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Machine learning based pavement performance prediction for data-driven decision of asphalt pavement overlay

Jingnan Zhao, Hao Wang

2023Structure and Infrastructure Engineering22 citationsDOI

Abstract

This study is to develop pavement performance models using support vector regression and ensemble machine learning methods for selection of pavement overlay strategy. Predictive models of pavement distresses were developed based on the Long-Term Pavement Performance (LTPP) data and compared using support vector machine, random forest regression, gradient boosting machine, and stacking ensemble. Gradient boosting machine was found to be a more effective method to establish predictive models of rut depth and International Roughness Index. Stacking ensemble and random forest regression would provide reliable prediction of alligator cracking. The models developed based on the clusters of climate and traffic parameters were found to be more effective. Based on the developed performance models, the effects of asphalt overlays on pavement distresses and service lives were investigated. When the overlay with recycled asphalt concrete (AC) was applied, the propagation of alligator cracking was faster compared to the overlay with virgin asphalt mixture. Milling before overlay tended to slow the increase of IRI but fasten the development of rut depth.

Topics & Concepts

OverlayRandom forestSupport vector machineAsphaltRutPredictive modellingEnsemble learningComputer scienceMachine learningEngineeringArtificial intelligenceMaterials scienceProgramming languageComposite materialAsphalt Pavement Performance EvaluationInfrastructure Maintenance and MonitoringGeotechnical Engineering and Underground Structures
Machine learning based pavement performance prediction for data-driven decision of asphalt pavement overlay | Litcius