Walking Accessibility to Public Transport: An Analysis Based on Microdata and GIS

In this paper we analyse the role of walking accessibility to transit facilities. Microdata and GIS tools have been used to calculate distances walked by different population groups in accessing Metro stations. Distances walked by the population were used to determine the threshold distances of the station service areas and calculate the population covered by the Metro network. With respect to Metro ridership, different distance-decay functions were adjusted and the sensitivity of the population groups to the distance was measured. Two indicators were proposed, based on the distance-decay functions, to measure access quality and potential demand. The Madrid Metro network was used as the study area. Results show that young people and adults, men, immigrants, and public transit captives are willing to walk longer distances and are less sensitive to the effect of distance. When walking distances have been used in order to fix the limit of catchment areas, the amount of the population covered is lower than when a standard threshold (0.5 miles) is used, but overestimations affect each age group in a different way. The access quality indicator shows that the population group in the worst situation is children and that stations in the centre of the network have higher access quality values. However, the synthetic accessibility indicator shows that potential demand is lower for the most central and most peripheral stations than for the stations located in the intermediate areas. It has been proved that both indicators are sensitive to changes in the spatial distribution of population groups within the catchment areas. These results demonstrate some of the advantages of the proposed methodology and argue in favour of its use in public transport planning.

[1]  Alan T. Murray,et al.  Optimizing Public Transit Quality and System Access: The Multiple-Route, Maximal Covering/Shortest-Path Problem , 2005 .

[2]  Jian Lu,et al.  Use of Geographic Information System for Analysis of Transit Pedestrian Access , 1997 .

[3]  A. El-geneidy,et al.  Pedestrian Access to Transit: Identifying Redundancies and Gaps Using a Variable Service Area Analysis , 2010 .

[4]  Kevin M. Curtin,et al.  A new method for determining the population with walking access to transit , 2010, Int. J. Geogr. Inf. Sci..

[5]  Edward A Beimborn,et al.  Accessibility, Connectivity, and Captivity: Impacts on Transit Choice , 2003 .

[6]  Fang Zhao,et al.  Forecasting Transit Walk Accessibility: Regression Model Alternative to Buffer Method , 2003 .

[7]  S. O’sullivan,et al.  Walking Distances to and from Light-Rail Transit Stations , 1996 .

[8]  W. Lam,et al.  BUS PASSENGER WALKING DISTANCES AND WAITING TIMES: A SUMMER-WINTER COMPARISON , 1981 .

[9]  R. D. Ramsey,et al.  ANALYSIS OF TRANSIT SERVICE AREAS USING GEOGRAPHIC INFORMATION SYSTEMS , 1992 .

[10]  Alan T. Murray,et al.  Spatial Representation and Scale Impacts in Transit Service Assessment , 2004 .

[11]  Jennifer Dill,et al.  Transit Use and Proximity to Rail: Results from Large Employment Sites in the San Francisco, California, Bay Area , 2003 .

[12]  Juan Carlos García-Palomares,et al.  Distance-Measure Impacts on the Calculation of Transport Service Areas Using GIS , 2008 .

[13]  M. Kuby,et al.  Factors influencing light-rail station boardings in the United States , 2004 .

[14]  Javier Gutiérrez,et al.  Transit ridership forecasting at station level: an approach based on distance-decay weighted regression , 2011 .

[15]  Agneta Ståhl,et al.  Implementing accessibility in municipal planning — planners’ view , 2009 .

[16]  Alan T. Murray Strategic analysis of public transport coverage , 2001 .

[17]  David R. Loutzenheiser Pedestrian Access to Transit: Model of Walk Trips and Their Design and Urban Form Determinants Around Bay Area Rapid Transit Stations , 1997 .

[18]  P. Rietveld,et al.  How do people get to the railway station? The dutch experience , 2000 .

[19]  Marc P. Armstrong,et al.  Exploring the Use of Buffer Analysis for the Identification of Impacted Areas in Environmental Equity Assessment , 1997 .

[20]  Herbert S Levinson,et al.  ESTIMATING BUS RIDERSHIP , 1984 .

[21]  Luis Ferreira,et al.  PUBLIC TRANSPORTATION ACCESS , 1998 .

[22]  D. B. Hess Access to Public Transit and Its Influence on Ridership for Older Adults in Two U.S. Cities , 2009 .