Research Projects
Start Date: December 2016
Funding: Washington State Department of Transportation (WSDOT), Pacific Northwest Transportation Consortium (PacTrans)
Project Budget: $100,000
Principal Investigator(s): Dr. Anne Goodchild
Summary:
To better understand the current use of truck parking facilities and safety issues caused by the lack of parking capacity in high-demand locations, researchers reviewed existing research and reports that describe the lack of parking in the PacTrans region. The researchers then identified and provided a qualitative analysis of future trends that will affect this problem. Finally, the research team developed and executed a survey of truck drivers at two long-haul trucking parking facilities. The research team focused on two high-volume multi-state truck corridors, the Interstate 5 and 90 corridors, that are of interest to the Washington State Department of Transportation (WSDOT) and neighboring state DOTs. This study presents the data collection method, the overall survey results, and an analysis of the findings.
To better understand the current use of truck parking facilities and safety issues caused by the lack of parking capacity in high-demand locations, researchers reviewed existing research and reports that describe the lack of parking in the PacTrans region. The researchers then identified and provided a qualitative analysis of future trends that will affect this problem. Finally, the research team developed and executed a survey of truck drivers at two long-haul trucking parking facilities. The research team focused on two high-volume multi-state truck corridors, the Interstate 5 and 90 corridors, that are of interest to the Washington State Department of Transportation (WSDOT) and neighboring state DOTs. This study presents the data collection method, the overall survey results, and an analysis of the findings.
Start Date: October 2016
Funding: City of Seattle Department of Transportation (SDOT)
Project Budget: $205,000
Principal Investigator(s): Dr. Anne Goodchild
Summary:
The Urban Freight Lab's first study provides the first assessment in any U.S. city of the privately-owned and operated elements of the Final 50 Feet of goods delivery supply chains, the final segment that includes private truck freight bays and loading docks, and delivery policies and operations within buildings, where drivers must locate both parking and the recipient.
The Urban Freight Lab's first study provides the first assessment in any U.S. city of the privately-owned and operated elements of the Final 50 Feet of goods delivery supply chains, the final segment that includes private truck freight bays and loading docks, and delivery policies and operations within buildings, where drivers must locate both parking and the recipient.
Start Date: September 2015
Funding: Pacific Northwest Transportation Consortium (PacTrans)
Project Budget: $360,000
Summary:
The overarching goal of this project is to improve both cyclist safety and commercial parking utilization in urban environments. To support this goal, this project tested the impacts of different striping, signage, and infrastructure on cyclist behavior around commercial vehicle (truck) loading zones and will determine the implications for cyclist safety. While there is little research on the behavioral interaction between bicycle lanes and commercial vehicle loading zones (CVLZ) in the U.S., these interactions are important to understand, to preempt increasing conflicts between truckers and bicyclists. In this study, a bicycling simulator experiment examined bicycle and truck interactions completed by 48 participants. The bicycling simulator collected data regarding a participant's velocity and lateral position. Three independent variables reflecting common engineering approaches were included in this experiment: pavement marking, signage, and truck maneuvering.
The overarching goal of this project is to improve both cyclist safety and commercial parking utilization in urban environments. To support this goal, this project tested the impacts of different striping, signage, and infrastructure on cyclist behavior around commercial vehicle (truck) loading zones and will determine the implications for cyclist safety. While there is little research on the behavioral interaction between bicycle lanes and commercial vehicle loading zones (CVLZ) in the U.S., these interactions are important to understand, to preempt increasing conflicts between truckers and bicyclists. In this study, a bicycling simulator experiment examined bicycle and truck interactions completed by 48 participants. The bicycling simulator collected data regarding a participant's velocity and lateral position. Three independent variables reflecting common engineering approaches were included in this experiment: pavement marking, signage, and truck maneuvering.