Abstract
The major criteria that control pile foundation design is pile bearing capacity (Pu). The load bearing capacity of piles is affected by the various characteristics of soils and the involvement of multiple parameters related to both soil and foundation. In this study, a new model for predicting bearing capacity is developed using an extreme gradient boosting (XGBoost) algorithm. A total of 200 driven piles static load test-based case histories were used to construct and verify the model. The developed XGBoost model results were compared to a number of commonly used algorithms—Adaptive Boosting (AdaBoost), Random Forest (RF), Decision Tree (DT) and Support Vector Machine (SVM) using various performance measure metrics such as coefficient of determination, mean absolute error, root mean square error, mean absolute relative error, Nash–Sutcliffe model efficiency coefficient and relative strength ratio. Furthermore, sensitivity analysis was performed to determine the effect of input parameters on Pu. The results show that all of the developed models were capable of making accurate predictions however the XGBoost algorithm surpasses others, followed by AdaBoost, RF, DT, and SVM. The sensitivity analysis result shows that the SPT blow count along the pile shaft has the greatest effect on the Pu.
Highlights
A pile is a long, structural element used to allow structural loads to be transferred to the soils at a depth below the structure’s base
The load transmission mechanism is based on pile toe and pile shaft resistances [1]. Deep foundations are another word for pile foundations that are often used in practice
Various ways to determine pile carrying capacity have been used during the years of research and development [3,4,5,6,7,8,9,10,11,12,13], including dynamic analysis, high strain dynamic test, pile load test, cone penetration test (CPT) and in situ tests
Summary
A pile is a long, structural element used to allow structural loads to be transferred to the soils at a depth below the structure’s base. The load transmission mechanism is based on pile toe and pile shaft resistances [1]. Deep foundations are another word for pile foundations that are often used in practice. Various ways to determine pile carrying capacity have been used during the years of research and development [3,4,5,6,7,8,9,10,11,12,13], including dynamic analysis, high strain dynamic test, pile load test, cone penetration test (CPT) and in situ tests. The pile load test is considered as one of the best methods to determine the pile bearing capacity, this strategy is costly for small-scale projects and time-consuming [10], it is critical to find a more practical approach
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