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常态化疫情防控阶段旅客中长距离城际出行联合选择行为建模

方瑞韬 邵海鹏 林涛

方瑞韬, 邵海鹏, 林涛. 常态化疫情防控阶段旅客中长距离城际出行联合选择行为建模[J]. 交通信息与安全, 2023, 41(1): 151-160. doi: 10.3963/j.jssn.1674-4861.2023.01.016
引用本文: 方瑞韬, 邵海鹏, 林涛. 常态化疫情防控阶段旅客中长距离城际出行联合选择行为建模[J]. 交通信息与安全, 2023, 41(1): 151-160. doi: 10.3963/j.jssn.1674-4861.2023.01.016
FANG Ruitao, SHAO Haipeng, LIN Tao. A Joint Mode Choice Behavior Model of Long-distance Intercity Passenger Travel during the Periods with Regular Epidemic Prevention and Control Measures[J]. Journal of Transport Information and Safety, 2023, 41(1): 151-160. doi: 10.3963/j.jssn.1674-4861.2023.01.016
Citation: FANG Ruitao, SHAO Haipeng, LIN Tao. A Joint Mode Choice Behavior Model of Long-distance Intercity Passenger Travel during the Periods with Regular Epidemic Prevention and Control Measures[J]. Journal of Transport Information and Safety, 2023, 41(1): 151-160. doi: 10.3963/j.jssn.1674-4861.2023.01.016

常态化疫情防控阶段旅客中长距离城际出行联合选择行为建模

doi: 10.3963/j.jssn.1674-4861.2023.01.016
基金项目: 

国家重点研发计划项目 2019YFB1600302

详细信息
    作者简介:

    方瑞韬(1998—),硕士研究生.研究方向:出行行为. E-mail:fangruitao@chd.edu.cn

    通讯作者:

    邵海鹏(1978—),博士,教授.研究方向:交通设计、出行行为等. E-mail:shaohp@chd.edu.cn

  • 中图分类号: U125

A Joint Mode Choice Behavior Model of Long-distance Intercity Passenger Travel during the Periods with Regular Epidemic Prevention and Control Measures

  • 摘要: 新冠肺炎疫情对旅客中长距离的城际交通出行影响巨大,现有研究侧重疫情暴发初期疫情对城际交通出行的影响,针对常态化疫情防控阶段旅客城际出行选择行为的研究相对较少,因此,本文旨在研究常态化疫情防控阶段旅客中长距离城际出行选择行为。针对民航、高铁、普铁和自驾等方式分别建立包含4种城际出行方式的多指标多因果出行选择模型(MIMIC),模型中引入感知防疫安全程度、防疫策略、乘车体验与出行习惯4个潜变量,探究潜变量与观测变量的因子载荷并辨识模型参数,求取各潜变量的拟合值;在此基础上建立考虑出行方式特性、旅客社会经济属性与潜变量的多出行方式联合选择行为模型(MIMIC-Logit),探究常态化疫情防控阶段旅客出行心理对其出行决策的影响;假设出行费用、时间与距离等变量的随机系数服从正态分布,采用抽样1000次的Halton序列对随机系数进行仿真求解,得到随机系数的回归分析结果。以2021年4月—6月到达西安旅客的调查数据为例进行实证研究,结果发现:所提MIMIC-Logit模型的拟合优度与命中率分别为43.621%与83.312%,均高于多项Logit模型与随机系数Logit模型;旅客对不同方式的出行费用、时间与距离的偏好具有异质性,且出行方式特性、社会经济属性与潜变量都对出行选择的效用有显著影响。弹性分析表明,当感知防疫安全程度与防疫策略提升了100%时,旅客选择民航出行的概率分别提升了23.207%与21.349%;而当乘车体验提升了100%时,旅客选择高铁出行的概率提升了18.229%。综上,所提方法揭示了潜变量对旅客出行选择行为的显著影响;通过提升感知防疫安全程度、防疫策略与乘车体验等手段,可以提升旅客选择高铁、民航出行的概率。

     

  • 图  1  MIMIC-Logit模型的框架

    Figure  1.  The framework of MIMIC-Logit integrated model

    图  2  MIMIC模型的结构

    Figure  2.  The structure of the MIMIC model

    图  3  MIMIC模型求解结果

    Figure  3.  Results of MIMIC model

    图  4  潜变量对出行方式选择概率的弹性

    Figure  4.  Elasticity of latent variables to intercity travel mode choice

    表  1  潜变量与其指标观测变量的对应关系

    Table  1.   The relationship between latent variables and their indicators

    潜变量 变量代码 指标观测变量
    感知防疫安全程度 PS 我认为该方式的防疫服务水平是安全的
    我认为该方式能提供有效的防疫保障措施
    我认为乘坐该方式不增加疫情防控的难度
    防疫策略 S 我认为该方式的消杀通风程度很好
    我认为该方式能保持旅客间的安全距离
    我认为该方式的防疫宣传很好
    乘车体验 TE 我认为该方式的内部环境很好
    我认为该方式的座椅舒适
    我认为该方式传播病毒的概率较低
    我认为该方式的防疫设施完善
    出行习惯 H 即使出现疫情,该方式仍然是我的最优选择
    疫情影响下,我更倾向于乘坐该方式
    疫情爆发前,我乘坐该方式的频率很高
    下载: 导出CSV

    表  2  显变量定义

    Table  2.   Definition of observable variables

    类别 变量名称 变量代码 变量解释
    出行特征 城市等级 CL 一线城市;二线城市;三线城市;四线城市
    出行距离/km D 出发城市与到达城市之间的直线距离
    出行费用/元 CO 城际出行总费用
    出行时长/h T 0~2;>2~3;>3~4;>4~5;>5~6;>6
    换乘次数 CH 无需换乘;1次换乘;超过1次换乘
    出发时刻 DT 当日13:00之前;当日13:00之后
    天气 W 晴天;多云;雨、雪、雾等
    行李数 B 有无大件行李
    同行人数/人 P 0;1;≥ 2
    出行目的 PU 旅游;其他
    社会经济属性 月收入/元 I 0~3 000;>3 000~6 000;>6 000~9 000;>9 000~12 000;>12 000
    受教育程度 E 初中及以下;高中/中专;大专;本科;硕士及以上
    职业 J 学生;国有企业;事业单位;公务员;民营企业;外资企业
    年龄/岁 A 0~20;>20~26;>26~32;>32~39;>39~46;>46~53;>53
    性别 G 男;女
    小汽车拥有量 CA 是;否
    下载: 导出CSV

    表  3  MIMIC模型拟合度评价指标

    Table  3.   Fitness evaluation index of the MIMIC model

    拟合度评价指标 MIMIC-P模型 MIMIC-H模型 MIMIC-T模型 MIMIC-C模型 推荐范围
    实际值 实际值 实际值 实际值
    CMIN/df 1.665 1.533 1.776 1.543 < 3.0
    RMSEA 0.045 0.036 0.044 0.041 < 0.05
    GFI 0.917 0.918 0.907 0.916 >0.90
    CFI 0.975 0.976 0.957 0.976 >0.90
    TLI 0.966 0.974 0.958 0.971 >0.90
    注:MIMIC-P模型、MIMIC-H模型、MIMIC-T模型,以及MIMIC-C模型分别为民航、高铁、普铁以及自驾出行的MIMIC模型。
    下载: 导出CSV

    表  4  MIMIC模型的结构模型结果

    Table  4.   Results of the structure model

    方式 潜变量 E J A G I CA
    民航 PS 0.127 0.097
    S 0.114 0.106 0.094
    TE 0.108 0.131
    H 0.151 -0.126
    高铁 PS 0.134 0.094
    S 0.131 0.120 0.108
    TE 0.137 0.114
    H 0.136 -0.154
    普铁 PS 0.144 0.093
    S 0.106 0.135 0.117
    TE 0.103 0.127
    H 0.121 -0.099
    自驾 PS 0.114 0.095
    S 0.154 0.098 0.108
    TE 0.132 0.115 0.138
    H 0.128 0.117
    注:表中参数值均满足p < 0.1的显著性检验。
    下载: 导出CSV

    表  5  MNL模型与MIMIC-Logit模型的回归分析结果

    Table  5.   Regression analysis results of MNL model and MIMIC-Logit integrated model

    变量 MNL模型 随机系数Logit模型 MIMIC-Logit模型
    高铁 普铁 自驾 高铁 普铁 自驾 高铁 普铁 自驾
    出行方式特征 CO -0.079*** -0.093* 0.041*** -0.096*** -0.046* 0.037*** -0.075*** -0.067** 0.043***
    T -0.256** 0.647* -0.624* -0.156* 0.732* -0.557**
    D -0.017* 0.033** -0.074* -0.035* 0.030** -0.079* -0.013** 0.040** -0.061*
    DT -0.876* -1.403* -0.880* -1.432* -0.833* -1.275*
    W 0.705* -0.108* 0.776* -0.119* 0.376** -0.274*
    B 0.064* 0.332** 0.058* 0.339** 0.096** 0.338**
    P -0.196* 0.048** -0.198* 0.042** -0.142** 0.083*
    社会经济属性 CA -0.224** -0.330** 1.486*** -0.236** -0.358** 1.320*** -0.245** -0.330** 1.375***
    E -0.427** -0.641** -0.441** -0.627** -0.461** -0.602**
    A 0.457** 0.159* -0.267** 0.466** 0.143* -0.257** 0.448** 0.165* -0.264**
    G 0.132** 0.170** -0.162** 0.158** 0.186** -0.164** 0.180** 0.196** -0.142**
    I -0.664* -0.830** -0.770** -0.667* -0.833** -0.756** -0.643* -0.827** -0.763**
    潜变量 PS -0.658** -0.440** -1.405***
    S -0.426* -0.236** -0.649*
    TE -0.214* 0.089* -0.423**
    H -0.246* 1.442** 1.907*
    常数项 CON -2.332** -1.661* -3.049** -2.368** -1.627* -3.421** -1.033** 0.356** -1.744***
    对数似然估计值 -808.232 -787.306 -729.513
    拟合优度比/% 34.713 36.422 43.621
    命中率/% 77.89 79.83 83.31
    注:*,**,***表示显著性水平为1%,5%,10%;随机系数Logit模型与MIMIC-Logit模型中,COTD的参数结果为其服从正态分布的均值。
    下载: 导出CSV

    表  6  需求弹性估计值

    Table  6.   Demand elasticity estimates

    出行方式 CO D PS S TE
    民航 0.140 -0.124 -0.233 -0.208 -0.048
    高铁 -0.123 -0.115 -0.091 -0.139 -0.176
    普铁 -0.158 -0.076 -0.154 -0.057 -0.033
    自驾 0.059 -0.118 -0.172 -0.174 -0.080
    下载: 导出CSV
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    CHEN Y X, CHEN L, ZHA Q F, et al. A travel mode forecasting model based on low-carbon psychological latent variable logit model[J]. Journal of Highway and Transportation Research and Development, 2017, 34(9): 100-108, 137. (in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-GLJK201709015.htm
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出版历程
  • 收稿日期:  2022-07-01
  • 网络出版日期:  2023-05-13

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