Compressive strength is the most significant metric to evaluate the mechanical properties of concrete. Machine learning (ML) methods have shown promising results for predicting compres-sive strength of concrete. However, at present, no in-depth studies have been devoted to the influence of dimensionality reduction on the performance of different ML models for this application. In this work, four representative ML models, i.e., Linear Regression (LR), Support Vector Regression (SVR), Extreme Gradient Boosting (XGBoost), and Artificial Neural Network (ANN), are trained and used to predict the compressive strength of concrete based on its mixture composition and cur-ing age. For each ML model, three kinds of features are used as input: the eig...
In the construction and cement manufacturing sectors, the development of artificial intelligence mod...
Several types of research currently use machine learning (ML) methods to estimate the mechanical cha...
Numerous tests are used to determine the performance of concrete, but compressive strength (CS) is u...
This paper presents machine learning (ML) models for high fidelity prediction of compressive strengt...
In this study, an efficient implementation of machine learning models to predict compressive and ten...
The current trend in modern research revolves around novel techniques that can predict the character...
Concrete is the most generally used structural material for construction these days. Traditionally, ...
A comparative analysis for the prediction of compressive strength of concrete at the ages of 28, 56,...
Recently, research has centered on developing new approaches, such as supervised machine learning te...
Despite previous efforts to relate concrete proportioning and strength, a robust knowledgebased mode...
Accurate prediction of the compressive strength of concrete is of great significance to construction...
Machine learning methods have been successfully applied to many engineering disciplines. Prediction ...
Currently, one of the topical areas of application of machine learning methods in the construction i...
The innovation of geopolymer concrete (GPC) plays a vital role not only in reducing the environmenta...
Focusing on sustainable development, the demand for alternative materials in concrete, especially fo...
In the construction and cement manufacturing sectors, the development of artificial intelligence mod...
Several types of research currently use machine learning (ML) methods to estimate the mechanical cha...
Numerous tests are used to determine the performance of concrete, but compressive strength (CS) is u...
This paper presents machine learning (ML) models for high fidelity prediction of compressive strengt...
In this study, an efficient implementation of machine learning models to predict compressive and ten...
The current trend in modern research revolves around novel techniques that can predict the character...
Concrete is the most generally used structural material for construction these days. Traditionally, ...
A comparative analysis for the prediction of compressive strength of concrete at the ages of 28, 56,...
Recently, research has centered on developing new approaches, such as supervised machine learning te...
Despite previous efforts to relate concrete proportioning and strength, a robust knowledgebased mode...
Accurate prediction of the compressive strength of concrete is of great significance to construction...
Machine learning methods have been successfully applied to many engineering disciplines. Prediction ...
Currently, one of the topical areas of application of machine learning methods in the construction i...
The innovation of geopolymer concrete (GPC) plays a vital role not only in reducing the environmenta...
Focusing on sustainable development, the demand for alternative materials in concrete, especially fo...
In the construction and cement manufacturing sectors, the development of artificial intelligence mod...
Several types of research currently use machine learning (ML) methods to estimate the mechanical cha...
Numerous tests are used to determine the performance of concrete, but compressive strength (CS) is u...