Exploring the relationship between the spatial distribution of roads and universal pattern of travel-route efficiency in urban road networks

Urban road networks are well-known to exhibit universal characteristics and scale-invariant patterns, despite the different geographical and historical contexts of cities. Previous studies on the universal characteristics of urban road networks have mostly focused on their network properties but hav...

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Bibliographic Details
Published in:Chaos, solitons and fractals solitons and fractals, 2023-09, Vol.174, p.113770, Article 113770
Main Authors: Lee, Minjin, Cheon, SangHyun, Son, Seung-Woo, Lee, Mi Jin, Lee, Sungmin
Format: Article
Language:English
Subjects:
Core-periphery structure
Detour index
Universal behavior
Urban road network
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Summary:Urban road networks are well-known to exhibit universal characteristics and scale-invariant patterns, despite the different geographical and historical contexts of cities. Previous studies on the universal characteristics of urban road networks have mostly focused on their network properties but have often ignored the spatial network structures. To address this research gap, we explore the underlying spatial patterns of road networks. We examine the travel-route efficiency in a given road network across 70 global cities, which provides information on the usage pattern and functionality of the road structure. The efficiency of travel routes is measured by analyzing the detour patterns, as determined by the detour index (DI). The DI is a long-standing popular measure, but its spatial pattern has been barely considered so far. In this study, we investigate the behavior of DI with respect to spatial variables by scanning the network radially from a city center. Through empirical analysis, we first discover universal properties in DI throughout most cities, which are summarized as a constant behavior of DI regardless of the radial position from a city center and a clear collapse into a single curve for DIs for various radii with respect to the angular distance. Especially the latter enables us to determine the scaling factor in the length scale. We further reveal that the universal pattern is induced by the center-periphery spatial structure of urban roads through the model study of an artificial road network. In addition to exploring the universality of DI, we delve into the specific characteristics of DI associated with the unique internal structure of individual cities. By visualizing the spatial DI network on city maps, we identify distinct city-specific DI characteristics. The case studies of selected cities demonstrate that our proposed method of spatial DI networks has the potential for practical implications in analyzing individual cities. •Examining road networks with emphasis on DI to quantify travel-route efficiency.•Examining DI for various spatial variables and discovering universal properties.•Revealing core–periphery structure of roads as a cause for universal pattern.•Visualizing connections for city-specific characteristics understanding.
ISSN:0960-0779
DOI:10.1016/j.chaos.2023.113770