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Safety Analyst Overview

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Title: Safety Analyst Overview Author: jgraham Last modified by: Jon Schermann Created Date: 10/28/2005 2:42:34 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Safety Analyst Overview


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(No Transcript)
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  • Safety management software for state and local
    highway agencies
  • Improves identification and programming of
    site-specific highway safety improvements
  • Incorporates state-of-the-art safety management
    approaches with computerized analytical tools
  • http//www.safetyanalyst.org/

3
Who is DevelopingSafetyAnalyst?
  • Federal Highway Administration
  • Technical Working Group
  • 19 participating (pooled-fund) States
  • 1 local highway agency
  • 2 MPOs

4
Participating States
5
SafetyAnalyst Modules
  • Module 1 Network Screening
  • Module 2 Diagnosis and Countermeasure Selection
  • Module 3 Economic Appraisal and Priority
    Ranking
  • Module 4 Countermeasure Evaluation

6
Status of Development
  • Module 1 - Network Screening
  • Beta testing of interim version underway
  • Module 2 - Diagnosis and Countermeasure Selection
  • Interim version available for testing Dec 2006
  • Module 3 - Economic Appraisal and Priority
    Ranking
  • Interim version available for testing Dec 2006
  • Module 4 Countermeasure Evaluation
  • Beta testing of interim version underway

7
Advantages of SafetyAnalyst over Existing
Techniques
  • Integrates/automates all parts of safety
    management process
  • Applies state-of-the-art analytical procedures
  • Strong cost-effectiveness component
  • Enables engineers to make more informed
    decisions more efficiently

8
Module 1Network Screening

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Module 1 - Objectives
  • Screen entire roadway network, or portion of
    network, and to identify sites with potential for
    safety improvement
  • Rank sites with potential for safety improvement
  • Select sites for further investigation within
    Module 2 - Diagnosis and Countermeasure Selection

10
Types of Network Screening
  • Basic network screening
  • With Peak Searching on roadway segments
  • With Sliding Window on roadway segments
  • High proportion of specific accident type
  • Sudden increase in mean accident frequency
  • Steady increase in mean accident frequency
  • Corridors with promise

11
Basic Network Screening
  • Uses Empirical Bayes methodology
  • Combine observed and predicted accidents
  • Expected accident values expressed as
  • Expected accident frequency
  • Excess accident frequency
  • Two screening approaches for roadway segments
  • Peak searching
  • Sliding window

12
Basic Network Screening(with Peak Searching on
Roadway Segments)
  • For roadway segments, individual sites are
    divided into windows of size 0.1 mi
  • Accident frequencies are calculated for each
    window within a site
  • Windows are flagged when
  • Expected value greater than user-specified limit
  • Expected value is statistically reliable
  • If no windows are flagged, incrementally increase
    window size by 0.1 mi and test again
  • More than one window pertaining to a site can be
    flagged
  • Rank order site based upon expected or excess
    accident frequencies

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Peak Searching Concepts
Roadway Segment
Win 1
Win 2
0.03 mi
0.07 mi
Win 3
Win 4
Note Window length 0.1 mi Expected accidents
(acc/mi) Limiting Value 5 acc/mi CVLimit 0.5
Win 5
Win 6
Win 7
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Peak Searching Concepts
Note Window length 0.2 mi Expected accidents
(acc/mi) Limiting Value 5 acc/mi CVLimit 0.5
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Peak Searching Concepts
Note Window length 0.3 mi Expected accidents
(acc/mi) Limiting Value 5 acc/mi CVLimit 0.5
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Peak Searching Concepts
Note Window length 0.4 mi Expected accidents
(acc/mi) Limiting Value 5 acc/mi CVLimit 0.5
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Peak Searching Concepts
Note Window length 0.5 mi Expected accidents
(acc/mi) Limiting Value 5 acc/mi CVLimit 0.5
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Peak Searching Concepts
Note Window length 0.6 mi Expected accidents
(acc/mi) Limiting Value 5 acc/mi CVLimit 0.5
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Peak Searching Concepts
Note Window length Segment length Expected
accidents (acc/mi) Limiting Value 5
acc/mi CVLimit 0.5
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Basic Network Screening(with Sliding Window on
Roadway Segments)
  • Users specifies
  • Window size (e.g., 0.3 mi)
  • Increment length (e.g., 0.1 mi)
  • For each window position, determine
  • Expected or excess accident frequency
  • Windows allowed to bridge sites
  • More than one window pertaining to a site can be
    flagged
  • Rank order site based upon expected or excess
    accident frequencies

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Sliding Window Concepts
Site No. 1
MP 1.0
MP 2.6
1.1 mi
1.2 mi
1.3 mi
1.4 mi
1.5 mi
First Sliding Window W 0.3 mi
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Sliding Window Concepts
Site No. 1
Second Sliding Window W 0.3 mi
Sliding window is moved incrementally by 0.1 mi
along the roadway segment.
MP 1.0
MP 2.6
1.1 mi
1.2 mi
1.3 mi
1.4 mi
1.5 mi
First Sliding Window W 0.3 mi
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Site No. 23
Site No. 24
MP 35.4
MP 36.2
MP 36.7
Note Window length 0.3 mi Increment length
0.1 mi Expected accidents (acc/mi) Limiting
Value 5 acc/mi
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Site No. 23
Site No. 24
MP 35.4
MP 36.2
MP 36.7
Note Window length 0.3 mi Increment length
0.1 mi Expected accidents (acc/mi) Limiting
Value 5 acc/mi
25
Site No. 23
Site No. 24
MP 35.4
MP 36.2
MP 36.7
Note Window length 0.3 mi Increment length
0.1 mi Expected accidents (acc/mi) Limiting
Value 5 acc/mi
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High Proportions of Specific Accident Type
  • Objective
  • Identify sites having higher than expected
    proportions of specific target accidents
  • Rank sites based on difference observed
    proportion and expected proportion of target
    accident
  • Methodology
  • Calculate observed proportion (TOT only)
  • Calculate the probability that observed
    proportion is greater than limiting proportion
    (i.e., avg for site accident type)
  • Site flagged when probability is greater than
    some user-specified significance level

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High Proportions of Specific Accident Type (cont.)
  • Roadway segments
  • Similar to sliding window approach
  • Longer windows are needed to reduce variance
    (e.g., 1.0 mi)
  • More than one window pertaining to a site can be
    flagged
  • Site ranked based upon maximum difference between
    observed proportion and expected proportion

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Sudden Increase in Mean Accident Frequency
  • Screening for safety deterioration
  • Calculate differences in mean yearly accident
    frequencies
  • For the time period with the largest difference
  • If the percentage increase is greater than a
    user-specified limiting value
  • Then perform test of significance
  • Based on observed accidents
  • Based on total accidents
  • Flagged sites are not rank ordered

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Steady Increase in Mean Accident Frequency
  • Screening for safety deterioration
  • Fit regression model to data of accident
    frequency versus year
  • If value of slope is greater than a
    user-specified limiting slope
  • Then perform test of significance
  • Based on observed accidents
  • Based on total accidents
  • Flagged sites are not rank ordered

30
Screening for Corridors with Promise
  • Analysis of extended corridors (e.g., 10 mi or
    more)
  • Roadway segments, intersections, and ramps
    grouped together
  • Rank order corridors based upon
  • Accidents/mi/yr
  • Accidents/million veh-mi/yr
  • Based on observed accidents

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Demonstration of Module 1 Network Screening
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SafetyAnalyst Modules
  • Module 1 Network Screening
  • Module 2 Diagnosis and Countermeasure Selection
  • Module 3 Economic Appraisal and Priority
    Ranking
  • Module 4 Countermeasure Evaluation

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Module 2 Diagnosis and Countermeasure Selection
  • Display collision diagram (links to third-party
    software)
  • Identify collision patterns
  • Conduct diagnostic investigations
  • Suggest countermeasures that address identified
    collision patterns
  • Select appropriate countermeasures

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Module 3 Economic Appraisal and Priority Ranking
  • Perform economic analysis of alternative
    countermeasures for a specific site
  • Perform economic analysis of improvements across
    selected sites
  • Select mix of sites and countermeasures to get
    maximum benefits within a specified budget
  • Develop priority ranking of alternative
    improvements

35
Module 4Countermeasure Evaluation Tool

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Objective
  • Determine safety effectiveness (percent reduction
    in crashes) for specific implemented
    countermeasures
  • Conduct before-after evaluation of crash
    frequencies using the Empirical Bayes (EB)
    approach
  • Conduct before-after evaluation of shifts in
    crash severity or crash type proportion

37
Why the Evaluation Tool?
  • The goal of SafetyAnalyst is to help highway
    agencies determine how funds can be spent in the
    most cost-effective manner to improve safety.
  • The results of Module 4 can be used to update the
    accident modification factors (AMFs) that are
    used within Module 3 for economic appraisal and
    priority ranking of countermeasures to be
    implemented at sites.

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When to Use the Evaluation Tool
  • A countermeasure has been implemented at a number
    of sites
  • The agency wants to assess how effectively the
    countermeasure performed
  • Did it improve the safety performance at a site?
  • Did it reduce a specific target accident type?

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What Information Is Needed
  • Locations of improved sites
  • Countermeasure(s) to evaluate for each site
  • Year of implementation
  • Countermeasure name(s)
  • Site characteristics
  • ADTs (before and after improvement)
  • Yearly accident counts (before and after)
  • Safety Performance Functions (SPFs)

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Types of Analyses Conducted
  • The safety effectiveness of countermeasures is
    quantified through the use of before-after
    statistical evaluations.
  • Two types of before-after evaluations can be
    conducted
  • Percent change in accident frequencies, due to
    the implemented countermeasure, is evaluated by
    an Empirical Bayes (EB) technique.
  • Shift in proportion of specific collision types
    is evaluated using the Wilcoxon signed rank test

41
Demonstration of Module 4 Countermeasure
Evaluation Tool
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