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APD: An automated parameter determination system based on in-situ tests

Islam Marzouk, Ronald Brinkgreve, Arny Lengkeek, Franz Tschuchnigg

2024Computers and Geotechnics13 citationsDOIOpen Access PDF

Abstract

In-situ testing has numerous applications in geotechnical engineering. The interpretation of in-situ test results includes soil stratification and determination of soil parameters. This paper presents an automated parameter determination framework that aims to determine constitutive model parameters based on in-situ tests. The ongoing research project relies on a graph-based approach for determining the parameters. The framework has two main attributes: transparency and adaptability. Transparency is achieved by illustrating how a certain parameter was computed. Adaptability is ensured by allowing users to incorporate their expertise into the framework. The system currently determines parameters based on three main workflows that utilize the results of cone penetration tests, dilatometer tests, and shear wave velocity measurements. This study employs the three main workflows to determine soil parameters for one of the Norwegian GeoTest Sites. Additionally, the connection between the parameter determination system and finite element analysis is discussed, where the parameters for the Modified Cam Clay model are evaluated. The framework is valuable in the early stages of projects, providing detailed soil information when soil data is limited. Ongoing research aims to assess the accuracy of the derived soil and constitutive model parameters and to expand the system’s capabilities by including additional in-situ tests.

Topics & Concepts

In situComputer scienceReliability engineeringEnvironmental scienceRemote sensingEngineeringGeologyPhysicsMeteorologyGeotechnical Engineering and AnalysisGeotechnical Engineering and Underground StructuresGeotechnical Engineering and Soil Mechanics
APD: An automated parameter determination system based on in-situ tests | Litcius