In order to effectively measure the dynamic axle load of vehicles in motion, the dynamic weighing method of vehicles based on piezoelectric sensor was studied. Firstly, the influencing factors of the measurement accuracy in the dynamic weighing process were analyzed systematically, and the impacts of road irregularities and dynamic weighing system vibration on measurement error were discussed. On the basis of the analysis, the arithmetic mean filter method was used in the software algorithm to filter out the periodic interference added in the sensor signal, the most suitable n value was selected to get the better filtering result by simulation comparison. Then, the dynamic axle load calculation model of high speed vehicles was studied deepl...
Monitoring on vehicle is significant to management and maintenance of highway. A method based on cem...
Dynamic vehicle weight measuring, weigh-in-motion (WIM), is an important metric that can reflect sig...
US Transportation Collectionhttps://doi.org/10.5281/zenodo.49253982020PDFTech ReportPapagiannakis, A...
In order to effectively measure the dynamic axle load of vehicles in motion, the dynamic weighing me...
Abstract: Piezoelectric force sensors are used in more and more industries and areas for the monitor...
In many countries, work is being conducted to introduce Weigh-In-Motion (WIM) systems intended for c...
An analysis of the dynamic axle load of an automotive vehicle (AV) when it is driven on a mobile mea...
In this paper, it is modeled by using ADAMS to portable axle load meter of dynamic weighing system, ...
This article describes calibration method of automatic weighing instruments for measuring vehicles i...
In the present paper, a new analog filter is proposed to check with high accuracy the axle load and ...
Road transport is one of the main energy-consuming sectors. Therefore, the concept discussed in this...
Systems which permit the weighing of vehicles in motion are called dynamic Weigh-in-Motion scales. I...
Weigh-in-Motion systems are tools to prevent road pavements from the adverse phenomena of vehicle ov...
With the development of the Highway Transportation and Business Trade, vehicle weigh-in-motion (WIM)...
Weigh-in-motion (WIM) systems have been developed to perform continuous and automatic traffic monito...
Monitoring on vehicle is significant to management and maintenance of highway. A method based on cem...
Dynamic vehicle weight measuring, weigh-in-motion (WIM), is an important metric that can reflect sig...
US Transportation Collectionhttps://doi.org/10.5281/zenodo.49253982020PDFTech ReportPapagiannakis, A...
In order to effectively measure the dynamic axle load of vehicles in motion, the dynamic weighing me...
Abstract: Piezoelectric force sensors are used in more and more industries and areas for the monitor...
In many countries, work is being conducted to introduce Weigh-In-Motion (WIM) systems intended for c...
An analysis of the dynamic axle load of an automotive vehicle (AV) when it is driven on a mobile mea...
In this paper, it is modeled by using ADAMS to portable axle load meter of dynamic weighing system, ...
This article describes calibration method of automatic weighing instruments for measuring vehicles i...
In the present paper, a new analog filter is proposed to check with high accuracy the axle load and ...
Road transport is one of the main energy-consuming sectors. Therefore, the concept discussed in this...
Systems which permit the weighing of vehicles in motion are called dynamic Weigh-in-Motion scales. I...
Weigh-in-Motion systems are tools to prevent road pavements from the adverse phenomena of vehicle ov...
With the development of the Highway Transportation and Business Trade, vehicle weigh-in-motion (WIM)...
Weigh-in-motion (WIM) systems have been developed to perform continuous and automatic traffic monito...
Monitoring on vehicle is significant to management and maintenance of highway. A method based on cem...
Dynamic vehicle weight measuring, weigh-in-motion (WIM), is an important metric that can reflect sig...
US Transportation Collectionhttps://doi.org/10.5281/zenodo.49253982020PDFTech ReportPapagiannakis, A...