Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Examining Pedestrian Crash Frequency, Severity, and Safety in Numbers Using Pedestrian Exposure from Utah Traffic Signal Data
https://orcid.org/0000-0002-6332-4278
https://orcid.org/0000-0001-9969-3641
https://orcid.org/0000-0002-9319-2333
The focus of this study was twofold: (1) to estimate models of frequency and injury severity in pedestrian crashes at signalized intersections and (2) to examine whether the “safety in numbers” effect applies to pedestrian safety in the United States. Specifically, the analysis used novel and robust measures of pedestrian exposure: pedestrian crossing volumes estimated from 1 year of pedestrian push-button traffic signal data. Multiple negative binomial models—predicting 10-year pedestrian crash counts at 1,606 signals in Utah—were estimated, accounting for different levels of data availability. The models showed similar results, identifying specific characteristics of the signals that saw more pedestrian crashes. These characteristics were higher volumes of pedestrian and motor vehicle traffic, longer average crossing distances, more crosswalks, continental instead of standard markings, no prohibitions of right-turns-on-red, no bike lanes, near-side instead of far-side bus stops, greater shares of commercial or vacant land uses, more employment density, greater intersection density, no schools or places of worship, and greater shares of people with a disability or people of Hispanic or non-White race/ethnicity. To analyze injury severity in pedestrian crashes, an ordered logit model was fitted with 1,483 pedestrian crash observations. The model results indicated that vehicle size, vehicle maneuvering direction, lighting conditions, and involvement of teenage/older driver and DUI/drowsy/distracted driving in crashes were significantly associated with pedestrian crash severity. Notably, the study also found strong support for the “safety in numbers” effect, in which pedestrian–vehicle crash rates decline with an increase in pedestrian volumes.
Examining Pedestrian Crash Frequency, Severity, and Safety in Numbers Using Pedestrian Exposure from Utah Traffic Signal Data
https://orcid.org/0000-0002-6332-4278
https://orcid.org/0000-0001-9969-3641
https://orcid.org/0000-0002-9319-2333
The focus of this study was twofold: (1) to estimate models of frequency and injury severity in pedestrian crashes at signalized intersections and (2) to examine whether the “safety in numbers” effect applies to pedestrian safety in the United States. Specifically, the analysis used novel and robust measures of pedestrian exposure: pedestrian crossing volumes estimated from 1 year of pedestrian push-button traffic signal data. Multiple negative binomial models—predicting 10-year pedestrian crash counts at 1,606 signals in Utah—were estimated, accounting for different levels of data availability. The models showed similar results, identifying specific characteristics of the signals that saw more pedestrian crashes. These characteristics were higher volumes of pedestrian and motor vehicle traffic, longer average crossing distances, more crosswalks, continental instead of standard markings, no prohibitions of right-turns-on-red, no bike lanes, near-side instead of far-side bus stops, greater shares of commercial or vacant land uses, more employment density, greater intersection density, no schools or places of worship, and greater shares of people with a disability or people of Hispanic or non-White race/ethnicity. To analyze injury severity in pedestrian crashes, an ordered logit model was fitted with 1,483 pedestrian crash observations. The model results indicated that vehicle size, vehicle maneuvering direction, lighting conditions, and involvement of teenage/older driver and DUI/drowsy/distracted driving in crashes were significantly associated with pedestrian crash severity. Notably, the study also found strong support for the “safety in numbers” effect, in which pedestrian–vehicle crash rates decline with an increase in pedestrian volumes.
Examining Pedestrian Crash Frequency, Severity, and Safety in Numbers Using Pedestrian Exposure from Utah Traffic Signal Data
https://orcid.org/0000-0002-6332-4278
https://orcid.org/0000-0001-9969-3641
https://orcid.org/0000-0002-9319-2333
The focus of this study was twofold: (1) to estimate models of frequency and injury severity in pedestrian crashes at signalized intersections and (2) to examine whether the “safety in numbers” effect applies to pedestrian safety in the United States. Specifically, the analysis used novel and robust measures of pedestrian exposure: pedestrian crossing volumes estimated from 1 year of pedestrian push-button traffic signal data. Multiple negative binomial models—predicting 10-year pedestrian crash counts at 1,606 signals in Utah—were estimated, accounting for different levels of data availability. The models showed similar results, identifying specific characteristics of the signals that saw more pedestrian crashes. These characteristics were higher volumes of pedestrian and motor vehicle traffic, longer average crossing distances, more crosswalks, continental instead of standard markings, no prohibitions of right-turns-on-red, no bike lanes, near-side instead of far-side bus stops, greater shares of commercial or vacant land uses, more employment density, greater intersection density, no schools or places of worship, and greater shares of people with a disability or people of Hispanic or non-White race/ethnicity. To analyze injury severity in pedestrian crashes, an ordered logit model was fitted with 1,483 pedestrian crash observations. The model results indicated that vehicle size, vehicle maneuvering direction, lighting conditions, and involvement of teenage/older driver and DUI/drowsy/distracted driving in crashes were significantly associated with pedestrian crash severity. Notably, the study also found strong support for the “safety in numbers” effect, in which pedestrian–vehicle crash rates decline with an increase in pedestrian volumes.
Examining Pedestrian Crash Frequency, Severity, and Safety in Numbers Using Pedestrian Exposure from Utah Traffic Signal Data
J. Transp. Eng., Part A: Systems
Islam, Ahadul (Autor:in) / Mekker, Michelle (Autor:in) / Singleton, Patrick A. (Autor:in)
01.10.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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