<< Research Projects Overview << Year One Projects Overview

Identify Potential Causes of Truck Bottlenecks on Freeways and Develop Mitigation Strategies

Identify Potential Causes of Truck Bottlenecks on Freeways and Develop Mitigation Strategies
Chen-Fu Liao, Ph.D. (PI)
Senior Research Associate, Department of Mechanical Engineering
University of Minnesota
cliao@umn.edu

Proposal Summary and Objectives

Freight transportation provides a significant contribution to our nation’s economy. Reliable and accessible freight network enables business in the Twin Cities to be more competitive in the Upper Midwest region. Accurate and reliable freight data on freight activity is essential for freight planning, forecasting and decision making on infrastructure investment. Building on our previous research to measure freight mobility and reliability along key freight corridors in the Twin Cities metro area, this project will leverage our previous development for assessing truck congestion and travel time reliability to identify and investigate potential causes of truck bottlenecks and develop mitigation strategies on major truck highway corridors in the 8-county metro area. In addition, we will also include key freight corridors that connect to the regional freight centers in St. Cloud, Mankato, and Rochester areas. We plan to investigate potential causes of truck bottlenecks for recurring and non-recurring congestion conditions by merging truck volume and congestion information on a GIS framework for spatial analysis. We also propose to develop a systematic reporting tool to rank truck bottlenecks truck highway corridors. This tool will allow agencies to monitor the truck bottlenecks and evaluate the impact of deployed mitigation strategies on a regular basis.

The objectives of this project are to (1) identify truck bottlenecks and assess congestion impact, (2) examine and analyze trucking activity nearby congested areas and investigate possible causes of recurring congestion, (3) develop and recommend potential mitigation solutions for improving system performance for all users, and (4) develop a systematic reporting tool to rank truck bottlenecks and use the tool to evaluate the impact of deployed mitigation strategies.

Funding Amount: $100,000
Status: Complete
Duration: Oct. 1, 2017 - Nov. 30, 2018

Final Report