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Using State Data to Assess Vehicle Performance

Learn how state data can measure vehicle performance for crash protection and braking. Discover methodology using real-world scenarios.

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Using State Data to Assess Vehicle Performance

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  1. Using State Data to Assess Vehicle Performance Prepared by Rory Austin Office of Vehicle Safety Planning and Analysis National Highway Traffic Safety Administration rory.austin@nhtsa.dot.gov Presented by John KindelbergerNational Center for Statistics and Analysis National Highway Traffic Safety Administration 30th International Traffic Records Forum Nashville, TN July 26, 2004

  2. Presentation Overview • Why Assess Vehicle Performance? • Example 1: Vehicle Crash Protection for Children • Example 2: Vehicle Braking Performance • Conclusion

  3. Why Assess NewVehicle Performance? • Compliance with Federal Regulations • New vehicles must meet Federal Motor Vehicle Safety Standards (FMVSS) • Consumer Information • New vehicles are assigned ratings under NHTSA’s New Car Assessment Program (NCAP)

  4. Measuring Vehicle Performance • Compliance and NCAP • Laboratory tests • Described in the Code of Federal Regulations • However… Do Laboratory Results Correlate with “Real-World” Performance? • Want changes to FMVSS to have safety benefit • Want to provide consumers with “good” information

  5. “Real-world” Performance • Frequently determined from crash data • NHTSA’s State Data System (SDS) useful • Large numbers of cases needed for • Particular vehicle make and model • Relatively new vehicles (recent model years) • Vehicle Identification Numbers needed for • Identifying particular vehicle characteristics such as four-wheel drive or anti-lock brake system

  6. Example 1: Vehicle Crash Protection for Children • Do some vehicle models provide better occupant protection for properly restrained children than other vehicle models? • Focused on • Frontal crashes (front impact) • Vehicle that did not overturn • 15 vehicle models • Model years 2000 through 2003

  7. Example 1: Vehicle Crash Protection for Children • Child occupants were • 0 to 3 years old • In rear seat • In child restraint • Known injury severity (including no injury) • Older children were not included due to coding issues with booster seats

  8. Example 1: Methodology Vehicle Performance for Vehicle Model = Number of Injured Children in Relevant Crashes in Vehicle Model / All Children in Relevant Crashes in Vehicle Model Approach requires information on ALL children Not just injured children

  9. Example 1: Data Sets Used • Used Florida and Maryland • Some states could not be used because • No VINs • No information on uninjured occupants • No initial impact point • Not current enough to capture “new” model years

  10. Example 2: Braking Performance • Do some vehicles have better braking performance than other vehicles? • Important because better brakes may help avoid a crash • Rear-end crashes • If following (striking) vehicle had stopped sooner, crash might not have occurred

  11. Example 2: Braking Performance • But raw counts of rear-end crashes per vehicle model may reflect exposure • More vehicles of a particular model on the road • Vehicle models differ in miles traveled • Vehicle models differ in environment • Region or urban vs. rural • How can we control for exposure?

  12. Example 2: Methodology • Exposure to rear-end crashes can be captured by involvement • leading (struck) and following (striking) • Higher volume models and certain travel patterns contribute to higher involvement • Potential measure of braking performance • Vehicles of model striking in rear-end crash / Vehicles of model involved in rear-end crash

  13. Example 2: Methodology • Braking performance still affected by driver • Can control through use of logistic regression • Predict whether a vehicle in rear-end crash was striking (brake performance) or struck (control) • Explanatory variables include vehicle model, age, gender, and alcohol/drug involvement • Explanation by vehicle model indicates differences in braking performance

  14. Example 2: Data Sets Used • Used Florida, Maryland, Missouri, Pennsylvania, and Utah • Needed VINs to identify vehicles with standard Anti-Lock Brakes • Involved 20 vehicles of model years 1998 through 2003

  15. Conclusions • Both projects relate to possible consumer information programs under consideration • Final decisions have not been made regarding either project but… • State data is greatly informing our decision-making process AND • Will help all of us improve vehicle safety

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