Integrated Implementation of Innovative Intersection Designs Part 2

The proposed research is a continuation and extension of the ongoing STRIDE research project “Integrated Implementation of Innovative Intersection Designs”. In the current project, pedestrian and bicycle accommodations on an alternative intersection design are being tested in a simulation environment, and their impact on mobility measures for both motorized and non-motorized users assessed. About three different crossing treatments have been developed and are currently in the testing phase. For clarity, the research team refers to the original funded work as Phase I. Because currently standard and alternative intersections in the Highway Capacity Manual (HCM6) release have different level of service (LOS) service measures for motorized traffic, one based on control delay and the other on extra travel time (ETT), it is difficult to contrast the mobility effect of converting a standard to an alternative intersection on both motorized and non-motorized traffic. In addition, and specific to the CFI or Displaced Left Turn (DLT) design which is the focus of Phase I, HCM6 in Chapter 23 mentions that “DLT pedestrian crossings differ significantly from the pedestrian crossings at conventional intersections and these differences can affect both pedestrian and vehicular delay. As a result, the Chapter 19 analysis procedures for pedestrians and bicycles are not applicable to DLT intersections”. While a couple of treatments are proposed in HCM 6 for this case, no methodology exists to quantify the effects of those treatments at CFI’s on all intersection users. This will be the focus of Phase II of the research. In order to contrast the effect on pedestrians and bicyclists at both standard and alternative intersection configurations, the intent is to normalize the standard intersection geometric configuration and its optimal signal timing to yield the same quality of service for motorized traffic. This will be done through a careful design of experiments that takes into account all explanatory variables. The methods employed in this Phase include a combination of macroscopic modeling using CAP-X, a linear programming-based signal optimizer and a microscopic simulator VISSIM. The outcome will be recommendations on best practices for handling pedestrian and bicycle traffic both at CFI’s and equivalent standard intersections.

Project

  • Status: Programmed
  • Funding: $30026
  • Contract Numbers:

    69A3551747104

  • Sponsor Organizations:

    Office of the Assistant Secretary for Research and Technology

    University Transportation Centers Program
    Department of Transportation
    Washington, DC  United States  20590
  • Managing Organizations:

    Southeastern Transportation Research, Innovation, Development and Education Center (STRIDE)

    University of Florida
    365 Weil Hall
    Gainesville, FL  United States  32611
  • Project Managers:

    Tucker-Thomas, Dawn

  • Performing Organizations:

    North Carolina State University, Raleigh

    Institute for Transportation Research and Education
    Campus Box 8601
    Raleigh, NC  United States  27695-8601

    North Carolina State University

    Institute for Transportation Research and Education
    909 Capability Drive, Suite 3600
    Raleigh, NC  United States  27606
  • Principal Investigators:

    Rouphail, Nagui

  • Start Date: 20181116
  • Expected Completion Date: 20190815
  • Actual Completion Date: 0
  • USDOT Program: University Transportation Centers Program

Subject/Index Terms

Filing Info

  • Accession Number: 01681635
  • Record Type: Research project
  • Source Agency: Southeastern Transportation Research, Innovation, Development and Education Center (STRIDE)
  • Contract Numbers: 69A3551747104
  • Files: UTC, RiP
  • Created Date: Sep 17 2018 4:35PM