟合效果,平均绝对误差指标可以降低53.74%~75.71%,能更真实地反应路内停车过程对路段交通流的影响。随着交通流密度的增加,本文模型的平均绝对误差指标可以降低16.39%~52.85%,可以避免过高估计路内泊位对路段通行能力的负面影响,是现有研究的重要补充。在开放边界条件下,分别探究了停车需求、便利性和供给能力变化情景下路段通行能力的变化特征。3种不同场景下路段通行能力均有明显的波动,且停车需求变化的影响最显著。具体地,停车需求由路段交通流量的10%上升至30%时,通行能力下降44.12%;当停车便利性降低,停车机动持续时间由5 s提高到15 s时,通行能力下降24.44%;在500 m的路段上,当停车供给能力由20个停车泊位提高到50个时,通行能力下降39.39%。

     

  • 图  1  单向双车道路内停车模型示意图

    Ld停车  Ld停车带起始位置  Lb巡航停靠车待停入位  Ls停车带终止位置

    Figure  1.  One-way two-lane curb parking model diagram

    图  2  巡游停车过程示意图

    Figure  2.  Schematic diagram of parking and cruising process

    图  3  宁海路路内泊位设置现状

    Figure  3.  Present situation of Ninghai Road in Nanjing

    图  4  不同慢化概率、换道概率下的流量-密度图

    Figure  4.  Flow-density chart under different slowing probabilities and lane changing probabilities

    图  5  不同慢化概率、换道概率下的平均速度绝对误差

    Figure  5.  Absolute error of average speed under different slowing probabilities and lane changing probabilities

    图  6  仿真值与观测值的散点图对比

    Figure  6.  Scatter plot comparison between simulation value and observation value

    图  7  仿真值与观测值的流量-密度分布图

    Figure  7.  Flow-density distribution of simulated and observed values

    图  8  不同停车需求的速度热力图

    Figure  8.  Thermal diagram of speed with different parking demand

    图  9  不同停车需求对道路交通流的影响

    Figure  9.  The impact of different parking demands on road traffic flow

    图  10  不同停车便利性的速度热力图

    Figure  10.  Thermal diagram of speed with different parking convenience

    图  11  不同停车机动持续时间下对道路交通流的影响

    Figure  11.  The impact of different duration of parking maneuvers on road traffic flow

    图  12  不同停车供给能力的速度热力图

    Figure  12.  Thermal diagram of speed with different parking supply capacities

    图  13  不同停车供给能力对道路交通流的影响

    Figure  13.  The impact of different parking supply capacities on road traffic flow

    表  1  通行能力仿真值与观测值的平均绝对误差

    Table  1.   Mean absolute error between simulated and observed road capacity

    密度区间/(veh/km) MAE/%
    本文模型 文献[21]模型 文献[15]模型
    [0, 20] 9.84 11.76 15.93
    (20,40] 4.64 12.32 21.91
    (40,60] 4.76 12.20 26.17
    (60,80] 3.98 18.19 31.66
    平均值 5.81 13.62 23.92
    下载: 导出CSV
  • [1] DAVE S M, JOSHI G J, RAVINDER K, et al. Data monitoring for the assessment of on-street parking demand in CBD areas of developing countries[J]. Transportation Research Part A: Policy and Practice, 2019, 126: 152-171. doi: 10.1016/j.tra.2019.05.009
    [2] YAN H, LI M, LIN X. Time-dependent on-street parking planning in a connected and automated environment[J]. Transportation Research Part C: Emerging Technologies, 2022, 142: 103745. doi: 10.1016/j.trc.2022.103745
    [3] GUO H, GAO Z, YANG X, et al. Modeling travel time under the influence of on-street parking[J]. Journal of Transportation Engineering, 2012, 138(2): 229-235. doi: 10.1061/(ASCE)TE.1943-5436.0000319
    [4] KUREK A, MACIOSZEK E. Impact of parking maneuvers on the capacity of the inlets of intersections with traffic lights for road traffic conditions in Poland[J]. Sustainability, 2022, 14(1): 432-432.
    [5] AGBELIE B. Accounting for unobserved heterogeneity in on-streetparking crash frequency[J]. Journal of Transportation Safety & Security, 2020, 12(8): 997-1006.
    [6] MEI Z Y, CHEN J. Modified motor vehicles travel speed models on the basis of curb parking setting under mixed traffic flow[J]. Mathematical Problems in Engineering, 2012, 2012(1): 1-14.
    [7] CAO J, MENENDEZ M. Generalized effects of on-street parking maneuvers on the performance of nearby signalized intersections[J]. Transportation Research Record, 2015, 2483: 30-38. doi: 10.3141/2483-04
    [8] CAO Y, YANG Z Z, ZUO Z Y. The effect of curb parking on road capacity and traffic safety[J]. European Transport Research Review, 2017, 9(1): 1-10. doi: 10.1007/s12544-016-0217-5
    [9] 程国柱, 冯思鹤, 冯天军. 占用车行道的路内停车泊位设置条件[J]. 吉林大学学报(工学版), 2019, 49(6): 1858-1864. doi: 10.13229/j.cnki.jdxbgxb20180928

    CHENG G Z, FENG S H, FENG T J. Setting condition of on-street parking space occupied vehicle lane[J]. Journal of Jilin University(Engineering and Technology Edition), 2019, 49(6): 1858-1864(. in Chinese) doi: 10.13229/j.cnki.jdxbgxb20180928
    [10] WEINBERGER R R, MILLARD-BALL A, HAMPSHIRE R C. Parking search caused congestion: Where's all the fuss?[J]. Transportation Research Part C: Emerging Technologies, 2020, 20(1): 1-15.
    [11] 裴玉龙, 杨远帆. 双向两车道路内停车影响下的阻滞延误模型[J]. 城市交通, 2020, 18(3): 119-126. https://www.cnki.com.cn/Article/CJFDTOTAL-CSJT202003021.htm

    PEI Y L, YANG Y F. Block delay model under the influence of on-street parking in two-way two-lane road[J]. Urban Transport of China, 2020, 18(3): 119-126(. in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-CSJT202003021.htm
    [12] ASSEMI B, BAKER D, PAZ A. Searching for on-street parking: An empirical investigation of the factors influencing cruise time[J]. Transport Policy, 2020, 97: 186-196. doi: 10.1016/j.tranpol.2020.07.020
    [13] YAN H, LI M, LIN X. Time-dependent on-street parking planning in a connected and automated environment[J]. Transportation Research Part C: Emerging Technologies, 2022, 142: 103745. doi: 10.1016/j.trc.2022.103745
    [14] WANG W, ZHOU Y W, LIU J B, et al. On-street cruising for parking model in consideration with gaming elements and its impact analysis[J]. Mathematics, 2022, 10(19): 3423. doi: 10.3390/math10193423
    [15] 韦兰香, 梁玉娟. 考虑路内停车的元胞自动机交通流能耗模型[J]. 科技通报, 2017, 33(1): 216-220. https://www.cnki.com.cn/Article/CJFDTOTAL-KJTB201701046.htm

    WEI L X, LIANG Y J. Cellular automaton traffic flow energy loss model considering curb parking[J]. Bulletin of Science and Technology, 2017, 33(1): 216-220(. in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-KJTB201701046.htm
    [16] CHEN J X, LI Z B, JIANG H. Simulating the impacts of on-street vehicle parking on traffic operations on urban streets using cellular automation[J]. Physica A: Statistical Mechanics and its Applications, 2017, 468: 880-891. doi: 10.1016/j.physa.2016.11.060
    [17] KRZYSZTOF M. A computer simulation of traffic flow with on-street parking and drivers' behaviour based on cellular automata and a multi-agent system[J]. Journal of Computational Science, 2018, 28: 32-42. doi: 10.1016/j.jocs.2018.07.005
    [18] HU X, HAO X, WANG H, et al. Research on on-street temporary parking effects based on cellular automaton model under the framework of Kerner's three-phase traffic theory[J]. Physica A: Statistical Mechanics and its Applications, 2020, 545: 123725. doi: 10.1016/j.physa.2019.123725
    [19] MADUSHANKAP H S, JAYARATNE D N D, PASINDUH R. Study of the impact roadside parking has on traffic flow characteristics-a vissim simulation based approach[C]. 6th International Multidisciplinary Moratuwa Engineering Research Conference, Moratuwa, SRI LANKA: IEEE, 2020.
    [20] YANG J H, ZANG X D, LUO Q, et al. Analysis on stability of roadside parking system in a rail-integrated transport hub[J]. Sustainability, 2021, 13(9): 4855. doi: 10.3390/su13094855
    [21] 张月, 孙立山, 孔德文, 等. 基于元胞自动机模型的路侧停车行为对交通流的影响研究[J]. 交通信息与安全, 2022, 40(3): 154-162. doi: 10.3963/j.jssn.1674-4861.2022.03.016

    ZHANG Y, SUN L S, KONG D W, et al. Accessing the impacts of curb parking behavior on traffic flows through cellular automata models[J]. Journal of Transport Information and Safety, 2022, 40(3): 154-162. (in Chinese) doi: 10.3963/j.jssn.1674-4861.2022.03.016
    [22] SUI X L, YE X F, WANG T, et al. Microscopic simulating the impact of cruising for parking on traffic efficiency and emission with parking-and-visit test data[J]. International Journal of Environmental Research and Public Health, 2022, 19(15): 9127. doi: 10.3390/ijerph19159127
    [23] 钱勇生, 汪海龙. 考虑公交车辆影响的城市交通流元胞自动机模型[J]. 系统仿真学报, 2007, 19(14): 3358-3360. doi: 10.3969/j.issn.1004-731X.2007.14.059

    QIAN Y S, WANG H L. New cellular automaton city traffic model considering public transport vehicles affect with mixed traffic flow[J]. Journal of System Simulation, 2007, 19(14): 3358-3360(. in Chinese) doi: 10.3969/j.issn.1004-731X.2007.14.059
    [24] LI Q L, JIANG R, DING Z J, et al. A new cellular automata traffic flow model considering asynchronous update of vehicle velocity[J]. International Journal of Modern Physics C, 2020, 31(12): 2050167. doi: 10.1142/S0129183120501673
    [25] ZHAO H T, ZHAO X, XIN L Y. Cellular automaton model for three-lane urban road considering Internet of Vehicles lane[J]. International Journal of Modern Physics C, 2020, 31(12): 2050179.
    [26] FINDLEY D J, NYE T S, LATTIMORE E, et al. Safety effects of parking maneuvers[J]. Transportation Research Part F: Traffic Psychology and Behaviour, 2020, 69(6): 301-310.
    [27] JIANG R, WU Q S. Cellular automata models for synchronized traffic flow[J]. Journal of Physics A: Mathematical and General, 2002, 36(2): 381-390.
    [28] 梁军, 耿浩然, 陈龙, 等. 融入公交车与自动驾驶车队的异质交通流模型[J/OL]. (2022-09)[2023-08-31]. http://kns.cnki.net/kcms/detail/51.1277.U.20220920.1748.015.html.

    LIANG J, GENG H R, CHEN L, et al. Integrated heterogeneous traffic flow model of bus and autonomous vehicle platoon[J/OL]. (2022-09) [2021-08-31]. http://kns.cnki.net/kcms/detail/51.1277.U.20220920.1748.015.html. (in Chinese)
    [29] 邵长桥, 杨乔乔. 路侧停车行为对基本路段通行能力的影响分析[J]. 重庆交通大学学报(自然科学版), 2018, 37(1): 80-84. https://www.cnki.com.cn/Article/CJFDTOTAL-CQJT201801013.htm

    SHAO C Q, YANG Q Q. Influences of curb parking behavior on traffic capacity of basic road section[J]. Journal of Chongqing Jiaotong University(Natural Science), 2018, 37(1): 80-84. (in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-CQJT201801013.htm
    [30] 刘小明, 王力. 考虑路内停车的元胞自动机交通流模型[J]. 吉林大学学报(工学版), 2012, 42(2): 327-333. https://www.cnki.com.cn/Article/CJFDTOTAL-JLGY201202013.htm

    LIU X M, WANG L. Cellular automaton traffic flow model considering on-street parking[J]. Journal of Jilin University (Engineering and Technology Edition), 2012, 42(2): 327-333(. in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-JLGY201202013.htm
    [31] 陈学文, 张进国, 刘伟川, 等. 汽车巡航系统前方关键目标识别研究[J]. 机械科学与技术, 2017, 36(9): 1434-1440. https://www.cnki.com.cn/Article/CJFDTOTAL-JXKX201709020.htm

    CHEN X W, ZHANG J G, LIU W C, et al. Research on key target distinguishing method of automobile cruise system[J]. Mechanical Science and Technology for Aerospace Engineering, 2017, 36(9): 1434-1440(. in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-JXKX201709020.htm
    [32] 曹淑超, 孙菲阳, 李阳. 考虑时空分布特征的混合自行车流元胞自动机模型仿真方法[J]. 交通信息与安全, 2022, 40(2): 98-107. doi: 10.3963/j.jssn.1674-4861.2022.02.012

    CAO S C, SUN F Y, LI Y. A cellular automaton simulation model consideringspatial-temporal distributionfor mixed bicycle flows[J]. Journal of Transport Information and Safety, 2022, 40(2): 154-162(. in Chinese) doi: 10.3963/j.jssn.1674-4861.2022.02.012
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  • 收稿日期:  2023-03-15
  • 网络出版日期:  2023-11-23

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