The turning point in the number of traffic fatalities: two hypotheses about changes in underlying trends.

The number of traffic fatalities reached a peak in many highly motorised countries around 1970. Some previous studies have suggested that the turning point in the number of traffic fatalities was inevitable and did not reflect a change in the underlying trends influencing the number of traffic fatalities. Other studies suggest that trends in traffic growth and fatality rate changed from before to after the turning point. This paper proposes two hypotheses about the turning point in the number of traffic fatalities. One hypothesis is that the long-term trends in traffic growth and fatality rate were the same before and after the turning point. The other hypothesis is that the long-term trends in traffic growth and fatality rate were different before and after the turning point was reached, in particular that the annual percentage decline in fatality rate became greater after the turning point than before. Such a change would suggest that road safety policy became more effective. Analysis of data for six countries (Denmark, Great Britain, Netherlands, Norway, Sweden, United States) lends stronger support to the latter hypothesis than to the former. The lesson for policy makers, in particular in countries where the number of traffic fatalities is still growing, is that they should not expect a turning point to be reached without policy interventions.

[1]  Elke Hermans,et al.  Latent risk and trend models for the evolution of annual fatality numbers in 30 European countries. , 2014, Accident; analysis and prevention.

[2]  George Yannis,et al.  When may road fatalities start to decrease? , 2011, Journal of safety research.

[3]  D. Bishai,et al.  National road casualties and economic development. , 2006, Health economics.

[4]  M. Cropper,et al.  Traffic Fatalities and Economic Growth , 2003, Accident; analysis and prevention.

[5]  J. Mackenbach,et al.  Economic development and traffic accident mortality in the industrialized world, 1962-1990. , 2000, International journal of epidemiology.

[6]  SWOV Fact sheet , 2006 .

[7]  S Oppe,et al.  The development of traffic and traffic safety in six developed countries. , 1991, Accident; analysis and prevention.

[8]  S Oppe,et al.  Development of traffic and traffic safety: global trends and incidental fluctuations. , 1991, Accident; analysis and prevention.

[9]  R. J. Smeed,et al.  Some Statistical Aspects of Road Safety Research , 1949 .

[10]  Nadine Levick,et al.  White Papers for: "Toward Zero Deaths: A National Strategy on Highway Safety" , 2010 .

[11]  George Yannis,et al.  State-Space Based Analysis and Forecasting of Macroscopic Road Safety Trends in Greece , 2012 .

[12]  Mohammed A Quddus,et al.  Time series count data models: an empirical application to traffic accidents. , 2008, Accident; analysis and prevention.

[13]  E. Hauer White Papers for : “ Toward Zero Deaths : A National Strategy on Highway Safety ” — White Paper No . 9 — Lessons Learned from Other Countries , 2014 .

[14]  George Yannis,et al.  Autoregressive nonlinear time-series modeling of traffic fatalities in Europe , 2011 .

[15]  John N. Ivan,et al.  Long-Term Safety Trends as a Function of Vehicle Ownership in 26 Countries , 2012 .

[16]  George Yannis,et al.  On statistical inference in time series analysis of the evolution of road safety. , 2013, Accident; analysis and prevention.

[17]  S Oppe,et al.  Macroscopic models for traffic and traffic safety. , 1988, Accident; analysis and prevention.