Influence of oncoming traffic on drivers’ overtaking of cyclists

•A diving simulator was used to study overtaking of cyclists with oncoming traffic.•The TTC between subject and oncoming vehicle affected drivers’ overtaking strategy.•The TTC between subject and oncoming vehicle influenced safety margins to cyclists.•Safer margins of 0.93 m were found for drivers n...

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Published inTransportation research. Part F, Traffic psychology and behaviour Vol. 59; no. Part A; pp. 378 - 388
Main Authors Bianchi Piccinini, Giulio Francesco, Moretto, Claudia, Zhou, Huiping, Itoh, Makoto
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.11.2018
Elsevier Science Ltd
Subjects
Automobile drivers
Behavior
Bicycles
Comfort zone boundary
Crashes
Cycling safety
Cycling safety Comfort zone boundary Driving simulator Overtaking strategy Safety margin Speed
Decision making
Drivers
Driving simulator
Overtaking
Overtaking strategy
Safety margin
Safety margins
Simulators
Speed
Strategy
Traffic accidents & safety
Traffic safety
Transportation safety
Speed
Driving simulator
Comfort zone boundary
Overtaking strategy
Safety margin
Cycling safety
Online AccessGet full text
ISSN1369-8478
1873-5517
DOI10.1016/j.trf.2018.09.009

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Abstract •A diving simulator was used to study overtaking of cyclists with oncoming traffic.•The TTC between subject and oncoming vehicle affected drivers’ overtaking strategy.•The TTC between subject and oncoming vehicle influenced safety margins to cyclists.•Safer margins of 0.93 m were found for drivers not waiting for oncoming traffic.•Different speeds were adopted by drivers depending on the overtaking strategy. Active transportation - such as cycling - can provide health benefits to the population. However, cycling safety remains a major threat to favour the use of bicycles and, for this reason, more efforts are needed to reduce the number of crashes involving cyclists. One crash scenario which deserves special attention is driver’s overtaking of cyclists since it has an increased likelihood to lead to severe injuries. During the overtaking manoeuvre, the monitoring of subjective risk can influence the decision-making process and lead to different outcomes. In this context, the present driving simulator study aims to investigate how the time to collision between oncoming traffic and subject vehicle affected the overtaking strategy, and the minimum safety margins towards the overtaken cyclist. The results show that a decrease in time to collision against the oncoming vehicle significantly affects the drivers’ overtaking strategy (accelerative vs. flying), inducing more drivers to choose an accelerative overtaking manoeuvre. The decrease in time to collision also produces a decrease in minimum safety margins to the cyclists for drivers who opt for a flying overtaking strategy. Finally, the current research shows that the minimum lateral safety margins were smaller and the mean speed higher in flying manoeuvres compared to accelerative manoeuvres. Overall, the combination of lower safety margins and higher mean speeds in flying overtaking manoeuvres seems to pose a risk for cyclists’ safety. The findings of the study provide some implications for the design of automated driving.
AbstractList Active transportation - such as cycling - can provide health benefits to the population. However, cycling safety remains a major threat to favour the use of bicycles and, for this reason, more efforts are needed to reduce the number of crashes involving cyclists. One crash scenario which deserves special attention is driver’s overtaking of cyclists since it has an increased likelihood to lead to severe injuries. During the overtaking manoeuvre, the monitoring of subjective risk can influence the decision-making process and lead to different outcomes. In this context, the present driving simulator study aims to investigate how the time to collision between oncoming traffic and subject vehicle affected the overtaking strategy, and the minimum safety margins towards the overtaken cyclist. The results show that a decrease in time to collision against the oncoming vehicle significantly affects the drivers’ overtaking strategy (accelerative vs. flying), inducing more drivers to choose an accelerative overtaking manoeuvre. The decrease in time to collision also produces a decrease in minimum safety margins to the cyclists for drivers who opt for a flying overtaking strategy. Finally, the current research shows that the minimum lateral safety margins were smaller and the mean speed higher in flying manoeuvres compared to accelerative manoeuvres. Overall, the combination of lower safety margins and higher mean speeds in flying overtaking manoeuvres seems to pose a risk for cyclists’ safety. The findings of the study provide some implications for the design of automated driving.
•A diving simulator was used to study overtaking of cyclists with oncoming traffic.•The TTC between subject and oncoming vehicle affected drivers’ overtaking strategy.•The TTC between subject and oncoming vehicle influenced safety margins to cyclists.•Safer margins of 0.93 m were found for drivers not waiting for oncoming traffic.•Different speeds were adopted by drivers depending on the overtaking strategy. Active transportation - such as cycling - can provide health benefits to the population. However, cycling safety remains a major threat to favour the use of bicycles and, for this reason, more efforts are needed to reduce the number of crashes involving cyclists. One crash scenario which deserves special attention is driver’s overtaking of cyclists since it has an increased likelihood to lead to severe injuries. During the overtaking manoeuvre, the monitoring of subjective risk can influence the decision-making process and lead to different outcomes. In this context, the present driving simulator study aims to investigate how the time to collision between oncoming traffic and subject vehicle affected the overtaking strategy, and the minimum safety margins towards the overtaken cyclist. The results show that a decrease in time to collision against the oncoming vehicle significantly affects the drivers’ overtaking strategy (accelerative vs. flying), inducing more drivers to choose an accelerative overtaking manoeuvre. The decrease in time to collision also produces a decrease in minimum safety margins to the cyclists for drivers who opt for a flying overtaking strategy. Finally, the current research shows that the minimum lateral safety margins were smaller and the mean speed higher in flying manoeuvres compared to accelerative manoeuvres. Overall, the combination of lower safety margins and higher mean speeds in flying overtaking manoeuvres seems to pose a risk for cyclists’ safety. The findings of the study provide some implications for the design of automated driving.
Author Bianchi Piccinini, Giulio Francesco
Moretto, Claudia
Zhou, Huiping
Itoh, Makoto
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Keywords Speed
Driving simulator
Comfort zone boundary
Overtaking strategy
Safety margin
Cycling safety
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Snippet •A diving simulator was used to study overtaking of cyclists with oncoming traffic.•The TTC between subject and oncoming vehicle affected drivers’ overtaking...
Active transportation - such as cycling - can provide health benefits to the population. However, cycling safety remains a major threat to favour the use of...
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StartPage 378
SubjectTerms Automobile drivers
Behavior
Bicycles
Comfort zone boundary
Crashes
Cycling safety
Cycling safety Comfort zone boundary Driving simulator Overtaking strategy Safety margin Speed
Decision making
Drivers
Driving simulator
Overtaking
Overtaking strategy
Safety margin
Safety margins
Simulators
Speed
Strategy
Traffic accidents & safety
Traffic safety
Transportation safety
Title Influence of oncoming traffic on drivers’ overtaking of cyclists
URI https://dx.doi.org/10.1016/j.trf.2018.09.009
https://www.proquest.com/docview/2136896460
https://research.chalmers.se/publication/505309
Volume 59
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