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Developing a national dataset of bicycle infrastructure for Canada using open data sources

Author

Listed:
  • Colin Ferster
  • Trisalyn Nelson
  • Kevin Manaugh
  • Jeneva Beairsto
  • Karen Laberee
  • Meghan Winters

Abstract

High-quality and consistent cycling infrastructure data are needed to advance research into equity and safety and for planning active transportation. With recent growth in cycling and investments in cycling infrastructure, there are concerns that these investments have not been equitable across communities. There is no consistent and complete national dataset for cycling infrastructure in Canada. Our goal is to develop a national cycling infrastructure dataset by (1) classifying OpenStreetMap (OSM) using the Canadian Bikeway Comfort and Safety Classification System (Can-BICS) as consistent criteria and categorisation for comfort class and infrastructure type; (2) performing a site-specific accuracy assessment by comparing the classification with more than 2000 reference points from a stratified random sample in 15 cities; and (3) presenting summary results from the national dataset. Based on reference data collected in 15 test cities, the classification had an estimated accuracy of 76 ± 3% for presence or absence of infrastructure, 71 ± 4% for comfort class and 69 ± 4% (by length) for infrastructure type. High comfort infrastructure was slightly underestimated (since bike paths were sometimes confused with multi-use paths) and low comfort infrastructure was slightly overestimated. Nationally, we identified 22,992 km of cycling infrastructure meeting Can-BICS standards and 48,953 km of non-conforming infrastructure. Multi-use paths are the most common infrastructure type by length (16.6%), followed by painted bike lanes (11.0%), and then high comfort infrastructure (cycle tracks, local street bikeways and bike paths) (4.3%). There was a wider range in access to cycling infrastructure in small cities than in medium and large cities. To reduce repeated effort assembling data and increase reproducible active transportation research, we encourage contribution to OSM.

Suggested Citation

  • Colin Ferster & Trisalyn Nelson & Kevin Manaugh & Jeneva Beairsto & Karen Laberee & Meghan Winters, 2023. "Developing a national dataset of bicycle infrastructure for Canada using open data sources," Environment and Planning B, , vol. 50(9), pages 2543-2559, November.
  • Handle: RePEc:sae:envirb:v:50:y:2023:i:9:p:2543-2559
    DOI: 10.1177/23998083231159905
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    References listed on IDEAS

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    1. Teschke, K. & Harris, M.A. & Reynolds, C.C.O. & Winters, M. & Babul, S. & Chipman, M. & Cusimano, M.D. & Brubacher, J.R. & Hunte, G. & Friedman, S.M. & Monro, M. & Shen, H. & Vernich, L. & Cripton, P., 2012. "Route infrastructure and the risk of injuries to bicyclists: A case-crossover study," American Journal of Public Health, American Public Health Association, vol. 102(12), pages 2336-2343.
    2. Ralph Buehler & John Pucher, 2012. "Cycling to work in 90 large American cities: new evidence on the role of bike paths and lanes," Transportation, Springer, vol. 39(2), pages 409-432, March.
    3. Patricia Solís & Jennings Anderson & Sushil Rajagopalan, 2021. "Open geospatial tools for humanitarian data creation, analysis, and learning through the global lens of YouthMappers," Journal of Geographical Systems, Springer, vol. 23(4), pages 599-625, October.
    4. John Pucher & Ralph Buehler, 2017. "Cycling towards a more sustainable transport future," Transport Reviews, Taylor & Francis Journals, vol. 37(6), pages 689-694, November.
    5. John Stehlin, 2014. "Regulating Inclusion: Spatial Form, Social Process, and the Normalization of Cycling Practice in the USA," Mobilities, Taylor & Francis Journals, vol. 9(1), pages 21-41, February.
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