Using GA-ANFIS machine learning model for forecasting the load bearing capacity of driven piles

Dam Duc Nguyen,; Hai Phu Nguyen,; Dung Quang Vu,; Indra Prakash,; Binh Thai Pham,

doi:10.58845/jstt.utt.2023.en.3.2.26-33

JSTT

2023

DOI: 10.58845/jstt.utt.2023.en.3.2.26-33

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Using GA-ANFIS machine learning model for forecasting the load bearing capacity of driven piles

Dam Duc Nguyen,

Hai Phu Nguyen,

Dung Quang Vu

et al.

Abstract: This paper is aimed to apply hybrid machine learning model namely GA-ANFIS, which is a combination of Adaptive Neuro-Fuzzy Inference System (ANFIS) and Genetic Algorithm (GA), for the prediction of total bearing capability of driven piles. A database of 95 Pile Driving Analyzer (PDA) tests carried out at the win power project in Hoa Binh province, Vietnam was used to develop hybrid model. The database was split into 70:30 ratio for training (70%) and validating (30%) model. Accuracy of the model was evaluated … Show more

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Cited by 3 publications

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This study compares the performance of various machine learning models for predicting landslide susceptibility using a geospatial dataset from the Lai Chau province, Vietnam. The dataset consisted of 850 landslide locations and ten influencing factors. Eight models, including Forest by Penalizing Attributes (FPA), Bagging-based FPA (BFPA), Artificial Neural Network (ANN), Logistic Regression (LR), Support Vector Machine (SVM), Multilayer Perceptron (MLP), Bayesian Network (BN), and Naïve Bayes (NB), were evaluated based on different evaluation metrics. The results revealed distinct variations in the performance of the models across the evaluation metrics. Based on the overall rankings, the ensemble BFPA model with sensitivity=90%, specificity= 95.98%, accuracy=92.86%, Kappa=0.857, and area under the curve=0.98 demonstrated the highest capability in predicting landslide susceptibility. It was followed by BN, FPA, MLP, ANN, SVM, LR, and NB. These findings suggest that the BFPA model outperformed other models in terms of its ability to accurately identify potential landslide-prone areas in the study region. This study provides valuable insights into the comparative analysis of machine learning models for landslide susceptibility prediction. Furthermore, it supports the effectiveness of ensemble models for landslide susceptibility prediction, which can inform decision-makers, land-use planners, and disaster management agencies in making informed decisions regarding potential landslide hazards and implementing effective risk mitigation strategies in Vietnam. Continued research in this area will enhance our understanding of machine learning techniques and their application in mitigating the impact of landslides on society and the environment.

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Using GA-ANFIS machine learning model for forecasting the load bearing capacity of driven piles

Cited by 3 publications

References 21 publications

Predicting landslide and debris flow susceptibility using Logitboost alternating decision trees and ensemble techniques

Predicting landslide and debris flow susceptibility using Logitboost alternating decision trees and ensemble techniques

Comparative analysis of machine learning and deep learning methods for coastal erosion susceptibility mapping

Spatial Prediction of Landslide Susceptibility using Various Machine Learning Based Binary Classification Methods

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