AbstractTrucks exceeding the legal mass limits increase the risk of traffic accidents and damage to the infrastructure. They also result in unfair competition between transport modes and companies. It is therefore important to ensure truck compliance to weight regulation. New technologies are being developed for more efficient overload screening and enforcement. Weigh-in-Motion (WIM) technologies allow trucks to be weighed in the traffic flow, without any disruption to operations. Much progress has been made recently to improve and implement WIM systems, which can contribute to safer and more efficient operation of trucks
692374150Final report; 6/14/2000-12/31/2006.PDFTech ReportFHWA-NJ-2009-001Weigh in motion scalesWeig...
Vehicle overloading has been identified as one of the major contributors to road pavement damage in ...
Overweight trucks traveling illegally on the California highway network cause a significant and disp...
AbstractTrucks exceeding the legal mass limits increase the risk of traffic accidents and damage to ...
Weigh-in-motion (WIM) systems have provided an effective means of data collection for pavement resea...
University Transportation Centers Program2020PDFTech ReportNassif, HaniOzbay, KaanNa, ChaekukLou, Pe...
Traffic accidents involving heavy trucks have social and economic effects on society. However, littl...
Traffic accidents involving heavy trucks have social and economic effects on society. However, littl...
In this paper we evaluate the fields of application and present the main benefits of a Weigh-In-Moti...
To increase operational efficiency, reduce congestion, and meet federal requirements concerning truc...
2009Final reportKearney, TomPDFTech ReportFHWA-HOP-09-050DTFH61-06-D-00004Size and weight regulation...
AbstractVehicle overloading has been identified as one of the major contributors to road pavement da...
In the past decades, states have utilized weigh-in-motion (WIM) technology to reduce delay and incre...
PDFTech ReportOTCREOS10.1-35-FDTRT06-G-0016Portable equipmentWeigh in motionWeigh stationsCommercial...
Bridge weigh-in-motion (B-WIM) is a method by which the axle weights of a vehicle travelling at full...
692374150Final report; 6/14/2000-12/31/2006.PDFTech ReportFHWA-NJ-2009-001Weigh in motion scalesWeig...
Vehicle overloading has been identified as one of the major contributors to road pavement damage in ...
Overweight trucks traveling illegally on the California highway network cause a significant and disp...
AbstractTrucks exceeding the legal mass limits increase the risk of traffic accidents and damage to ...
Weigh-in-motion (WIM) systems have provided an effective means of data collection for pavement resea...
University Transportation Centers Program2020PDFTech ReportNassif, HaniOzbay, KaanNa, ChaekukLou, Pe...
Traffic accidents involving heavy trucks have social and economic effects on society. However, littl...
Traffic accidents involving heavy trucks have social and economic effects on society. However, littl...
In this paper we evaluate the fields of application and present the main benefits of a Weigh-In-Moti...
To increase operational efficiency, reduce congestion, and meet federal requirements concerning truc...
2009Final reportKearney, TomPDFTech ReportFHWA-HOP-09-050DTFH61-06-D-00004Size and weight regulation...
AbstractVehicle overloading has been identified as one of the major contributors to road pavement da...
In the past decades, states have utilized weigh-in-motion (WIM) technology to reduce delay and incre...
PDFTech ReportOTCREOS10.1-35-FDTRT06-G-0016Portable equipmentWeigh in motionWeigh stationsCommercial...
Bridge weigh-in-motion (B-WIM) is a method by which the axle weights of a vehicle travelling at full...
692374150Final report; 6/14/2000-12/31/2006.PDFTech ReportFHWA-NJ-2009-001Weigh in motion scalesWeig...
Vehicle overloading has been identified as one of the major contributors to road pavement damage in ...
Overweight trucks traveling illegally on the California highway network cause a significant and disp...