Abstract
The success of numerical analysis relies on several factors, with one crucial aspect being the accurate determination ofconstitutive model parameters. Extracting these parameters directly from in-situ tests has several advantages, such as costeffectiveness and minimal soil disturbance. However, obtaining soil parameters directly from in-situ tests is not feasible,
as empirical correlations are used to interpret them. An ongoing research project aims to create an automated parameter determination (APD) framework using a graph-based approach to determine constitutive model parameters from in-situ tests. The process involves using two spreadsheets as input: the first defines the parameters, while the second specifies
the correlations used to compute them. The system then generates connections between the parameters and computes values for each one. The paper discusses the validation of the correlations database used by the system, which includes over 100 correlations for deriving parameters for various soil types. The framework determines parameters based on cone
penetration tests (CPT), dilatometer tests (DMT), and in-situ shear wave velocity measurements. The system's output is compared to values interpreted from laboratory tests. To collect data for this validation, a web-based application "Datamap" was employed, which stores and categorizes geotechnical data. The validation process utilized data from the
Norwegian GeoTest Sites (NGTS), specifically the NGTS-silt project. The parameters were calculated based on CPT, DMT, and in-situ shear wave velocity measurements. Ongoing research aims to evaluate the accuracy of the derived parameters and expand the system's capabilities to include additional in-situ tests.
as empirical correlations are used to interpret them. An ongoing research project aims to create an automated parameter determination (APD) framework using a graph-based approach to determine constitutive model parameters from in-situ tests. The process involves using two spreadsheets as input: the first defines the parameters, while the second specifies
the correlations used to compute them. The system then generates connections between the parameters and computes values for each one. The paper discusses the validation of the correlations database used by the system, which includes over 100 correlations for deriving parameters for various soil types. The framework determines parameters based on cone
penetration tests (CPT), dilatometer tests (DMT), and in-situ shear wave velocity measurements. The system's output is compared to values interpreted from laboratory tests. To collect data for this validation, a web-based application "Datamap" was employed, which stores and categorizes geotechnical data. The validation process utilized data from the
Norwegian GeoTest Sites (NGTS), specifically the NGTS-silt project. The parameters were calculated based on CPT, DMT, and in-situ shear wave velocity measurements. Ongoing research aims to evaluate the accuracy of the derived parameters and expand the system's capabilities to include additional in-situ tests.
Originalsprache | englisch |
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Titel | Proceedings of the 7th International Conference on Geotechnical and Geophysical Site Characterization |
Erscheinungsort | Barcelona |
Herausgeber (Verlag) | Scipedia S.L. |
Seitenumfang | 8 |
DOIs | |
Publikationsstatus | Veröffentlicht - 6 Juni 2024 |
Veranstaltung | 7th International Conference on Geotechnical and Geophysical Site Characterization: ISC 2024 - Universitat Politècnica de Catalunya - BarcelonaTech (UPC), Barcelona, Spanien Dauer: 18 Juni 2024 → 21 Juni 2024 http://isc7.cimne.com |
Konferenz
Konferenz | 7th International Conference on Geotechnical and Geophysical Site Characterization |
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Kurztitel | ISC 2024 |
Land/Gebiet | Spanien |
Ort | Barcelona |
Zeitraum | 18/06/24 → 21/06/24 |
Internetadresse |