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A platform for research: civil engineering, architecture and urbanism
Prediction of Residual Strength After Liquefaction Using Artificial Intelligence Model
This research aims to develop a hybrid artificial intelligence model to predict the residual strength required to resist soil movement after post-liquefaction. The model is trained using available case history and experimental data, with a focus on soil parameters such as standard penetration test, cone penetration test resistance, percentage fine, void ratio, relative density, and pore water pressure. Detailed statistical analysis of the model is conducted using previous case histories to assess its accuracy. The practical implications of this research lie in the challenge of having to extrapolate beyond available data for flow failures and lateral spreading after liquefaction. By providing a reliable prediction model for residual strength, this paper offers a valuable tool for geotechnical engineers and practitioners to assess the stability of soil and mitigate risks associated with soil movement after post-liquefaction.
Prediction of Residual Strength After Liquefaction Using Artificial Intelligence Model
This research aims to develop a hybrid artificial intelligence model to predict the residual strength required to resist soil movement after post-liquefaction. The model is trained using available case history and experimental data, with a focus on soil parameters such as standard penetration test, cone penetration test resistance, percentage fine, void ratio, relative density, and pore water pressure. Detailed statistical analysis of the model is conducted using previous case histories to assess its accuracy. The practical implications of this research lie in the challenge of having to extrapolate beyond available data for flow failures and lateral spreading after liquefaction. By providing a reliable prediction model for residual strength, this paper offers a valuable tool for geotechnical engineers and practitioners to assess the stability of soil and mitigate risks associated with soil movement after post-liquefaction.
Prediction of Residual Strength After Liquefaction Using Artificial Intelligence Model
Lecture Notes in Civil Engineering
Sreekeshava, K. S. (editor) / Kolathayar, Sreevalsa (editor) / Vinod Chandra Menon, N. (editor) / Singh, Shubhendu Vikram (author) / Ghani, Sufyan (author)
International Conference on Interdisciplinary Approaches in Civil Engineering for Sustainable Development ; 2023
2024-03-26
9 pages
Article/Chapter (Book)
Electronic Resource
English
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