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Hybrid-optimized ensemble learning models and GUI for predicting compressive strength of fly ash and slag concrete

Suleiman Abdulrahman, Abba Bashir, AIB Farouk, Sadi Ibrahim Haruna, Abdulrahman Haruna, Sani I. Abba

2025Materials Today Communications8 citationsDOI

Topics & Concepts

Fly ashCompressive strengthBoosting (machine learning)Ensemble learningEnsemble forecastingGradient boostingBayesian optimizationMaterials scienceSuperplasticizerMachine learningComputer scienceStatistical ensembleMonte Carlo methodBayesian inferenceAcrylonitrile butadiene styreneNonlinear systemCategorical variableResponse surface methodologyBayesian probabilityNaive Bayes classifierSupport vector machinePortland cementNonlinear regressionCementArtificial intelligenceSlag (welding)Probabilistic logicCompressed sensingNonlinear programmingUncertainty quantificationLeverage (statistics)Predictive modellingSensitivity (control systems)Structural engineeringInnovative concrete reinforcement materialsConcrete and Cement Materials ResearchInfrastructure Maintenance and Monitoring
Hybrid-optimized ensemble learning models and GUI for predicting compressive strength of fly ash and slag concrete | Litcius