Road network distances and detours in Europe: Radial profiles and city size effects

detours; Europe; Road network; urban form; urban scaling; Geography, Planning and Development; Architecture; Urban Studies; Nature and Landscape Conservation; Management, Monitoring, Policy and Law

Abstract :

[en] The form and the size of cities influence their social, economic and environmental outcomes. The form of a city is itself influenced by the shape of its road network, but this relationship and how it is affected by city size are unclear. We analyse how road distances to the main centre vary across 300 European cities and how radial physical detours (i.e. the distance on the road network compared to the Euclidean distance) are affected by city size and extent. We use landuse and population data to sample potential residences and compute the fastest routes to the main centre. We find a linear relationship between road and Euclidean distances, and for the first time document an average radial physical detour of 1.343 across Europe. We then rescale distance bands so to make cities of different population size comparable and show the effect of different urban delineations. We find that physical detour ratios increase when core cities only are considered without suburbs. At the urban region scale, radial physical detours increase with city size, especially when other significant geographical factors (latitude, longitude, elevation change and proximity to coast) are controlled for. When the central part of cities only is considered, larger cities have smaller radial physical detours.

Disciplines :

Human geography & demography

Author, co-author :

MENNICKEN, Estelle ; University of Luxembourg > Faculty of Humanities, Education and Social Sciences > Department of Geography and Spatial Planning > Team Geoffrey CARUSO ; Luxembourg Institute of Socio-Economic Research (LISER), Esch-sur-Alzette, Luxembourg

Lemoy, Rémi ; Geography Department, University of Rouen, IDEES Laboratory, UMR 6266, CNRS, Mont Saint Aignan, France

CARUSO, Geoffrey ; University of Luxembourg > Faculty of Humanities, Education and Social Sciences (FHSE) > Department of Geography and Spatial Planning (DGEO) > Geography and Spatial Planning ; Luxembourg Institute of Socio-Economic Research (LISER), Esch-sur-Alzette, Luxembourg ; Luxembourg Institute of Socio-Economic Research (LISER), Esch-sur-Alzette, Luxembourg

External co-authors :

yes

Language :

English

Title :

Road network distances and detours in Europe: Radial profiles and city size effects

Publication date :

2023

Journal title :

Environment and Planning B: Urban Analytics and City Science

ISSN :

2399-8083

eISSN :

2399-8091

Publisher :

SAGE Publications Ltd

Pages :

239980832311688

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

http://journals.sagepub.com/doi/pdf/10.1177/23998083231168870

Funders :

Fonds National de la Recherche Luxembourg

Funding text :

The authors want to thank Cyrille Médard de Chardon for the development of the routing application Friendly Batch Routing and his technical help. They are also grateful to Philippe Gerber and Alex Hagen-Zanker for enriching discussions. Estelle Mennicken acknowledges funding from LISER. Geoffrey Caruso acknowledges funding from the FNR SCALE-IT-UP project (grant number C17/SR/11693518) and from FNR UrbanForms (INTER/Mobility/2020/14519030). The authors confirm that there are no known conflicts of interest associated with this publication.The authors disclosed receipt of the following financial support for the research, authorship and/or publication of this article: This work was supported by the Fonds National de la Recherche Luxembourg; C17/SR/11693518 and INTER/Mobility/2020/14519030.

Available on ORBilu :

since 06 December 2023

Statistics

Number of views

94 (1 by Unilu)

Number of downloads

265 (1 by Unilu)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenAlex citations

WoS citations^™

Bibliography

Alonso W (1964) Location and Land Use. Cambridge, USA: Harvard University Press.
Anselin L (1995) Local indicators of spatial association—LISA. Geographical analysis 27(2): 93–115.
Arribas-Bel D Nijkamp P Scholten H (2011) multidimensional urban sprawl in Europe: a self-organizing map approach. Computers, Environment and Urban Systems 35(4): 263–275.
Batty M Longley PA (1994) Fractal Cities: A Geometry of Form and Function. Cambridge, MA, USA: Academic Press.
Batty M (2013) The New Science of Cities. Cambridge, MA, USA: MIT press.
Beatley T (2012) Green Urbanism: Learning from European Cities. Washington, D.C., USA: Island Press.
Bettencourt LMA (2013) The origins of scaling in cities. Science 340(6139): 1438–1441.
Boarnet MG Crane R (2001) Travel by Design: The Influence of Urban Form on Travel. Oxford, UK: Oxford University Press on Demand.
Borrego CM Martins H Tchepel O, et al. (2006) How urban structure can affect city sustainability from an air quality perspective. Environmental Modelling and Software 21: 461–467.
Boscoe FP Henry KA Zdeb MS (2012) A nationwide comparison of driving distance versus straight-line distance to hospitals. The Professional Geographer 64(2): 188–196.
Brueckner JK (2000) Urban sprawl: diagnosis and remedies. International Regional Science Review 23(2): 160–171.
Brun G (2005) Les réseaux: des spéculations morphologiques aux applications pratiques. Flux 62(4): 4–9.
Cardillo A Scellato S Latora V, et al. (2006) Structural properties of planar graphs of urban street patterns. Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics 73(6): 066107.
Cervero R (2001) Efficient urbanisation: economic performance and the shape of the metropolis. Urban Studies 38(10): 1651–1671.
Chen Y (2013) Fractal analytical approach of urban form based on spatial correlation function. Chaos, Solitons and Fractals 49: 47–60.
Cole JP King CAM (1968) Quantitative Geography: Techniques and Theories in Geography 91. London, UK: Wiley.
Copernicus EEA (2006) http://land.copernicus.eu/local/urban-atlas/urban-atlas-2006
Cottineau C Hatna E Arcaute E, et al. (2017) Diverse cities or the systematic paradox of urban scaling laws. Computers, Environment and Urban Systems 63: 80–94.
Crucitti P Latora V Porta S (2006) Centrality measures in spatial networks of urban streets. Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics 73(3): 036125.
Delloye J Lemoy R Caruso G (2020) Alonso and the scaling of urban profiles. Geographical Analysis 52(2): 127–154.
EEA (European Environment Agency) (2016) Urban Sprawl in Europe. Technical Report 11. Luxembourg: Joint EEA-FOEN Report: European Environment Agency.
EEA (2018) EEA coastline dataset. Online https://www.eea.europa.eu/data-and-maps/data/eea-coastline-for-analysis-2
Eurostat (2006) Geostat Population Grids. http://ec.europa.eu/eurostat/fr/web/gisco/geodata/reference-data/population-distribution-demography/geostat
Ewing RH (2008) Characteristics, causes, and effects of sprawl: a literature review. Urban Ecology: An International Perspective on the Interaction Between Humans and Nature. New York, NY, USA: Springer, 519–535.
Genre-Grandpierre C (2007) Des «réseaux lents» contre la dépendance automobile? Concept et implications en milieu urbain. L’Espace Géographique 36(1): 27–39.
Guidry K Shilling JD Sirmans CF (1999) Land-use controls, natural restrictions, and urban residential land prices. Review of Regional Studies 29(2): 105–113.
Handy S Cao X Mokhtarian P (2005) Correlation or causality between the built environment and travel behavior? Evidence from Northern California. Transportation Research Part D: Transport and Environment 10(6): 427–444.
Héran F (2009) Des distances à vol d’oiseau aux distances réelles ou de l’origine des détours. Flux 76(2): 110–121.
Huang J Lu XX Sellers JM (2007) A global comparative analysis of urban form: applying spatial metrics and remote sensing. Landscape and Urban Planning 82(4): 184–197.
Jiang B Claramunt C (2004) Topological analysis of urban street networks. Environment and Planning B: Planning and Design 31(1): 151–162.
Jiang B Jia T (2011) Zipf’s law for all the natural cities in the United States: a geospatial perspective. International Journal of Geographical Information Science 25(8): 1269–1281.
Josselin D Labatut V Mitsche D (2016) Straightness of Rectilinear vs. Radio-Concentric Networks: Modeling Simulation and Comparison. London, UK: arXiv Preprint.
Kasanko M Barredo JI Lavalle C, et al. (2006) Are European cities becoming dispersed? A comparative analysis of 15 European urban areas. Landscape and Urban Planning 77(1–2): 111–130.
Kuiper JH (1986). Distribution of Distances in Pregeographical Space. Aldershot, Hants: Gower, 296.
Lee BH Jung WS (2018) Analysis on the urban street network of Korea: connections between topology and meta-information. Physica A: Statistical Mechanics and Its Applications 497: 15–25.
Lemoy R Caruso G (2020) Evidence for the homothetic scaling of urban forms. Environment And Planning B: Urban Analytics And City Science 47(5): 870–888.
Lemoy R Caruso G (2021) Radial analysis and scaling of urban land use. Scientific Reports 11(1): 22044–22048.
Liotta C Viguié V Lepetit Q (2022) Testing the monocentric standard urban model in a global sample of cities. Regional Science and Urban Economics 97: 103832.
Louf R Barthelemy M (2013) Modeling the polycentric transition of cities. Physical Review Letters 111.19: 198702.
Louf R Barthelemy M (2014a) How congestion shapes cities: from mobility patterns to scaling. Scientific Reports 4: 5561.
Louf R Barthelemy M (2014b) Scaling: lost in the smog. Environment and Planning B: Planning and Design 41(5): 767–769.
Love RF Morris JG Wesolowsky GO (1988) Facilities Location: Models and Methods. New York: North Holland Publishing Company.
Marshall S (2004) From Streets to Patterns. Streets and Patterns. London, UK: Routledge, 235–258.
Medard de Chardon C Caruso G (2014) Friendly Batch Routing (FBR) with Google Maps. https://github.com/serialc/FBR.git
Mennicken E (2022) Analysis of Urban Forms in Europe Using Radial Road Network Simulations. PhD Thesis. University of Luxembourg. http://hdl.handle.net/10993/51924
Mills ES (1972) Studies in the Structure of the Urban Economy. Baltimore, MD, USA: The Johns Hopkins Press.
Muth R (1969) Cities and Housing: The Spatial Pattern of Urban Residential Land Use. Chicago, IL, USA: University of Chicago Press.
NSF (National Science Foundation) (2018) Sustainable urban systems: articulating a long-term convergence research agenda. A Report from the NSF Advisory Committee for Environmental Research and Education. Prepared by the Sustainable Urban Systems Subcommittee.
Nordbeck S (1964) Computing distances in road nets. Papers of the Regional Science Association. Berlin/Heidelberg: Springer, 12, 207–220.
OECD (2018) Rethinking Urban Sprawl: Moving towards Sustainable Cities. OECD Publishing. 10.1787/9789264189881-en
OSRM (2021) http://project-osrm.org/and https://github.com/Project-OSRM/osrm-backend
Perreur J Thisse JF (1974) Une application de la métrique circum-radiale a l’étude des déplacements urbains. Revue Économique, 25(2), 298–315.
Puech F Ovtracht N Jensen P et al. (2017) Does ‘distance’ really matter for distance-based measures of geographic concentration? HAL, In preparation.
Pumain D Paulus F Vacchiani-Marcuzzo C et al. (2006) An Evolutionary Theory for Interpreting Urban Scaling Laws. Cybergeo: European Journal of Geography, 343.
Riguelle F Thomas I Verhetsel A (2007) Measuring urban polycentrism: a European case study and its implications. Journal of Economic Geography 7(2): 193–215.
Rose LA (1989) Urban land supply: natural and contrived restrictions. Journal of Urban Economics 25(3): 325–345.
Schindler M Caruso G (2018) Emerging urban form–emerging pollution: modelling endogenous health and environmental effects of traffic on residential choice. Environment and Planning B: Urban Analytics and City Science 47: 437–456.
Schwanen T Dijst M Dieleman FM (2004) Policies for urban form and their impact on travel: the Netherlands experience. Urban Studies 41(3): 579–603.
Seto KC Fragkias M Güneralp B, et al. (2011) A meta-analysis of global urban land expansion. PloS One 6(8): e23777.
Shahid R Bertazzon S Knudtson ML, et al. (2009) Comparison of distance measures in spatial analytical modeling for health service planning. BMC Health Services Research 9(1): 200.
Thomas I Frankhauser P Badariotti D (2012) Comparing the fractality of European urban neighbourhoods: do national contexts matter? Journal of Geographical Systems 14: 189–208.
Thomas I Frankhauser P (2013) Fractal dimensions of the built-up footprint: buildings versus roads. Fractal evidence from Antwerp (Belgium). Environment and Planning B: Planning and Design 40(2): 310–329.
Thomas I Jones J Caruso G, et al. (2018) City delineation in European applications of LUTI models: review and tests. Transport Reviews 38(1): 6–32.
US Geological Survey (2010) Global Multi-Resolution Terrain Elevation Data (Gmted2010). https://lta.cr.usgs.gov/GMTED2010
Wiel M (1999) La Transition Urbaine: Ou Le Passage de La Ville pédestre à La Ville Motorisée. Bruxelles, Belgique: Editions Mardaga, 39.
Yang H Ke J Ye J (2018) A Universal Distribution Law of Network Detour Ratios. Transportation Research Part C: Emerging Technologies 96: 22–37.