Effectiveness of low speed autonomous emergency braking in real-world rear-end crashes.
Identifieur interne : 002B15 ( PubMed/Corpus ); précédent : 002B14; suivant : 002B16Effectiveness of low speed autonomous emergency braking in real-world rear-end crashes.
Auteurs : B. Fildes ; M. Keall ; N. Bos ; A. Lie ; Y. Page ; C. Pastor ; L. Pennisi ; M. Rizzi ; P. Thomas ; C. TingvallSource :
- Accident; analysis and prevention [ 1879-2057 ] ; 2015.
English descriptors
- KwdEn :
- MESH :
- mortality : Accidents, Traffic, Wounds and Injuries.
- prevention & control : Accidents, Traffic, Wounds and Injuries.
- Acceleration, Automation, Automobiles, Emergencies, Equipment Design, Humans, Models, Theoretical, Protective Devices, Survival Analysis.
Abstract
This study set out to evaluate the effectiveness of low speed autonomous emergency braking (AEB) technology in current model passenger vehicles, based on real-world crash experience. The validating vehicle safety through meta-analysis (VVSMA) group comprising a collaboration of government, industry consumer organisations and researchers, pooled data from a number of countries using a standard analysis format and the established MUND approach. Induced exposure methods were adopted to control for any extraneous effects. The findings showed a 38 percent overall reduction in rear-end crashes for vehicles fitted with AEB compared to a comparison sample of similar vehicles. There was no statistical evidence of any difference in effect between urban (≤60 km/h) and rural (>60 km/h) speed zones. Areas requiring further research were identified and widespread fitment through the vehicle fleet is recommended.
DOI: 10.1016/j.aap.2015.03.029
PubMed: 25935427
Links to Exploration step
pubmed:25935427Le document en format XML
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<series><title level="j">Accident; analysis and prevention</title>
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<term>Automobiles</term>
<term>Emergencies</term>
<term>Equipment Design</term>
<term>Humans</term>
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<term>Survival Analysis</term>
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<term>Automobiles</term>
<term>Emergencies</term>
<term>Equipment Design</term>
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<front><div type="abstract" xml:lang="en">This study set out to evaluate the effectiveness of low speed autonomous emergency braking (AEB) technology in current model passenger vehicles, based on real-world crash experience. The validating vehicle safety through meta-analysis (VVSMA) group comprising a collaboration of government, industry consumer organisations and researchers, pooled data from a number of countries using a standard analysis format and the established MUND approach. Induced exposure methods were adopted to control for any extraneous effects. The findings showed a 38 percent overall reduction in rear-end crashes for vehicles fitted with AEB compared to a comparison sample of similar vehicles. There was no statistical evidence of any difference in effect between urban (≤60 km/h) and rural (>60 km/h) speed zones. Areas requiring further research were identified and widespread fitment through the vehicle fleet is recommended.</div>
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<Abstract><AbstractText>This study set out to evaluate the effectiveness of low speed autonomous emergency braking (AEB) technology in current model passenger vehicles, based on real-world crash experience. The validating vehicle safety through meta-analysis (VVSMA) group comprising a collaboration of government, industry consumer organisations and researchers, pooled data from a number of countries using a standard analysis format and the established MUND approach. Induced exposure methods were adopted to control for any extraneous effects. The findings showed a 38 percent overall reduction in rear-end crashes for vehicles fitted with AEB compared to a comparison sample of similar vehicles. There was no statistical evidence of any difference in effect between urban (≤60 km/h) and rural (>60 km/h) speed zones. Areas requiring further research were identified and widespread fitment through the vehicle fleet is recommended.</AbstractText>
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