The Zebra Crossing Game – Using game theory to explain a discrepancy between road user behaviour and traffic rules

•Give-way practice in road traffic may deviate from what the traffic rules prescribe.•Game theoretic modelling can be used to explain such deviations.•A game model was used to explain such deviations at zebra crossings in Norway.•The model was tested and supported by empirical findings.•Game theory...

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Bibliographic Details
Published in:Safety science 2017-02, Vol.92, p.298-301
Main Author: Bjoernskau, Torkel
Format: Article
Language:English
Subjects:
Behavior
Bicycling
Cars
Combined cycle engines
Crossing
Cyclists
Dismounting
Drivers
Game theory
Interaction
Mathematical models
Pavements
Pedestrians
Roads
Traffic
Traffic accidents & safety
Traffic engineering
Traffic safety
Walking
Yielding
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Summary:•Give-way practice in road traffic may deviate from what the traffic rules prescribe.•Game theoretic modelling can be used to explain such deviations.•A game model was used to explain such deviations at zebra crossings in Norway.•The model was tested and supported by empirical findings.•Game theory can be a valuable tool to analyse road user interaction. In Norway, cyclists are allowed to cycle on pavements, and urban paths are often designated for use by both cyclists and pedestrians. Crossings between pavements/paths and the roadway are normally marked as zebra crossings. At these crossings, the law treats cyclists and pedestrians differently: whereas cyclists must give way to road traffic, the road traffic must give way to pedestrians. On encountering road traffic at these crossings, a cyclist has three options: give way (a); cycle over the zebra crossing (and risk a collision) (b); or (c) force the drivers to yield by dismounting and walking over the zebra crossing (c). The approaching driver has two choices: drive on as the law suggests (x) or give way to the cyclist (y). The solutions prescribed by the traffic rules are a/x or c/y. However, on applying game theory to this situation, it can be shown that neither of these solutions are in perfect equilibrium, and the game theoretic solution to the game is in fact b/y, i.e. that the cyclists cycle over the zebra crossing and the cars yield, contrary to what the traffic rule prescribes. Thus, according to game theoretic reasoning one would expect the normal solution in road traffic to be that drivers yield to cyclists in zebra crossings. In order to test this, we studied crossing behaviour at three zebra crossings, two crossings where cyclists approached from the pavement and one crossing where cyclists came from a combined cycle and walking path. We found that rather than aligning with traffic rules, the actual crossing behaviour aligned with the solution generated by game theory. The results show that game theoretic modelling can be a valuable tool to understand road user interaction. Better understanding and ability to predict road user interactions could help to improve traffic safety.
ISSN:0925-7535
1879-1042
DOI:10.1016/j.ssci.2015.10.007