Litcius/Paper detail

An Investigation into Unsafe Behaviors and Traffic Accidents Involving Unlicensed Drivers: A Perspective for Alignment Measurement

Wafa Boulagouas, Susana Garcı́a Herrero, Rachid Chaib, Juan Diego Febres, Miguel Ángel Mariscal Saldaña, Mébarek Djebabra

2020International Journal of Environmental Research and Public Health29 citationsDOIOpen Access PDF

Abstract

Road traffic plays a vital role in countries' economic growth and future development. However, traffic accidents are considered a major public health issue affecting humankind. Despite efforts by governments to improve traffic safety, the misalignment between the policy efforts and on-ground infringements, distractions and breaches reflect the regulatory failure. This paper uses the Bayesian network method to investigate unsafe behaviors and traffic accidents involving unlicensed drivers as a perspective for the regulatory alignment assessment. The findings suggest that: (1) unlicensed drivers are more likely to have unsafe driving behaviors; (2) the probability of being involved in a severe traffic accident increases when the drivers are unlicensed and decreases in the case of licensed drivers; (3) young drivers are noticeably more likely to engage in unsafe behaviors, usually leading to serious injuries and deaths, when their driving licenses are invalid; (4) women are more likely to engage in right-of-way violations and to have collisions with no serious injuries, contrary to unlicensed men drivers, who are involved in other types of traffic accidents resulting in serious injuries.

Topics & Concepts

Perspective (graphical)Occupational safety and healthPoison controlHuman factors and ergonomicsInjury preventionSuicide preventionEnvironmental healthMedical emergencyComputer securityPsychologyComputer scienceMedicineArtificial intelligencePathologyTraffic and Road SafetyHuman-Automation Interaction and SafetyAutonomous Vehicle Technology and Safety
An Investigation into Unsafe Behaviors and Traffic Accidents Involving Unlicensed Drivers: A Perspective for Alignment Measurement | Litcius