System reliability-based design optimization of flexible pavements using adaptive meta-modelling techniques

• Published in: Construction & building materials Vol. 367; p. 130351
• Main Authors: Dilip, Deepthi Mary, Sivakumar Babu, G.L.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 27.02.2023
• Subjects: Epistemic Uncertainty; Flexible pavements; Polynomial-Chaos based Kriging; Reliability-based design optimization; Response Surface Model; System Reliability; Response Surface Model; Flexible pavements; Reliability-based design optimization; Polynomial-Chaos based Kriging; System Reliability; Epistemic Uncertainty
• ISSN: 0950-0618; 1879-0526
• DOI: 10.1016/j.conbuildmat.2023.130351

•Methodology to integrate the economic analysis of various flexible pavement design alternatives with the Mechanistic-Empirical pavement design procedure.•Given the subgrade strength at a pavement site, the optimum pavement structure (layer thicknesses and moduli) can be designed to meet the traffic demand at target levels of reliability.•The need for adaptive meta-models in the reliability-based design of pavement structures is highlighted.•A System Reliability Based Design Optimization (RBDO) approach for the design of cost-effective flexible pavements in the presence of uncertainties is proposed. Recognizing the need for sustainable and long-lasting structures, reliability-based designs have been gaining acceptance in the pavement engineering community. The Reliability Based Design Optimization (RBDO) is formulated to design cost-effective flexible pavements in the presence of uncertainties. Two meta-modelling approaches are considered in this study, the second-order adaptive Response Surface Model (RSM) and the adaptive Polynomial-Chaos based Kriging (PC-Kriging) meta-model. The study highlights the need for adaptive meta-modelling techniques in the reliability-based design of pavement structures, through the quantification of the epistemic uncertainty. For the numerical examples considered in this study, the model uncertainty was found to be around 1% for three-layer sections and below 2.5% for four-layer pavements. To address the correlation between the pavement failure modes, a System Reliability Based Design Optimization (SRBDO) approach is proposed in this paper. The SRBDO methodology is further adapted to design the optimum combination of pavement layer thicknesses and moduli, to meet the target levels of reliability, given the expected traffic demand and subgrade strength at a pavement site. Thus, the SRBDO formulation using adaptive meta-models, presented in this study, efficiently integrates the economic analysis of various pavement design alternatives with the Mechanistic-Empirical procedure in a system reliability framework.