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面向空铁联运旅客选择行为的两阶段容量控制方法

杨文东 彭纪元 姜雨

杨文东, 彭纪元, 姜雨. 面向空铁联运旅客选择行为的两阶段容量控制方法[J]. 交通信息与安全, 2023, 41(6): 124-131. doi: 10.3963/j.jssn.1674-4861.2023.06.014
引用本文: 杨文东, 彭纪元, 姜雨. 面向空铁联运旅客选择行为的两阶段容量控制方法[J]. 交通信息与安全, 2023, 41(6): 124-131. doi: 10.3963/j.jssn.1674-4861.2023.06.014
YANG Wendong, PENG Jiyuan, JIANG Yu. A Two-stage Capacity Control Method for Air-rail Passenger Choice Behavior[J]. Journal of Transport Information and Safety, 2023, 41(6): 124-131. doi: 10.3963/j.jssn.1674-4861.2023.06.014
Citation: YANG Wendong, PENG Jiyuan, JIANG Yu. A Two-stage Capacity Control Method for Air-rail Passenger Choice Behavior[J]. Journal of Transport Information and Safety, 2023, 41(6): 124-131. doi: 10.3963/j.jssn.1674-4861.2023.06.014

面向空铁联运旅客选择行为的两阶段容量控制方法

doi: 10.3963/j.jssn.1674-4861.2023.06.014
基金项目: 

国家自然科学基金项目 52372298

详细信息
    通讯作者:

    杨文东(1975—),博士,副教授. 研究方向:交通运输规划与管理.E-mail: ywendong@nuaa.edu.cn

  • 中图分类号: U116

A Two-stage Capacity Control Method for Air-rail Passenger Choice Behavior

  • 摘要: 针对空铁联运容量控制理论缺乏、旅客选择行为复杂化等问题,研究了基于旅客选择行为的空铁联运两阶段容量控制方法。第一阶段建立旅客选择行为模型,通过引入影子吸引力,改进现有选择模型中忽略竞争、选项单一的缺点,建立空铁联运产品选择模型,并基于巢式Logit模型证明其合理性;第二阶段以最大化联运期望收入为目标,建立空铁联运网络容量控制模型,并基于分支定界思想,提出嵌套产品子集下的模型求解算法;最后,针对空-铁网络上150座级机型的容量控制问题进行验证,并对比分析不同竞争强度下的网络期望收入。结果表明:150座航班中有91个舱位分配给航空市场的旅客,有59个舱位分配给联运市场的旅客,网络期望收入为160 600元;在综合考虑替代品竞争的情况下,票价低且竞争性高的产品更具有收入价值;此外,改进后的模型通过引入影子吸引力,捕获了基本吸引力模型和独立需求模型之间的需求,相较于独立需求模型能提高4%左右的期望收入;并且,在非联运产品和联运产品的舱位总数相持的策略下,航空公司可有效应对联运市场的竞争因素影响。

     

  • 图  1  空-铁联运网络

    Figure  1.  Air-rail intermodal network

    图  2  旅客选择流程

    Figure  2.  Process of passenger choice

    图  3  不同控制模型下的网络期望收入

    Figure  3.  Network expected revenue under different control models

    图  4  不同l对应的网络期望收入变化图

    Figure  4.  Network expected revenue for l

    表  1  产品和对应价格

    Table  1.   Products and corresponding prices

    细分市场 产品序号 产品 价格/元 说明
    l = 1 j = 1 ABH 1 200 商务舱(Z)
    j = 2 ABL1 900 经济舱(Y)
    j = 3 ABL2 700 经济舱(Q)
    h = 2 j = 1 ABCH1 1 400 商务舱(Z)+一等座
    j = 2 ABCH2 1 300 商务舱(Z)+二等座
    h = 3 j = 1 ABCL1 1 000 经济舱(Y)+二等座
    j = 2 ABCL2 900 经济舱(Q)+二等座
    下载: 导出CSV

    表  2  产品吸引力和影子吸引力

    Table  2.   Products attraction value and shadow attraction value

    $(v, w) $ $ A B_H$ $A B_{L 1}$ $A B_{L 2}$ $A B C_{H 1}$ $A B C_{H 2}$ $A B C_{L 1}$ $A B C_{L 2}$ 不购买
    l = 1 (6,1) (8,2) (9,2) 1
    h = 2 (10,2) (9,2) 2
    h = 3 (5,1) (10,1) 2
    下载: 导出CSV

    表  3  模型输出结果

    Table  3.   Output results of model

    数量/个 $ A B_H$ $A B_{L 1}$ $A B_{L 2}$ $A B C_{H 1}$ $A B C_{H 2}$ $A B C_{L 1}$ $A B C_{L 2}$ 网络期望收入/元
    l = 1 45 46 0 95 400
    h = 2 18 30 400
    h = 3 24 12 34 800
    总计 45 46 0 5 18 24 12 160 600
    下载: 导出CSV

    表  4  各细分市场上甲航空公司提供的产品子集及时长比例

    Table  4.   Product assortments in each segment and the optimal proportion of offering time

    细分市场 产品子集 时长比例/%
    l=1 $S_{11}=\left\{A B_H\right\}$ 16.04
    $S_{12}=\left\{A B_H, A B_{L 1}\right\}$ 81.46
    $S_{13}=\left\{A B_H, A B_{L I}, A B_{L 2}\right\}$ 0
    h=2 $S_{21}=\left\{A B C_{H 2}\right\}$ 65.00
    $S_{22}=\left\{A B C_{H 2}, A B C_{H 1}\right\}$ 35.00
    h=3 $S_{31}=\left\{A B C_{L\}}\right\}$ 57.60
    $S_{32}=\left\{A B C_{L 1}, A B C_{L 2}\right\}$ 40.80
    下载: 导出CSV

    表  5  不同比值参数及对应模型输出结果

    Table  5.   Output of model for different parameters

    ρ 网络期望收入/元 舱位数量/个
    $ A B_H$ $A B_{L 1}$ $A B_{L 2}$ $A B C_{H 1}$ $A B C_{H 2}$ $A B C_{L 1}$ $A B C_{L 2}$
    0.0 180 571 103 0 0 25 0 22 0
    0.1 174 101 82 0 0 14 13 20 21
    0.2 167 080 61 18 0 14 13 15 29
    0.3 163 540 49 30 0 14 13 15 29
    0.4 161 596 43 36 0 14 13 15 29
    0.5 160 367 39 40 0 14 13 15 29
    0.6 159 520 36 43 0 14 13 15 29
    0.7 158 901 34 45 0 14 13 15 29
    0.8 157 728 32 43 4 14 13 15 29
    0.9 156 777 31 41 7 14 13 15 29
    1.0 156 008 30 40 9 14 13 15 29
    下载: 导出CSV
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出版历程
  • 收稿日期:  2023-07-19
  • 网络出版日期:  2024-04-03

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