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Optimizing The Evaluation of The Life Cycle Impacts of Intersection Control Type Selection
Presented by Joy Davis, ITRE TRB Planning Applications Conference May 15, 2017
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Problem Lack of standard process for conversion of Two-Way Stop Controlled intersection Roundabout? All-Way Stop? = Possible inefficient allocation of funds + ongoing safety & delay problems Signal?
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Goals Provide guidance for conversions of two-way stop controlled (TWSC) intersections to other types to enhance the effective allocation of public funds: Create an analytic model that accounts for variables that impact the life cycle costs of conversions Develop a user-friendly planning-level tool that requires minimal time & effort Use Life Cycle Cost Analysis (LCCA) framework to compares the monetized outcomes of alternatives
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Scope Four-Way TWSC Intersection Conversions To: Approach All-Way Stop
Signal Roundabout Approach Outcomes calculated using HCM, HSM, MUTCD, NCHRP, and other peer-reviewed methods Monetized using standard LCCA methods
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Variables Construction & Maintenance
Capital funds needed for conversion (including ROW and PE) Three cost tiers based on 5 years of NCDOT SPOT projects Cost of annual upkeep + revisions at end of service life User Delay Idling (based on fuel prices) Value of travel time Control delay Safety Last 3-5 years if crash data for TWSC intersection KABCO costs Crash Reduction Factors for post-conversion outcomes
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Monetization TWSC is considered “0” starting point – only post-conversion outcomes counted 3% discount rate used to project values into the future 𝑃𝑉= 𝐴𝐵 𝑦 𝑓 (1+𝑟) 𝑦 𝑓− 𝑦 𝑖 Final outputs are Net Present Values (benefits minus costs) Alternative with highest NPV considered the best option
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One-Stop Shop Takes 10-15 minutes Minimal user inputs in one platform
Many standards/defaults available Delay and other variables calculated in-tool Easily updated, flexible default values GUI-heavy and simple interface
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Step 1 – Current Site Volume and configuration details
Some drop-downs, some manual inputs Prepped for report format
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Step 2 - Traffic Demand Three data options
Hourly Counts most time-consuming AADT least precise
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Step 2 - Traffic Demand Hourly Counts - 13 or More Hours of Turning Movement Counts
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Step 2 - Traffic Demand Peak Hour Count - 12 or Less Hours of Turning Movement Counts
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Step 2 - Traffic Demand AADT - No or Few Turning Movement Counts Available
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Step 3 - Crash Data 3-5 Years of data required KABCO breakdown needed
Crash costs in defaults
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Steps 4, 5, & 6 - Configurations
Construction costs and conversion configurations Planning ahead saves time Key to calculating long-term outcomes
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Step 4 - Roundabout Configuration
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Step 5 - AWSC Configuration
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Step 6 - Signal Configuration
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Output Summary
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Printable Report
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Java Tool Designed for national use Faster and more precise
Available for feedback in Fall 2017 Contact Joy Davis for early access
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Thank you! Question? Comments? Research Team:
Joy Davis, Chris Cunningham, Behzad Aghdashi, Daniel Findley, and Sangkey Kim
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