1. Traffic volume and load data measurement using a portable weigh in motion system: A case study
- Author
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Lubinda F. Walubita, Abu N.M. Faruk, Wenting Liu, Dar-Hao Chen, Sang Ick Lee, and Bhaven Naik
- Subjects
Load spectra ,Truck ,Engineering ,Traffic data ,lcsh:TE1-450 ,Portable WIM ,02 engineering and technology ,Civil engineering ,Truck overweight ,Unit (housing) ,Transport engineering ,0203 mechanical engineering ,0502 economics and business ,Performance prediction ,lcsh:Highway engineering. Roads and pavements ,Civil and Structural Engineering ,050210 logistics & transportation ,Data collection ,business.industry ,05 social sciences ,Texas overweight corridor ,Volume (computing) ,Weigh-in-motion (WIM) ,Axle ,020303 mechanical engineering & transports ,Mechanics of Materials ,Software deployment ,Weigh in motion ,business - Abstract
Traditionally, traffic loading characteristics are collected for pavement design and performance prediction purposes using permanent roadside weigh-in-motion (WIM) stations. However, high installation and maintenance costs associated with these permanent WIM stations dictate that their deployment be mostly limited to major highways, such as the interstate network. Quite often however, pavement damage on high volume rural highways with heavy truck proportions is more severe than anticipated, and there is no effective way of quantifying the traffic loading on these highways. Therefore, this study was conducted to evaluate the potential application of portable WIM systems as a means for bringing the WIM technology to these high volume rural highways. A portable WIM unit was deployed in the Texas overweight corridor in Hidalgo County (Pharr District) near the USA-Mexico border on highway FM 1016 for collecting traffic data for a minimum of three weeks in each direction. The collected traffic data were analyzed to generate traffic parameters such as volume, load spectra, and overloading information both in terms of the gross vehicle weight (GVW) and axle weight. The computed traffic parameters were successful in partially explaining some of the existing pavement conditions on this highway. Overall, the study findings indicated that the portable WIM unit can be used as a convenient and cost-effective means for collecting reliable traffic information for design, analysis, and monitoring purposes. However, proper in-situ calibration of the portable WIM unit at each site is imperative prior to any real-time traffic data collection. Keywords: Traffic data, Load spectra, Truck overweight, Weigh-in-motion (WIM), Portable WIM, Texas overweight corridor
- Published
- 2016
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