考虑停车位置和步行成本的双起点单讫点通勤均衡分析

唐廷彩, 姜锐

doi:10.12066/j.issn.1007-2861.2363

上海大学学报(自然科学版) >

2022 , Vol. 28 >Issue 2: 201 - 214

DOI: https://doi.org/10.12066/j.issn.1007-2861.2363

城市交通与环境

考虑停车位置和步行成本的双起点单讫点通勤均衡分析

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北京交通大学交通运输学院, 北京 100044

姜锐(1978--), 男, 教授, 博士生导师, 博士,研究方向为交通运输管理. E-mail: jiangrui@bjtu.edu.cn

收稿日期: 2021-11-29

网络出版日期: 2022-04-28

基金资助

国家重点研发计划资助项目(2019YFF0301300)

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An equilibrium analysis of commuting considering location of parking slot and walking cost in a two-to-one network

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School of Traffic and Transportation, Beijing Jiaotong University, Beijing 100044, China

Received date: 2021-11-29

Online published: 2022-04-28

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摘要

考虑来自两处不同居住地的通勤者, 经由两条完全不重叠的含有瓶颈的道路,到达同一个工作地上班的问题, 引入两组通勤者对于停车位的竞争,在瓶颈模型的基础上, 构造停车位置函数,建立了考虑步行成本的出发时间选择模型.根据两组通勤者通勤高峰开始及结束的早晚关系, 将均衡状态分为 4 种情形, 并进一步考虑通勤者准点到达时刻, 分为 14 种子情形,推导得出了通勤者的出发和到达曲线. 最后,通过算例分析了两组通勤者时间价值相同且两条道路的瓶颈通行能力相同的条件下,均衡态随步行速度、出行人数变化的情况.

关键词： 双起点单讫点网络; 早高峰通勤问题; 瓶颈模型; 停车位置; 步行成本

本文引用格式

唐廷彩, 姜锐 . 考虑停车位置和步行成本的双起点单讫点通勤均衡分析[J]. 上海大学学报(自然科学版), 2022 , 28(2) : 201 -214 . DOI: 10.12066/j.issn.1007-2861.2363

Abstract

Commuters from two different residence places drive to the same working place through two completely non-overlapping highways with bottlenecks and share a parking space. Based on the classical bottleneck model, we introduced competition for parking spaces between the two groups of commuters, constructed a function about location of parking slot and established the departure time choice model considering walking cost. Based on the start time and end time of the rush hour of the two groups, the equilibrium state can be classified into four situations. Considering the time of on time arrival, the four situations can be further classified into 14 sub-situations. We have derived the departure pattern and arrival pattern of the commuters in these sub-situations. Finally, considering the scenario that two groups of commuters have the same value of time and the bottleneck capacities on the two highways are also the same, numerical examples have been presented to show how the equilibrium state changes with walking speed and commuter numbers.

Key words： two-to-one network; morning rush hour commute problem; bottleneck model; location of parking slot; walking cost

参考文献

[1]	Vickrey W S. Congestion theory and transport investment[J]. American Economic Review, 1969, 59(2): 251-260.
[2]	Smith M J. The existence of a time-dependent equilibrium distribution of arrivals at a single bottleneck[J]. Transport Sci, 1984, 18(4): 385-394.
[3]	Daganzo C F. The uniqueness of a time-dependent equilibrium distribution of arrivals at a single bottleneck[J]. Transport Sci, 1985, 19(1): 29-37.
[4]	de Palma A, Lindsey R, Quinet E, et al. Handbook of transport economics[M]. Vilnius, Lithuania: Edward Elgar Publishing, 2011: 29-37.
[5]	Small K A. The bottleneck model: an assessment and interpretation[J]. Economics of Transportation, 2015, 4: 110-117.
[6]	Li Z C, Huang H J, Yang H. Fifty years of the bottleneck model: a bibliometric review and future research directions[J]. Transportation Research Part B, 2020, 139: 311-342.
[7]	Arnott R, de Palma A, Lindsey R. A temporal and spatial equilibrium analysis of commuter parking[J]. Journal of Public Economics, 1991, 45(3): 301-335.
[8]	Zhang X, Huang H J, Zhang H M. Integrated daily commuting patterns and optimal road tolls and parking fees in a linear city[J]. Transportation Research Part B, 2008, 42(1): 38-56.
[9]	Shoup D C. Cruising for parking[J]. Transp Policy, 2006, 13(5): 479-486.
[10]	Liu W, Geroliminis N. Modeling the morning commute for urban networks with cruising-for-parking: an MFD approach[J]. Transportation Research Part B, 2016, 93: 470-494.
[11]	Qian Z, Xiao F, Zhang H M. The economics of parking provision for the morning commute[J]. Transportation Research Part A, 2011, 45(9): 861-879.
[12]	Qian Z, Xiao F, Zhang H M. Managing morning commute traffic with parking[J]. Transportation Research Part B, 2012, 46(7): 894-916.
[13]	Zhang X N, Yang H, Huang H J. Improving travel efficiency by parking permits distribution and trading[J]. Transportation Research Part B, 2011, 45: 1018-1034.
[14]	Zhang X, van Wee B. Efficiency comparison of various parking charge schemes considering daily travel cost in a linear city[J]. European Journal of Transport and Infrastructure Research, 2011, 11(2): 234-255.
[15]	Fosgerau M, de Palma A. The dynamics of urban traffic congestion and the price of parking[J]. Journal of Public Economics, 2013, 105: 106-115.
[16]	Yang H, Liu W, Wang X, et al. On the morning commute problem with bottleneck congestion and parking space constraints[J]. Transportation Research Part B, 2013, 58: 106-118.
[17]	Liu W, Yang H, Yin Y. Expirable parking reservations for managing morning commute with parking space constraints[J]. Transportation Research Part C, 2014, 44: 185-201.
[18]	Liu W, Zhang F, Yang H. Managing morning commute with parking space constraints in the case of a bi-modal many-to-one network[J]. Transportmetrica A, 2016, 12(2): 116-141.
[19]	Wang J, Wang H, Zhang X N. A hybrid management scheme with parking pricing and parking permit for a many-to-one park and ride network[J]. Transportation Research Part C, 2020, 112: 153-179.

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