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Spatial distribution of pedestrian-motor vehicle collisions before and after pedestrian countdown signal installation in Toronto, Canada


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Rothman, Linda; Cloutier, Marie-Soleil ORCID logoORCID: https://orcid.org/0000-0002-8533-4784; Macpherson, Alison K.; Richmond, Sarah A. et Howard, Andrew (2019). Spatial distribution of pedestrian-motor vehicle collisions before and after pedestrian countdown signal installation in Toronto, Canada Injury Prevention , vol. 25 , nº 2. DOI: 10.1136/injuryprev-2017-042378.

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BACKGROUND : Pedestrian countdown signals (PCS) have been installed in many cities over the last 15 years. Few studies have evaluated the effectiveness of PCS on pedestrian motor vehicle collisions (PMVC). This exploratory study compared the spatial patterns of collisions pre and post PCS installation at PCS intersections and intersections or roadways without PCS in Toronto, and examined differences by age. METHODS : PCS were installed at the majority of Toronto intersections from 2007 to 2009. Spatial patterns were compared between 4 years of police-reported PMVC prior to PCS installation to 4 years post installation at 1864 intersections. The spatial distribution of PMVC was estimated using kernel density estimates and simple point patterns examined changes in spatial patterns overall and stratified by age. Areas of higher or lower point density pre to post installation were identified. RESULTS : There were 14 911 PMVC included in the analysis. There was an overall reduction in PMVC post PCS installation at both PCS locations and non-PCS locations, with a greater reduction at non-PCS locations (22% vs 1%). There was an increase in PMVC involving adults (5%) and older adults (9%) at PCS locations after installation, with increased adult PMVC concentrated downtown, and older adult increases occurring throughout the city following no spatial pattern. There was a reduction in children’s PMVC at both PCS and non-PCS locations, with greater reductions at non-PCS locations (35% vs 48%). CONCLUSIONS : Results suggest that the effects of PCS on PMVC may vary by age and location, illustrating the usefulness of exploratory spatial data analysis approaches in road safety. The age and location effects need to be understood in order to consistently improve pedestrian mobility and safety using PCS.

Type de document: Article
Mots-clés libres: Pedestrian motor-vehicle collisions; pedestrian countdown signals; spatiotemporal change
Centre: Centre Urbanisation Culture Société
Date de dépôt: 17 oct. 2017 15:28
Dernière modification: 28 janv. 2022 18:40
URI: https://espace.inrs.ca/id/eprint/6313

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