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Fractal evolution of urban street networks in form and structure: a case study of Hong Kong

Hong Zhang, Tian Lan, Zhilin Li

2021International Journal of Geographical Information Systems44 citationsDOI

Abstract

Cities are spatially evolving complex systems. The order and pattern beneath the apparent chaos and diverse physical forms of cities are still unclear. How the form and structure of a city evolve to improve its functions needs further exploration. To fill thisgap, we examine the geometric fractal (GF), the topological fractal (TF), and the hierarchical fractal (HF) evolution of cities by taking Hong Kong street networks from year 1971 to 2018 as an example. We find that these networks keep to be fractals both in form and structure. The values of GF, TF, and HF dimensions increase with fluctuations, revealing a more mature and complex street network. The radius-length GF dimensions demonstrate the bi-fractal property, with values ranged 1.653–1.832 and 0.677–0.892, respectively, reflecting a core-periphery pattern. The values of TF dimensions increase steadily with a wider gap to GF dimensions, indicating progressively structural optimization of street networks. These street networks keep showing fractal properties in form and structure through spatial extension, local densification, vertical stratification, hierarchies enrichment, and shortcuts construction. Moreover, street networks are GFs and TFs at the city, county, and MSA scales. The discoveries advance our understanding of urban development.

Topics & Concepts

FractalEconomic geographyFractal dimensionGeographyStreet networkComplex networkCartographyCore (optical fiber)Computer scienceTopology (electrical circuits)GeometryRegional scienceMathematicsTelecommunicationsCivil engineeringEngineeringCombinatoricsMathematical analysisUrban Design and Spatial AnalysisLand Use and Ecosystem ServicesRemote Sensing and Land Use
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