Abstract
Supervised machine learning and its algorithm is an emerging trend for the prediction of mechanical properties of concrete. This study uses an ensemble random forest (RF) and gene expression programming (GEP) algorithm for the compressive strength prediction of high strength concrete. The parameters include cement content, coarse aggregate to fine aggregate ratio, water, and superplasticizer. Moreover, statistical analyses like MAE, RSE, and RRMSE are used to evaluate the performance of models. The RF ensemble model outbursts in performance as it uses a weak base learner decision tree and gives an adamant determination of coefficient R2 = 0.96 with fewer errors. The GEP algorithm depicts a good response in between actual values and prediction values with an empirical relation. An external statistical check is also applied on RF and GEP models to validate the variables with data points. Artificial neural networks (ANNs) and decision tree (DT) are also used on a given data sample and comparison is made with the aforementioned models. Permutation features using python are done on the variables to give an influential parameter. The machine learning algorithm reveals a strong correlation between targets and predicts with less statistical measures showing the accuracy of the entire model.
Highlights
High strength concrete (HSC) has its popularity spread wide and far for its superior performance.HSC has been deemed superior for its substantial high strength and durability [1,2,3,4]
As per the American Concrete Institute (ACI), “HSC is the one that possesses a specific requirement for its working which cannot be achieved by conventional concrete” [7]
This paper aimed at evaluating the performance of compressive strength of a high strength concrete (HSC) using ensemble random forest (RF) and gene expression programming (GEP)
Summary
High strength concrete (HSC) has its popularity spread wide and far for its superior performance.HSC has been deemed superior for its substantial high strength and durability [1,2,3,4]. High strength concrete (HSC) has its popularity spread wide and far for its superior performance. Its strength has been witnessed to be higher than that of conventional concrete, a quality that has drastically increased its use in the modern-day construction industry [5]. A new technology that results in homogenous and dense concrete, and bolsters the strength parameters, is the reason for the permeation in its use within the construction industry [5,6]. It has been commonly used in concrete-filled steel tubes, bridges, and columns.
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