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.
Paper
Published: 2020
Journal/Book: Transportation Science
Summary:
Understanding factors that drive the parking choice of commercial vehicles at delivery stops in cities can enhance logistics operations and the management of freight parking infrastructure, mitigate illegal parking, and ultimately reduce traffic congestion. In this paper, we focus on this decision-making process at large urban freight traffic generators, such as retail malls and transit terminals, that attract a large share of urban commercial vehicle traffic.
Understanding factors that drive the parking choice of commercial vehicles at delivery stops in cities can enhance logistics operations and the management of freight parking infrastructure, mitigate illegal parking, and ultimately reduce traffic congestion. In this paper, we focus on this decision-making process at large urban freight traffic generators, such as retail malls and transit terminals, that attract a large share of urban commercial vehicle traffic.
Technical Report
Published: 2020
Summary:
The Seattle Department of Transportation (SDOT) engaged the Urban Freight Lab at the Supply Chain Transportation and Logistics Center at the University of Washington to conduct research on the impacts of a freight and transit (FAT) lane that was implemented in January 2019 in Seattle. To improve freight mobility in the City of Seattle and realize the objectives included in the city’s Freight Master Plan (FMP), the FAT lane was opened upon the closing of the Alaskan Way Viaduct. The...
The Seattle Department of Transportation (SDOT) engaged the Urban Freight Lab at the Supply Chain Transportation and Logistics Center at the University of Washington to conduct research on the impacts of a freight and transit (FAT) lane that was implemented in January 2019 in Seattle. To improve freight mobility in the City of Seattle and realize the objectives included in the city’s Freight Master Plan (FMP), the FAT lane was opened upon the closing of the Alaskan Way Viaduct. The...
Technical Report
Published: 2020
Summary:
This research scan revealed a lack of an established and widely accepted definition for the concept of consolidation centers or microhubs. Many recent implementations of urban freight consolidation have focused on bundling goods close to the delivery point by creating logistical platforms in the heart of urban areas. These have shared a key purpose: to avoid freight vehicles traveling into urban centers with partial loads.
This research scan revealed a lack of an established and widely accepted definition for the concept of consolidation centers or microhubs. Many recent implementations of urban freight consolidation have focused on bundling goods close to the delivery point by creating logistical platforms in the heart of urban areas. These have shared a key purpose: to avoid freight vehicles traveling into urban centers with partial loads.
Topics:
The Final 50 Feet of the Urban Goods Delivery SystemSustainable FreightUrban Goods Delivery and Land Use
The Final 50 Feet of the Urban Goods Delivery SystemSustainable FreightUrban Goods Delivery and Land Use
Report
Published: 2020
Summary:
This report describes the Urban Freight Lab (UFL) work to map the locations of all private loading docks, loading bays, and loading areas for commercial vehicles in Seattle’s First Hill and Capitol Hill neighborhoods and document their key design and capacity features, as part of our Final 50 Feet Research Program.
This report describes the Urban Freight Lab (UFL) work to map the locations of all private loading docks, loading bays, and loading areas for commercial vehicles in Seattle’s First Hill and Capitol Hill neighborhoods and document their key design and capacity features, as part of our Final 50 Feet Research Program.
Keywords:
Parking resource allocation optimizationInfrastructureFinal 50 FeetInfrastructure inventoryParking infrastructureLoading and unloading operationsLoading bays
Parking resource allocation optimizationInfrastructureFinal 50 FeetInfrastructure inventoryParking infrastructureLoading and unloading operationsLoading bays
Technical Report
Published: 2020
Summary:
This report presents research to improve the understanding of curb space and delivery needs in urban areas. Observations of delivery operations to determine vehicle type, loading actions, door locations, and accessories used were conducted. Once common practices had been identified, then simulated loading activities were measured to quantify different types of loading space requirements around commercial vehicles.
This report presents research to improve the understanding of curb space and delivery needs in urban areas. Observations of delivery operations to determine vehicle type, loading actions, door locations, and accessories used were conducted. Once common practices had been identified, then simulated loading activities were measured to quantify different types of loading space requirements around commercial vehicles.
Keywords:
Vehicle envelopesCVLZ (Commercial Delivery Load Zone)Loading and unloading operationsLoading and unloading zones and infrastructure
Vehicle envelopesCVLZ (Commercial Delivery Load Zone)Loading and unloading operationsLoading and unloading zones and infrastructure
Related Research Project:
Developing Design Guidelines for Commercial Vehicle Envelopes on Urban Streets
Developing Design Guidelines for Commercial Vehicle Envelopes on Urban Streets
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: 2019
Journal/Book: U.S. House Committee on Transportation and Infrastructure the Subcommittee on Highways and Transit and the Subcommittee on Railroads, Pipelines, and Hazardous Materials
Summary:
Written Testimony of Anne Goodchild Professor in Civil and Environmental Engineering Director of the Supply Chain Transportation and Logistics Center University of Washington Joint Hearing on: “Where’s My Stuff? Examining the Economic, Environmental, and Societal Impacts of Freight Transportation” before the United States House Committee on Transportation and Infrastructure the Subcommittee on Highways and Transit and the Subcommittee on Railroads, Pipelines, and Hazardous Materials.
Written Testimony of Anne Goodchild Professor in Civil and Environmental Engineering Director of the Supply Chain Transportation and Logistics Center University of Washington Joint Hearing on: “Where’s My Stuff? Examining the Economic, Environmental, and Societal Impacts of Freight Transportation” before the United States House Committee on Transportation and Infrastructure the Subcommittee on Highways and Transit and the Subcommittee on Railroads, Pipelines, and Hazardous Materials.
Presentation
New Evidence-Based Methods for Cities to Actively Manage the Final 50 Feet of the Urban Goods System
Published: 2019
Journal/Book: Transportation Research Board (TRB): Urban Freight Transportation Committee Webinar
Presentation
Published: 2019
Journal/Book: National Association of City Transportation Officials (NACTO) Conference (3/15/2019)
Technical Report
Published: 2019
Journal/Book: U.S. Department of Energy
Summary:
The objectives of this project are to develop and implement a technology solution to support research, development, and demonstration of data processing techniques, models, simulations, a smart phone application, and a visual-confirmation system to: Reduce delivery vehicle parking seeking behavior by approximately 20% in the pilot test area, by returning current and predicted load/unload space occupancy information to users on a web-based and/or mobile platform, to inform real-time parking decis…
The objectives of this project are to develop and implement a technology solution to support research, development, and demonstration of data processing techniques, models, simulations, a smart phone application, and a visual-confirmation system to: Reduce delivery vehicle parking seeking behavior by approximately 20% in the pilot test area, by returning current and predicted load/unload space occupancy information to users on a web-based and/or mobile platform, to inform real-time parking decis…
Keywords:
Parking-seekingCity logisticsDwell timeEmissionsLoading and unloading operationsReal-time curb visibilityCurb occupancy
Parking-seekingCity logisticsDwell timeEmissionsLoading and unloading operationsReal-time curb visibilityCurb occupancy
Report
Published: 2019
Summary:
Vehicles of all kinds compete for parking space along the curb in Seattle’s Greater Downtown area. The Seattle Department of Transportation (SDOT) manages use of the curb through several types of curb designations that regulate who can park in a space and for how long.
Vehicles of all kinds compete for parking space along the curb in Seattle’s Greater Downtown area. The Seattle Department of Transportation (SDOT) manages use of the curb through several types of curb designations that regulate who can park in a space and for how long.
Keywords:
Curb occupancyCurb usageCommercial vehicle parkingCurbspace managementCVLZ (Commercial Delivery Load Zone)Driver behaviorParking resource allocation optimizationInfrastructure
Curb occupancyCurb usageCommercial vehicle parkingCurbspace managementCVLZ (Commercial Delivery Load Zone)Driver behaviorParking resource allocation optimizationInfrastructure
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
Paper
Published: 2019
Journal/Book: Transportation Research Record: Journal of the Transportation Research Board
Summary:
Rapid urban growth puts pressure on local governments to rethink how they manage street curb parking. Competition for space among road users and lack of adequate infrastructure force delivery drivers either to search for vacant spaces or to park in unsuitable areas, which negatively impacts road capacity and causes inconvenience to other users of the road. The purpose of this paper is to advance research by providing data-based insight into what is actually happening at the curb.
Rapid urban growth puts pressure on local governments to rethink how they manage street curb parking. Competition for space among road users and lack of adequate infrastructure force delivery drivers either to search for vacant spaces or to park in unsuitable areas, which negatively impacts road capacity and causes inconvenience to other users of the road. The purpose of this paper is to advance research by providing data-based insight into what is actually happening at the curb.
Keywords:
Loading and unloading zones and infrastructureParking cruising behaviorParking resource allocation optimizationParking complianceCurb usageCurb inventoryLoading and unloading operations
Loading and unloading zones and infrastructureParking cruising behaviorParking resource allocation optimizationParking complianceCurb usageCurb inventoryLoading and unloading operations
Presentation
Published: 2018
Journal/Book: California Transportation Commission (August 15, 2018)
Summary:
A 20% e-commerce compound annual growth rate (CAGR) would more than double goods deliveries in 5 years. If nothing changes, this could double delivery trips in cities; thereby doubling the demand for load/unload spaces. Innovation is needed to manage scarce curbs, alleys, and private loading bay space in the new world of on-demand transportation, 1-hour e-commerce deliveries, and coming autonomous vehicle technologies.
A 20% e-commerce compound annual growth rate (CAGR) would more than double goods deliveries in 5 years. If nothing changes, this could double delivery trips in cities; thereby doubling the demand for load/unload spaces. Innovation is needed to manage scarce curbs, alleys, and private loading bay space in the new world of on-demand transportation, 1-hour e-commerce deliveries, and coming autonomous vehicle technologies.
Presentation
Published: 2018
Journal/Book: Eno Transportation (August 9, 2018 Webinar)