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Presented by Joy Davis, ITRE TRB Planning Applications Conference

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Presentation on theme: "Presented by Joy Davis, ITRE TRB Planning Applications Conference"— Presentation transcript:

1 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

2 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?

3 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

4 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

5 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

6 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

7 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

8 Step 1 – Current Site Volume and configuration details
Some drop-downs, some manual inputs Prepped for report format

9 Step 2 - Traffic Demand Three data options
Hourly Counts most time-consuming AADT least precise

10 Step 2 - Traffic Demand Hourly Counts - 13 or More Hours of Turning Movement Counts

11 Step 2 - Traffic Demand Peak Hour Count - 12 or Less Hours of Turning Movement Counts

12 Step 2 - Traffic Demand AADT - No or Few Turning Movement Counts Available

13 Step 3 - Crash Data 3-5 Years of data required KABCO breakdown needed
Crash costs in defaults

14 Steps 4, 5, & 6 - Configurations
Construction costs and conversion configurations Planning ahead saves time Key to calculating long-term outcomes

15 Step 4 - Roundabout Configuration

16 Step 5 - AWSC Configuration

17 Step 6 - Signal Configuration

18 Output Summary

19 Printable Report

20 Java Tool Designed for national use Faster and more precise
Available for feedback in Fall 2017 Contact Joy Davis for early access

21 Thank you! Question? Comments? Research Team:
Joy Davis,  Chris Cunningham, Behzad Aghdashi, Daniel Findley, and Sangkey Kim


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