A topological approach for identifying pricing controller locations to ensure controllability of transportation networks

IF 2.1 Q2 OPERATIONS RESEARCH & MANAGEMENT SCIENCE
Xavier Mazur , Marco Rinaldi , Richard D. Connors , Francesco Viti
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引用次数: 0

Abstract

To use efficiently the infrastructure of transportation networks, control strategies have been developed with the aim to reduce negative externalities, such as congestion and pollutant emissions. Previous works demonstrated that the maximum performance achievable by traffic control policies depends on the number and location of controllers employed, which implies the need to determine a set of controllers capable of fully controlling the underlying transportation network. Various approaches have been explored in the literature to locate controllers on networks, however a gap remains in terms of scalability as the methods proposed often exhibit heavy computational complexity. In this paper we aim to propose an approach capable of locating pricing controllers on transportation networks that is scalable, such that it can be applied on large instances, such as city-sized or regional networks. For this purpose, we propose a topology-based approach, adapted from the sensor location problem, as both problems share similar characteristics. We validate our proposed approach by analyzing the performance of controller sets produced on a wide range of artificially generated network ensembles. The analysis we provide reveals that the method proposed, while being easily applicable on large instances, is capable to locate an efficient controller set, and to redirect flows on the network so as to reduce the total time spent by road users.

一种确定定价控制器位置以确保运输网络可控性的拓扑方法
为了有效地利用交通网络的基础设施,已经制定了控制策略,目的是减少负外部性,如拥堵和污染物排放。先前的研究表明,交通控制策略所能达到的最大性能取决于所使用的控制器的数量和位置,这意味着需要确定一组能够完全控制底层交通网络的控制器。文献中已经探索了各种方法来定位网络上的控制器,但是在可扩展性方面仍然存在差距,因为所提出的方法通常表现出沉重的计算复杂性。在本文中,我们的目标是提出一种能够在可扩展的交通网络上定位定价控制器的方法,这样它就可以应用于大型实例,如城市规模或区域网络。为此,我们提出了一种基于拓扑的方法,该方法改编自传感器定位问题,因为这两个问题具有相似的特征。我们通过分析在广泛的人工生成的网络集成上产生的控制器集的性能来验证我们提出的方法。我们提供的分析表明,所提出的方法虽然易于适用于大型实例,但能够定位有效的控制器集,并重新定向网络上的流量,从而减少道路使用者花费的总时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.60
自引率
0.00%
发文量
24
审稿时长
129 days
期刊介绍: The EURO Journal on Transportation and Logistics promotes the use of mathematics in general, and operations research in particular, in the context of transportation and logistics. It is a forum for the presentation of original mathematical models, methodologies and computational results, focussing on advanced applications in transportation and logistics. The journal publishes two types of document: (i) research articles and (ii) tutorials. A research article presents original methodological contributions to the field (e.g. new mathematical models, new algorithms, new simulation techniques). A tutorial provides an introduction to an advanced topic, designed to ease the use of the relevant methodology by researchers and practitioners.
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