Investigation into U.S. Real World Lane Change Behavior for Automated Freeway Driving

This study aims to develop models of how and when lane changes are currently performed in naturalistic driving conditions, which helps the development of automated lane change functions. The discretionary lane change events across one lane on freeway were extracted from UMTRI’s IVBSS field-operational-test naturalistic driving database. Naturalistic driving data, radar sensor data, and video clips were three main sources of data that supported the modeling. Based on the number of surrounding vehicles and their positions, seven taxonomies of lane change scenarios were created. There were 6,113 (3,250 for left, 2,863 for right) lane changes with the duration between two and ten seconds selected as the observations for factor evaluation and lane-change trajectory modeling. In general, lane changes toward the left took 5.6 s to complete and 6.1 s toward the right. The lane change taxonomy, use of turn signals, and the lane index the host vehicle was located had impact to the duration. Considering the lane change taxonomy, the computational models were able to predict the lateral offset at the start, end or any time during a lane change, given the lane change duration and inter-lane change distance were known. This research also characterized the circumstances that drivers intended to make a lane change. Linear logistic regression models were created to distinguish the lane change cases and no-lane change controls using selected classifiers. Candidate classifiers included the range, relative velocity, and inverse TTC to any of the surrounding vehicles. Classification performance is described by a confusion matrix for a given cut-point or decision threshold, i.e., the threshold that maximizes prediction accuracy. Six classification models were successfully created for scenarios with different surrounding vehicles. These models are able to identify sensor variables that can help inform an autonomous system of when a driver might start a lane change as distinct from when the driver would not start a lane change. A final report will not be publicly available for this project.

Language

• English

Project

• Status: Completed
• Funding: $199,247 Toyota (100% cost share)
• Contract Numbers:

  69A3551747105

• Sponsor Organizations:

  University Transportation Center Program

  1200 New Jersey Avenue, SE
  Washington, DC  United States  20590

  University of Michigan Transportation Research Institute

  2901 Baxter Road
  Ann Arbor, Michigan  United States  48109
• Managing Organizations:

  University of Michigan Transportation Research Institute

  2901 Baxter Road
  Ann Arbor, Michigan  United States  48109
• Project Managers:

  Tucker-Thomas, Dawn

• Performing Organizations:

  University of Michigan Transportation Research Institute

  2901 Baxter Road
  Ann Arbor, Michigan  United States  48109
• Principal Investigators:

  Sayer, James

• Start Date: 20160501
• Expected Completion Date: 20180531
• Actual Completion Date: 20180531
• USDOT Program: University Transportation Centers Program
• Subprogram: Research

Subject/Index Terms

• TRT Terms: Autonomous vehicle guidance; Human factors engineering
• Subject Areas: Design; Passenger Transportation; Research; Transportation (General); Vehicles and Equipment;

Filing Info

• Accession Number: 01745966
• Record Type: Research project
• Source Agency: Center for Connected and Automated Transportation
• Contract Numbers: 69A3551747105
• Files: UTC, RIP
• Created Date: Jul 22 2020 4:38PM