Context and objectives, Truck classification, Wim data, Axle load distribution, load patterns, Methodology
28114281PDFTech ReportFHWA/VA-92-R17VirginiaVirginia Transportation Research CouncilCottrell, Benjam...
4. Sponsoring Agency Code This document reports on the development of smoothness criteria for weigh-...
This manual provides information and recommended procedures to be utilized by an agency’s Weigh-in-M...
This paper presents a study carried out with extensive weigh-in-motion (WIM) data collected on the F...
The objectives of this study were to review and analyze current procedures in order to implement a p...
008196251999PDFResearch PaperTrucks by number of axlesVehicle characteristicsAutomatic vehicle class...
An algorithm for truck identification based on the truck's axle configuration, arrival time, and gro...
Trucks have a significant impact on infrastructure, traffic congestion, energy consumption, pollutio...
AbstractThis paper presents a study carried out with extensive weigh-in-motion (WIM) data collected ...
https://doi.org/10.21949/15182811997PDFTech ReportFHWA/MT-97/8117-38117Weigh in motionAutomatic vehi...
Transportation agencies tasked with forecasting freight movements, creating and evaluating policy to...
Beyond enforcement of commercial truck weight regulations, weigh in motion (WIM) devices provide det...
Weighing-in-motion (WIM) of trucks is a relatively inexpensive technique for measuring truck axle lo...
US Transportation Collection1998PDFTech ReportColucci, BenjaminRamirez, NazarioSanchez, Javier VegaU...
To assure a smooth transition from the existing pavement design methods to the new mechanistic-empir...
28114281PDFTech ReportFHWA/VA-92-R17VirginiaVirginia Transportation Research CouncilCottrell, Benjam...
4. Sponsoring Agency Code This document reports on the development of smoothness criteria for weigh-...
This manual provides information and recommended procedures to be utilized by an agency’s Weigh-in-M...
This paper presents a study carried out with extensive weigh-in-motion (WIM) data collected on the F...
The objectives of this study were to review and analyze current procedures in order to implement a p...
008196251999PDFResearch PaperTrucks by number of axlesVehicle characteristicsAutomatic vehicle class...
An algorithm for truck identification based on the truck's axle configuration, arrival time, and gro...
Trucks have a significant impact on infrastructure, traffic congestion, energy consumption, pollutio...
AbstractThis paper presents a study carried out with extensive weigh-in-motion (WIM) data collected ...
https://doi.org/10.21949/15182811997PDFTech ReportFHWA/MT-97/8117-38117Weigh in motionAutomatic vehi...
Transportation agencies tasked with forecasting freight movements, creating and evaluating policy to...
Beyond enforcement of commercial truck weight regulations, weigh in motion (WIM) devices provide det...
Weighing-in-motion (WIM) of trucks is a relatively inexpensive technique for measuring truck axle lo...
US Transportation Collection1998PDFTech ReportColucci, BenjaminRamirez, NazarioSanchez, Javier VegaU...
To assure a smooth transition from the existing pavement design methods to the new mechanistic-empir...
28114281PDFTech ReportFHWA/VA-92-R17VirginiaVirginia Transportation Research CouncilCottrell, Benjam...
4. Sponsoring Agency Code This document reports on the development of smoothness criteria for weigh-...
This manual provides information and recommended procedures to be utilized by an agency’s Weigh-in-M...