具有随机通行能力瓶颈的出发时间选择均衡与收费策略

J. Long, Hai Yang, W. Y. Szeto
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引用次数: 8

摘要

本文建立了一个瓶颈模型,该模型假定瓶颈的容量是随机的,并遵循具有正上界的一般分布。采用基于平均出行成本的用户均衡原理,对随机瓶颈条件下通勤者的出发时间选择进行了研究。研究发现,存在五种可能的均衡出发模式,这取决于通勤者的单位出行时间成本、早晚延误和瓶颈随机容量的不确定性。所有可能的平衡偏离模式都是解析导出的。分析结果和数值结果都表明,增加瓶颈通行能力的不确定性会导致通勤者个人平均出行成本的增加。此外,在提出的随机瓶颈模型中,设计了时变收费方案和单步粗收费方案。我们提供了一种分析方法来确定两种收费策略的详细收费方案。数值结果表明,从降低平均社会总成本的角度来看,所提出的收费方案确实能提高随机瓶颈的效率,时变收费方案比单步粗收费方案效率更高。但随着瓶颈通行能力的不确定性增大,时变收费方案的效率下降,而单步粗收费方案的效率波动较小。
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Departure Time Choice Equilibrium and Tolling Strategies for a Bottleneck with Stochastic Capacity
This paper develops a bottleneck model in which the capacity of the bottleneck is assumed to be stochastic and follow a general distribution that has a positive upper bound. The user equilibrium principle in terms of mean trip cost is adopted to formulate commuters’ departure time choice in the stochastic bottleneck. We find that there exist five possible equilibrium departure patterns, which depend on both commuters’ unit costs of travel time, schedule delay early and late, and the uncertainty of the stochastic capacity of the bottleneck. All possible equilibrium departure patterns are analytically derived. Both the analytical and numerical results show that increasing the uncertainty of the capacity of the bottleneck leads to an increase of commuters’ individual mean trip cost. In addition, both a time-varying toll scheme and a single-step coarse toll scheme are designed within the proposed stochastic bottleneck model. We provide an analytical method to determine the detailed toll-charging schemes for both toll strategies. The numerical results show that the proposed toll schemes can indeed improve the efficiency of the stochastic bottleneck in terms of decreasing mean total social cost, and the time-varying toll scheme is more efficient than the single-step coarse toll scheme. However, as the uncertainty of the capacity of the bottleneck increases, the efficiency of the time-varying toll scheme decreases, whereas the efficiency of the single-step coarse toll scheme fluctuates slightly.
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