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AuthorSolorzano, German
AuthorPlevris, Vagelis
Available date2024-10-02T05:59:49Z
Publication Date2023
Publication NameAdvances in Civil Engineering
ResourceScopus
ISSN16878086
URIhttp://dx.doi.org/10.1155/2023/7953869
URIhttp://hdl.handle.net/10576/59653
AbstractReinforced concrete (RC) shear walls macroscopic models are simplified strategies able to simulate the complex nonlinear behavior of RC shear walls to some extent, but their efficacy and robustness are limited. In contrast, microscopic models are sophisticated finite element method (FEM) models that are far more accurate and reliable. However, their elevated computational cost turns them unfeasible for most practical applications. In this study, a data-driven surrogate model for analyzing RC shear walls is developed using deep neural networks (DNNs). The surrogate model is trained with thousands of FEM simulations to predict the characteristic curve obtained when a static nonlinear pushover analysis is performed. The surrogate model is extensively tested and found to exhibit a high degree of accuracy in its predictions while being extremely faster than the detailed FEM analysis. The complete framework that made this study possible is provided as an open-source project. The project is developed in Python and includes a parametric FEM model of an RC shear wall in OpenSeesPy, the training and validation of the DNN model in TensorFlow, and an application with an interactive graphical user interface to test the methodology and visualize the results.
Languageen
PublisherHindawi Limited
SubjectDeep neural networks
Machine learning
Artificial intelligence
Modeling
Simulation
Framework
Open-source
RC shear walls
Structural engineering
Civil engineering
TitleAn Open-Source Framework for Modeling RC Shear Walls Using Deep Neural Networks
TypeArticle
Volume Number2023
dc.accessType Open Access


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