根据拓扑特性对城市街道网络中的街段进行分类的计算方法

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Frontiers in Built Environment Pub Date : 2024-01-09 DOI:10.3389/fbuil.2023.1216888
Hsiao-Hui Chen, Olaf Mumm, V. Carlow
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引用次数: 0

摘要

街道分类是交通规划和设计的基础。城市交通规划大多以基于功能的分类方案(FCS)为基础,该方案根据城市街道网络(USN)预定层次中各自的要求对街道进行分类。本研究提出了一种基于网络的街段分类计算方法(NSC)。其主要目标是:第一,识别和描述 NSC 类别;第二,检查 FCS 和 NSC 街段在城市中的空间分布;第三,比较 FCS 和 NSC,以识别两者之间的异同。从网络科学中得出的中心性度量对每条街段进行计算,然后根据其拓扑重要性进行聚类。聚类是一种数字分类技术,它的应用有助于与规划和设计中的其他分析过程相结合。通过这种方法获得的街道特征定量描述适用于开发基于知识的新规划方法。如果没有关于街道实际性能的大量数据或知识,或者这些数据或知识成本高昂,那么这种方法就能根据现成的数据集进行客观分类。该方法还能将 FCS 中归类为 "未分类 "的路段归入 NSC 方案中的类别。由于中心度量与 USN 的功能相关联,因此 FCS 与 NSC 之间的比较不仅有助于理解和描述每个 FCS 类别中路段拓扑特性的细微变化,还有助于识别不匹配的路段,以便在规划和设计等方面进行重新评估和调整。
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A computational approach for categorizing street segments in urban street networks based on topological properties
Street classification is fundamental to transportation planning and design. Urban transportation planning is mostly based on function-based classification schemes (FCS), which classifies streets according to their respective requirements in the pre-defined hierarchy of the urban street network (USN). This study proposes a computational approach for a network-based categorization of street segments (NSC). The main objectives are, first, to identify and describe NSC categories, second, to examine the spatial distribution of street segments from FCS and NSC within a city, and third, to compare FCS and NSC to identify similarities and differences between the two. Centrality measures derived from network science are computed for each street segment and then clustered based on their topological importance. The adaption of clustering, which is a numerical categorization technique, potentially facilitates the integration with other analytical processes in planning and design. The quantitative description of street characteristics obtained by this method is suitable for development of new knowledge-based planning approaches. When extensive data or knowledge of the real performance of streets are not available or costly, this method provides an objective categorization from those data sets that are readily available. The method can also assign the segments that are categorized as “unclassified” in FCS to the categories in the NSC scheme. Since centrality metrics are associated with the functioning of USNs, the comparison between FCS and NSC not only contributes to the understanding and description of the fine variations in topological properties of the segments within each FCS class but also supports the identification of the mismatched segments, where reassessment and adjustment is required, for example, in terms of planning and design.
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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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