A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns
The accurate determination of the subgrade reaction modulus (Ks) of soil is an important factor for geotechnical engineers. This study estimated the Ks of soft soil improved with floating deep cement mixing (DCM) columns. A novel prediction model was developed that emphasizes the accuracy of identif...
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2022
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my.utm.1042412024-01-22T07:40:50Z http://eprints.utm.my/104241/ A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns Ali Dehghanbanadaki, Ali Dehghanbanadaki A. Rashid, Ahmad Safuan Ahmad, Kamarudin Mohd. Yunus, Nor Zurairahetty Mat Said, Khairun Nissa TA Engineering (General). Civil engineering (General) The accurate determination of the subgrade reaction modulus (Ks) of soil is an important factor for geotechnical engineers. This study estimated the Ks of soft soil improved with floating deep cement mixing (DCM) columns. A novel prediction model was developed that emphasizes the accuracy of identifying the most significant parameters of Ks. Several multi-layer perceptron (MLP) models that were trained using the Levenberg Marquardt (LM) backpropagation method were developed to estimate Ks. The models were trained using a reliable database containing the results of 36 physical modelling tests. The input parameters were the undrained shear strength of the DCM columns, undrained shear strength of soft soil, area improvement ratio and length-to-diameter ratio of the DCM columns. Grey wolf optimization (GWO) was coupled with the MLPs to improve the performance indices of the MLPs. Sensitivity tests were carried out to determine the importance of the input parameters for prediction of Ks. The results showed that both the MLP-LM and MLP-GWO methods showed high ability to predict Ks. However, it was shown that MLP-GWO (R = 0.9917, MSE = 0.28 (MN/m2/m)) performed better than MLP-LM (R =0.9126, MSE =6.1916 (MN/m2/m)). This proves the greater reliability of the proposed hybrid model of MLP-GWO in approximating the subgrade reaction modulus of soft soil improved with floating DCM columns. The results revealed that the undrained shear strength of the soil was the most effective factor for estimation of Ks. Techno-Press 2022 Article PeerReviewed Ali Dehghanbanadaki, Ali Dehghanbanadaki and A. Rashid, Ahmad Safuan and Ahmad, Kamarudin and Mohd. Yunus, Nor Zurairahetty and Mat Said, Khairun Nissa (2022) A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns. Geomechanics and Engineering, 28 (4). pp. 385-396. ISSN 2005-307X http://dx.doi.org/10.12989/gae.2022.28.4.385 DOI : 10.12989/gae.2022.28.4.385 |
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TA Engineering (General). Civil engineering (General) Ali Dehghanbanadaki, Ali Dehghanbanadaki A. Rashid, Ahmad Safuan Ahmad, Kamarudin Mohd. Yunus, Nor Zurairahetty Mat Said, Khairun Nissa A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns |
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The accurate determination of the subgrade reaction modulus (Ks) of soil is an important factor for geotechnical engineers. This study estimated the Ks of soft soil improved with floating deep cement mixing (DCM) columns. A novel prediction model was developed that emphasizes the accuracy of identifying the most significant parameters of Ks. Several multi-layer perceptron (MLP) models that were trained using the Levenberg Marquardt (LM) backpropagation method were developed to estimate Ks. The models were trained using a reliable database containing the results of 36 physical modelling tests. The input parameters were the undrained shear strength of the DCM columns, undrained shear strength of soft soil, area improvement ratio and length-to-diameter ratio of the DCM columns. Grey wolf optimization (GWO) was coupled with the MLPs to improve the performance indices of the MLPs. Sensitivity tests were carried out to determine the importance of the input parameters for prediction of Ks. The results showed that both the MLP-LM and MLP-GWO methods showed high ability to predict Ks. However, it was shown that MLP-GWO (R = 0.9917, MSE = 0.28 (MN/m2/m)) performed better than MLP-LM (R =0.9126, MSE =6.1916 (MN/m2/m)). This proves the greater reliability of the proposed hybrid model of MLP-GWO in approximating the subgrade reaction modulus of soft soil improved with floating DCM columns. The results revealed that the undrained shear strength of the soil was the most effective factor for estimation of Ks. |
| format |
Article |
| author |
Ali Dehghanbanadaki, Ali Dehghanbanadaki A. Rashid, Ahmad Safuan Ahmad, Kamarudin Mohd. Yunus, Nor Zurairahetty Mat Said, Khairun Nissa |
| author_facet |
Ali Dehghanbanadaki, Ali Dehghanbanadaki A. Rashid, Ahmad Safuan Ahmad, Kamarudin Mohd. Yunus, Nor Zurairahetty Mat Said, Khairun Nissa |
| author_sort |
Ali Dehghanbanadaki, Ali Dehghanbanadaki |
| title |
A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns |
| title_short |
A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns |
| title_full |
A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns |
| title_fullStr |
A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns |
| title_full_unstemmed |
A computational estimation model for the subgrade reaction modulus of soil improved with DCM columns |
| title_sort |
computational estimation model for the subgrade reaction modulus of soil improved with dcm columns |
| publisher |
Techno-Press |
| publishDate |
2022 |
| url |
http://eprints.utm.my/104241/ http://dx.doi.org/10.12989/gae.2022.28.4.385 |
| _version_ |
1789424398849015808 |