In the construction and cement manufacturing sectors, the development of artificial intelligence models has received remarkable progress and attention. This paper investigates the capacity of hybrid models conducted for predicting the compressive strength (CS) of concrete where the cement was partially replaced with ground granulated blast-furnace slag (FS) and fly ash (FA) materials. Accurate estimation of CS can reduce the cost and laboratory tests. Since the traditional method of calculation CS is complicated and requires lots of effort, this article presents new predictive models called SVR-PSO and SVR-GA, that are a hybridization of support vector regression (SVR) with improved particle swarm algorithm (PSO) and genetic algorithm (GA)....
This study introduces an improved artificial intelligence (AI) approach called intelligence optimize...
Abstract Using support vector regression (SVR) analytics, a novel method for evaluating the high-per...
Cement replacement materials can not only benefit the workability of the concrete but can also impro...
In the construction and cement manufacturing sectors, the development of artificial intelligence mod...
The Ultra-High Performance Concrete (UHPC) as an efficient material in constructional projects needs...
Artificial intelligence and machine learning are employed in creating functions for the prediction o...
Geopolymer concrete (GPC) has been used as a partial replacement of Portland cement concrete (PCC) i...
The advancement of machine learning (ML) models has received remarkable attention by several science...
Geopolymer concrete (GPC) is applied successfully in the construction of civil engineering structure...
Replacing a specified quantity of cement with Class F fly ash contributes to sustainable development...
Fly ash-based geopolymer concrete is studied in this research work for its compressive strength, lif...
Green concrete has been widely used in recent years because its production compliments environmental...
The purpose of the research is to predict the compressive and flexural strengths of the concrete mix...
Recently, research has centered on developing new approaches, such as supervised machine learning te...
Concrete is a composite material formed by cement, water, and aggregate. Concrete is an important ma...
This study introduces an improved artificial intelligence (AI) approach called intelligence optimize...
Abstract Using support vector regression (SVR) analytics, a novel method for evaluating the high-per...
Cement replacement materials can not only benefit the workability of the concrete but can also impro...
In the construction and cement manufacturing sectors, the development of artificial intelligence mod...
The Ultra-High Performance Concrete (UHPC) as an efficient material in constructional projects needs...
Artificial intelligence and machine learning are employed in creating functions for the prediction o...
Geopolymer concrete (GPC) has been used as a partial replacement of Portland cement concrete (PCC) i...
The advancement of machine learning (ML) models has received remarkable attention by several science...
Geopolymer concrete (GPC) is applied successfully in the construction of civil engineering structure...
Replacing a specified quantity of cement with Class F fly ash contributes to sustainable development...
Fly ash-based geopolymer concrete is studied in this research work for its compressive strength, lif...
Green concrete has been widely used in recent years because its production compliments environmental...
The purpose of the research is to predict the compressive and flexural strengths of the concrete mix...
Recently, research has centered on developing new approaches, such as supervised machine learning te...
Concrete is a composite material formed by cement, water, and aggregate. Concrete is an important ma...
This study introduces an improved artificial intelligence (AI) approach called intelligence optimize...
Abstract Using support vector regression (SVR) analytics, a novel method for evaluating the high-per...
Cement replacement materials can not only benefit the workability of the concrete but can also impro...