Automated Detection of Missing Links in Bicycle Networks

IF 3.3 3区地球科学 Q1 GEOGRAPHY

Geographical Analysis Pub Date : 2022-03-21 DOI:10.1111/gean.12324

Anastassia Vybornova, Tiago Cunha, Astrid Gühnemann, Michael Szell

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引用次数: 13

Abstract

Cycling is an effective solution for making urban transport more sustainable. However, bicycle networks are typically developed in a slow, piecewise process that leaves open a large number of gaps, even in well-developed cycling cities like Copenhagen. Here, we develop the IPDC procedure (Identify, Prioritize, Decluster, Classify) for finding the most important missing links in urban bicycle networks, using data from OpenStreetMap. In this procedure we first identify all possible gaps following a multiplex network approach, prioritize them according to a flow-based metric, decluster emerging gap clusters, and manually classify the types of gaps. We apply the IPDC procedure to Copenhagen and report the 105 top priority gaps. For evaluation, we compare these gaps with the city’s most recent Cycle Path Prioritization Plan and find considerable overlaps. Our results show how network analysis with minimal data requirements can serve as a cost-efficient support tool for bicycle network planning. By taking into account the whole city network for consolidating urban bicycle infrastructure, our data-driven framework can complement localized, manual planning processes for more effective, city-wide decision-making.

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自行车网络中缺失环节的自动检测

骑自行车是使城市交通更加可持续的有效解决方案。然而，自行车网络通常是在一个缓慢、分段的过程中发展的，即使在哥本哈根这样发展良好的自行车城市，也会留下大量空白。在这里，我们使用OpenStreetMap的数据，开发了IPDC程序（识别、优先排序、取消集群、分类），用于查找城市自行车网络中最重要的缺失环节。在这个过程中，我们首先按照多路网络方法识别所有可能的缺口，根据基于流量的度量对其进行优先级排序，对出现的缺口集群进行分类，并手动对缺口类型进行分类。我们将IPDC程序应用于哥本哈根，并报告了105个最优先的差距。为了进行评估，我们将这些差距与该市最新的循环路径优先计划进行了比较，发现有相当大的重叠。我们的研究结果表明，具有最小数据需求的网络分析可以作为自行车网络规划的经济高效的支持工具。通过考虑整个城市网络来整合城市自行车基础设施，我们的数据驱动框架可以补充本地化的手动规划流程，从而实现更有效的全市决策。

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

Geographical Analysis GEOGRAPHY-

CiteScore

8.70

自引率

5.60%

发文量

期刊介绍： First in its specialty area and one of the most frequently cited publications in geography, Geographical Analysis has, since 1969, presented significant advances in geographical theory, model building, and quantitative methods to geographers and scholars in a wide spectrum of related fields. Traditionally, mathematical and nonmathematical articulations of geographical theory, and statements and discussions of the analytic paradigm are published in the journal. Spatial data analyses and spatial econometrics and statistics are strongly represented.