Using Simulation to Assess Conflicts Between Bicyclists and Right-Turning Vehicles [supporting datasets]

Christofa, Eleni; Knodler Jr., Michael A.; Deliali, Aikaterini; University of Massachusetts at Amherst. Department of Civil and Environmental Engineering

doi:10.7910/DVN/9LNBUB

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Using Simulation to Assess Conflicts Between Bicyclists and Right-Turning Vehicles [supporting datasets]

2019-04-02
See Associated Publication(s)
By Christofa, Eleni ; Knodler Jr., Michael A. ; Deliali, Aikaterini

[PDF-166.96 KB]

English

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Details:

Creators:

Christofa, Eleni ; Knodler Jr., Michael A. ; Deliali, Aikaterini

Christofa, Eleni ; Knodler Jr., Michael A. ; Deliali, Aikaterini Less -
Corporate Creators:

University of Massachusetts at Amherst. Department of Civil and Environmental Engineering
Corporate Contributors:

Safety Research Using Simulation (SAFER-SIM) University Transportation Center
Subject/TRT Terms:

[+]

Behavior Bicycle Lanes Cyclists Drivers Driving Simulators Eye Movements Intersection Elements Operating Speed Right Turns Traffic Conflicts Traffic Safety Turning Traffic Vehicle Mix
DOI:

https://doi.org/10.7910/DVN/9LNBUB
Resource Type:

Dataset
Geographical Coverage:

United States
TRIS Online Accession Number:

1636960
Corporate Publisher:

Safety Research Using Simulation (SAFER-SIM) University Transportation Center
Abstract:

Protected bike lanes, or cycle tracks, are increasing in popularity across the nation. However, despite the documented benefits of protected bike lanes, including safer cycling and increased ridership among differing populations of bicyclists, there remain ongoing concerns about potential conflicts between bicycles and vehicles when they merge back together at an intersection. The fear is that following a period of separation, drivers are less likely to anticipate and scan for the presence of bicycles. This research examines how transitions from fully separated to mixed-traffic environments and vice versa affect driver behavior. The goal is to assess whether certain segment-intersection treatment combinations can alert drivers of the presence of bicyclists and thus encourage them to scan for bicyclists prior to a right turn, reducing potential right-hook conflicts. Driving simulation is utilized in this study, and driver performance for right-turning vehicles is recorded under the presence of various bicycle infrastructure treatments along segments and at intersections. The experimental design includes two types of bike lanes and two intersection configurations, namely conventional and protected bike lanes and intersections with through bike lanes and protected intersections. Results show that the presence of the bicyclist as well as the presence of protected bike lanes reduce average speed on the segment. Additionally, the presence of the bicyclist significantly reduces the intersection speed when non-protected intersection design has been implemented. The presence of the bicyclist was also found to significantly affect participants’ glancing behavior at the intersection approach, triggering more of them to place a right glance regardless of the intersection configuration. In addition, participants were found to be less likely to glance for the bicyclist when riding on a segment with protected bike lanes compared to scenarios with conventional bike lanes. This research can be used to guide decisions on bicycle infrastructure implementation for safer multimodal operations.
Format:

ZIP
Funding:

69A3551747131
Collection(s):

University Transportation Centers US Transportation Collection
Main Document Checksum:

[+]

urn:sha256:2b97fe3168cbf3227f89e4c98bb2d81c6b8eeafbdaf0da064a2bc3a61455bc82
Download URL:

https://rosap.ntl.bts.gov/view/dot/42634/dot_42634_DS1.pdf
File Type:

SAFER-SIM_67604_Metadata.json

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