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 PPT version for Printing

Low Cost Safety Improvements
Pooled Funds Study

Safety Evaluation of STOP AHEAD Pavement Markings

Header image - Picture shows series of three scenarios: a vehicle on a meandering road, safety personnel at work, and a car that is very badly damaged after it appears to have collided into a telephone pole.
Dr. Frank Gross, Vanasse Hangen Brustlin (VHB), Inc

Overview

  • Introduction
  • Objective
  • Study Design
  • Data Collection
  • Results
  • Economic Analysis
  • Conclusions

Background on Strategy

  • STOP AHEAD
    • Tried
    • Low cost
    • Short-term implementation
  • Target crashes
    • Right-angle
    • Rear-end
    • Other STOP sign violation crashes
  • Potential Difficulties
    • Visibility in winter
    • Low coefficient of friction
  • Key to Success
    • Maintenance of markings
View Alternative text

Literature Review

  • STOP AHEAD pavement markings
    • No available literature
  • STOP AHEAD signs
    • Several studies
    • Not particularly effective (Zwahlen, 1988)
View Alternative text

Objective

  • Estimate Safety Effectiveness
    • Total crash frequency
    • Target crash frequency
      • Right-angle collisions
      • Rear-end collisions
      • Injury collisions
  • Questions of Interest
    • Do effects vary by:
      • Traffic volumes?
      • Area type?
      • Number of approach legs?
      • Number of stop-controlled approaches?
    • Is the treatment economically feasible?

Study Design

  • Required Sample Size
    • Minimum: 53 intersection-years
      • Detect 20 percent reduction in total crashes with 90 percent confidence
    • Desirable: 260 intersection-years
      • Detect 10 percent reduction in total crashes with 90 percent confidence
  • Assumptions
    • Number of reference sites = number of strategy sites

Data Collection

View Alternative text

Data Collection – Arkansas

Total number of intersections used = 8

VariableMeanMinimumMaximum
Months before102.982.3127.3
Months after32.116.749.7
Crashes/site-year before1.600.137.78
Crashes/site-year after 1.360.009.00
Injury crashes/site-year before 0.860.004.44
Injury crashes/site-year after1.080.007.50
Right-angle crashes/site-year before0.820.005.00
Right-angle crashes/site-year after0.810.006.50
Rear-end crashes/site-year before0.320.001.78
Rear-end crashes/site-year after0.040.000.34
Total Entering AADT before5,33040711,284
Total Entering AADT after5,58851311,850
 

Data Collection – Maryland

Total number of intersections used = 9

VariableMeanMinimumMaximum
Months before79.044.7107.9
Months after41.012.175.3
Crashes/site-year before3.710.227.19
Crashes/site-year after2.830.007.00
Injury crashes/site-year before 2.180.114.29
Injury crashes/site-year after 1.340.003.20
Right-angle crashes/site-year before1.490.003.81
Right-angle crashes/site-year after 1.060.003.60
Rear-end crashes/site-year before0.580.001.68
Rear-end crashes/site-year after0.590.002.00
Total Entering AADT before 8,0941,62714,043
Total Entering AADT after8,8561,66317,263
 

Data Collection – Minnesota

Total number of intersections used = 158

VariableMeanMinimumMaximum
Months before117.0 36.0120.0
Months after26.124.096.0
Crashes/site-year before0.040.00 0.67
Crashes/site-year after 0.010.000.63
Injury crashes/site-year before 0.020.00 0.40
Injury crashes/site-year after0.000.000.20
Right-angle crashes/site-year before0.010.00 0.30
Right-angle crashes/site-year after 0.00 0.000.33
Rear-end crashes/site-year before0.000.000.10
Rear-end crashes/site-year after0.000.00 0.17
Total Entering AADT before 75680 6,076
Total Entering AADT after858886,310
 

Evaluation Results

Aggregate Analysis

StatesPercent reduction in Right-angle crashesPercent reduction in Rear-end crashesPercent reduction in Injury crashesPercent reduction in Total crashes
Combined Results (AR and MD)-3.629.021.631.1
AR Results42.190.331.752.3
MD Results-39.0-1.617.622.9
MN Results66.967.982.234.1

Note: A negative sign indicates an increase in crashes.
Bold numbers indicate a statistically significant effect (95% confidence level).

StatesStandard Error for Right-angle crashesStandard Error for Rear-end crashesStandard Error for Injury crashesStandard Error for Total crashes
Combined Results (AR and MD)(18.1)(18.0)(12.0)(8.0)
AR Results (17.5)(9.5)(18.1)(10.8)
MD Results(31.1) (28.7) (15.4)(10.5)
MN Results(23.4)(32.1)(12.6)(19.3)

Note: A negative sign indicates an increase in crashes.
Bold numbers indicate a statistically significant effect (95 percent confidence level).

Disaggregate Analysis

Disaggregate Group SitesEstimate of Percent Reduction (standard error)
Injury crashes:3-legged 554.7 (16.4)
Injury crashes:4-legged 12 11.9 (15.0)
Injury crashes: All-way stop-controlled 742.3 (14.9)
Injury crashes: All-way stop-controlled/ Two-way stop-controlled10 7.7 (17.5)
Total crashes:3-legged 5 60.1 (11.2)
Total crashes: 4-legged 1223.0 (9.9)
Total crashes: All-way stop-controlled755.9 (9.1)
Total crashes: All-way stop-controlled/ Two-way stop-controlled10 12.8(12.2)

Note: A negative sign indicates an increase in crashes.
Bold numbers indicate a statistically significant effect (95% confidence level).

Economic Analysis

Determine the Annual Cost of Installation

  • States Provided Installation Costs and Service Life
    • Latex: $140 per approach (2 year service life)
    • Thermoplastic: $1,500 per approach (5 year service life)
  • Convert Installation Cost to Annual Cost
    View Alternative text
    • Latex: $78 per approach/year
    • Thermoplastic: $366 per approach/year

Estimate Crash Costs

  • FHWA Unit Crash Cost Data (Council et al., 2005)
    • $58,832 for undefined collision
    • Includes "hard dollar" and "non-monetary" costs
  • Assume 2:1 Benefit-Cost Ratio
    View Alternative text
  • Required Crash Reduction (2:1 Benefit-Cost Ratio)
    • Latex: 0.005 (Two-way stop- controlled) or 0.011 (All-way stop- controlled)
    • Thermoplastic: 0.025 (Two-way stop- controlled) or 0.050 (All-way stop- controlled)

Conclusions

  • Total Crashes
    • Significant reduction in AR, MD, and overall
  • Right-angle and Rear-end Crashes
    • Significant reduction in AR
  • Injury Crashes
    • Significant at 10 percent level overall
  • Disaggregate Analysis
    • Greater effect for 3-legged (highly significant)
    • Greater effect for All-way stop-controlled (highly significant)
    • Some variation by AADT
  • General Reduction in Crashes
    • Results supported by MN data
      View Alternative text
  • Economically Feasible
    • Low cost strategy
    • Modest reduction to achieve 2:1 Benefit-Cost ratio
    • Necessary reduction is easily achievable

Benefit >> Cost

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