2020
DOI: 10.3390/s20030659
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A Weigh-in-Motion Characterization Algorithm for Smart Pavements Based on Conductive Cementitious Materials

Abstract: Smart materials are promising technologies for reducing the instrumentation cost required to continuously monitor road infrastructures, by transforming roadways into multifunctional elements capable of self-sensing. This study investigates a novel algorithm empowering smart pavements with weigh-in-motion (WIM) characterization capabilities. The application domain of interest is a cementitious-based smart pavement installed on a bridge over separate sections. Each section transduces axial strain provoked by the… Show more

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Cited by 31 publications
(26 citation statements)
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“…Values of sensitivity, or gauge factors, are consistent with literature [ 50 ] and increase with increasing graphite-to-cement ratio up to 20%, reaching a maximum at 20% if results from the 40% are ignored due to the unreliability of the samples. This is in agreement with the analytical results.…”
Section: Sensing Investigation Of Graphite–cement Compositessupporting
confidence: 86%
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“…Values of sensitivity, or gauge factors, are consistent with literature [ 50 ] and increase with increasing graphite-to-cement ratio up to 20%, reaching a maximum at 20% if results from the 40% are ignored due to the unreliability of the samples. This is in agreement with the analytical results.…”
Section: Sensing Investigation Of Graphite–cement Compositessupporting
confidence: 86%
“…In a first study on self-sensing smart materials, the authors have numerically studied an algorithm enabling WIM for estimating the axle number and weights along with the vehicle speed [50]. Here, research is extended to studying the electromechanical properties of scalable, graphite-based smart materials to empower the formulation of more accurate models and field deployments of the WIM technology.…”
Section: Introductionmentioning
confidence: 99%
“…An advantage of self-sensing structural materials over traditional techniques is in the enhanced mechanical bonding [ 18 , 19 ] and durability [ 20 , 21 ]. They are also known to yield better sensing performance resulting from the significantly enhanced piezoresistive effect.…”
Section: Introductionmentioning
confidence: 99%
“…The overall correct classification rate was above 80% with only two of the 54 body classes possessing the correct classification rate below 60%. Birgin [ 4 ] combined a piezoresistive material with a cement concrete to develop a novel material. This material paved on the bridge was utilized as the sensors in the WIM system to determine the vehicle classification and the vehicle weight [ 4 ].…”
Section: Introductionmentioning
confidence: 99%