Publications
Searching for:
- "The Final 50 Feet of the Urban Goods Delivery System"
The Urban Freight Lab coined the term "Final 50 Feet" and defined it as the supply chain segment that begins when a delivery vehicle pulls into a parking space and stops moving — in public load/unload spaces at the curb or in an alley, or a building’s loading dock or internal freight bay. It tracks the delivery process inside buildings and ends where the customer takes receipt of their goods. This research analyzes processes, develops potential solutions, and tests operational improvements in the final segment of the urban goods delivery system.
Chapter
Published: 2018
Journal/Book: City Logistics 2: Modeling and Planning Initiatives (Proceedings of the 2017 International Conference on City Logistics)
Summary:
Two converging trends – the rise of e‐commerce and urban population growth – challenge cities facing competing uses for road, curb and alley space. The University of Washington has formed a living Urban Freight Lab to solve city logistics problems that cross private and public sector boundaries.
Two converging trends – the rise of e‐commerce and urban population growth – challenge cities facing competing uses for road, curb and alley space. The University of Washington has formed a living Urban Freight Lab to solve city logistics problems that cross private and public sector boundaries.
Topics:
Curb ManagementThe Final 50 Feet of the Urban Goods Delivery SystemUrban Goods Delivery and Land Use
Curb ManagementThe Final 50 Feet of the Urban Goods Delivery SystemUrban Goods Delivery and Land Use
Paper
Published: 2022
Journal/Book: Transportation Research Interdisciplinary Perspectives
Summary:
While the number of deliveries has been increasing rapidly, infrastructure such as parking and building configurations has changed less quickly, given limited space and funds. This may lead to an imbalance between supply and demand, preventing the current resources from meeting the future needs of urban freight activities. This study aimed to discover the future delivery rates that would overflow the current delivery systems and find the optimal number of resources.
While the number of deliveries has been increasing rapidly, infrastructure such as parking and building configurations has changed less quickly, given limited space and funds. This may lead to an imbalance between supply and demand, preventing the current resources from meeting the future needs of urban freight activities. This study aimed to discover the future delivery rates that would overflow the current delivery systems and find the optimal number of resources.
Paper
Published: 2021
Journal/Book: Transportation Research Record: Journal of the Transportation Research Board
Summary:
As e-commerce and urban deliveries spike, cities grapple with managing urban freight more actively. To manage urban deliveries effectively, city planners and policy makers need to better understand driver behaviors and the challenges they experience in making deliveries. In this study, we collected data on commercial vehicle (CV) driver behaviors by performing ridealongs with various logistics carriers.
As e-commerce and urban deliveries spike, cities grapple with managing urban freight more actively. To manage urban deliveries effectively, city planners and policy makers need to better understand driver behaviors and the challenges they experience in making deliveries. In this study, we collected data on commercial vehicle (CV) driver behaviors by performing ridealongs with various logistics carriers.
Keywords:
Parking decision-making and parking choiceDriver behaviorDwell timeParking cruising behaviorCommercial vehicle and truck movements
Parking decision-making and parking choiceDriver behaviorDwell timeParking cruising behaviorCommercial vehicle and truck movements
Paper
Published: 2020
Journal/Book: Cities
Summary:
There is growing pressure in cities to unlock the potential of every public infrastructure element as density and demand for urban resources increase. Despite their historical role as providing access to land uses for freight and servicing, alleys have not been studied as a resource in modern freight access planning. The authors developed a replicable data collection method to build and maintain an alley inventory and operations study focused on commercial vehicles.
There is growing pressure in cities to unlock the potential of every public infrastructure element as density and demand for urban resources increase. Despite their historical role as providing access to land uses for freight and servicing, alleys have not been studied as a resource in modern freight access planning. The authors developed a replicable data collection method to build and maintain an alley inventory and operations study focused on commercial vehicles.
Topics:
The Final 50 Feet of the Urban Goods Delivery SystemSurface TransportationUrban Goods Delivery and Land Use
The Final 50 Feet of the Urban Goods Delivery SystemSurface TransportationUrban Goods Delivery and Land Use
Related Research Project:
Seattle Center City Alley Infrastructure Inventory and Occupancy Study 2018 (Task Order 4)
Seattle Center City Alley Infrastructure Inventory and Occupancy Study 2018 (Task Order 4)
Presentation
Published: 2022
Journal/Book: 9th International Urban Freight Conference, Long Beach, May 2022
Summary:
While several stakeholders in the private and public sectors are taking actions and drafting roadmaps to achieve sustainable urban freight goals, the urban freight ecosystem is a complex network of stakeholders, achieving such sustainability goals requires the collaboration and coordination between multiple agents. Researchers collected and synthesized views from both the private and public sectors on what is needed to sustainably deliver the last mile and identify roadblocks towards this goal.
While several stakeholders in the private and public sectors are taking actions and drafting roadmaps to achieve sustainable urban freight goals, the urban freight ecosystem is a complex network of stakeholders, achieving such sustainability goals requires the collaboration and coordination between multiple agents. Researchers collected and synthesized views from both the private and public sectors on what is needed to sustainably deliver the last mile and identify roadblocks towards this goal.
Published: 2021
Journal/Book: Transportation Research Part A: Policy and Practice
Summary:
This study aims to identify factors correlated with dwell time for commercial vehicles (the time that delivery workers spend performing out-of-vehicle activities while parked). While restricting vehicle dwell time is widely used to manage commercial vehicle parking behavior, there is insufficient data to help assess the effectiveness of these restrictions, which makes it difficult for policymakers to account for the complexity of commercial vehicle parking behavior.
This study aims to identify factors correlated with dwell time for commercial vehicles (the time that delivery workers spend performing out-of-vehicle activities while parked). While restricting vehicle dwell time is widely used to manage commercial vehicle parking behavior, there is insufficient data to help assess the effectiveness of these restrictions, which makes it difficult for policymakers to account for the complexity of commercial vehicle parking behavior.
Topics:
Curb ManagementThe Final 50 Feet of the Urban Goods Delivery SystemLogistics and Supply ChainSurface Transportation
Curb ManagementThe Final 50 Feet of the Urban Goods Delivery SystemLogistics and Supply ChainSurface Transportation
Technical Report
Published: 2019
Journal/Book: Pacific Northwest Transportation Consortium (PacTrans)
Summary:
This report presents a pilot test of a common carrier smart locker system — a promising strategy to reduce truck trip and failed first delivery attempts in urban buildings. The Urban Freight Lab tested this system in the 62-story Seattle Municipal Tower skyscraper in downtown Seattle.
This report presents a pilot test of a common carrier smart locker system — a promising strategy to reduce truck trip and failed first delivery attempts in urban buildings. The Urban Freight Lab tested this system in the 62-story Seattle Municipal Tower skyscraper in downtown Seattle.
Keywords:
Common carrier parcel lockersFailed deliveryTruck trip generationFinal 50 FeetPickup and delivery drop-off systems
Common carrier parcel lockersFailed deliveryTruck trip generationFinal 50 FeetPickup and delivery drop-off systems