Fuzzy Logic, Neural Network, and Adaptive Neuro-Fuzzy Inference System in Delegation of Standard Concrete Beam Calculations

Baghdadi, Abtin; Babovic, Neira; Kloft, Harald

doi:10.3390/buildings14010015

Buildings

2023

DOI: 10.3390/buildings14010015

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Fuzzy Logic, Neural Network, and Adaptive Neuro-Fuzzy Inference System in Delegation of Standard Concrete Beam Calculations

Abtin Baghdadi,

Neira Babovic,

Harald Kloft

Abstract: Machine learning (ML) has been proven effective in various scientific and industrial domains. Nevertheless, its practical application in the construction industry requires further investigation. Leveraging ML capabilities conserves human resources, reduces errors, and speeds up computation and interpretation tasks. The efficacy of ML algorithms depends on factors like ability, result accuracy, analysis cost, and sensitivity to parameter count and available data volume. This study explores the potential of usin… Show more

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Cited by 2 publications

References 21 publications

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Proposal and parametric investigations of square steel tubes as post-tensioned connectors for linear-shaped precast concrete elements

Baghdadi,

Ledderose,

Kloft

2024

Structures

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Proposal and parametric investigations of square steel tubes as post-tensioned connectors for linear-shaped precast concrete elements

Baghdadi,

Ledderose,

Kloft

2024

Structures

View full text Add to dashboard Cite

Soft Computing for Comprehensive Concrete Strength Prediction – A Comparative Study

Mugunthan

2023

JSCP

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The evolution of concrete strength prediction methodologies has transitioned from empirical formulas based on experimental data to contemporary soft computing approaches. Initially, the concrete mix design was reliant on simple relationships between concrete mix proportions and compressive strength; later, the early techniques evolved to include statistical models incorporating material properties, curing conditions, and environmental variables. The advent of computational tools and artificial intelligence marked a paradigm shift, with accurate concrete strength prediction crucial for influencing structural integrity, safety, and cost-effectiveness in construction. The article explores empirical and analytical concrete strength prediction models before reviewing the application of soft computing approaches such as fuzzy logic, genetic algorithms, and neural networks. The integration of these models and hybrid approaches is discussed in this research study by highlighting their effectiveness in handling complex relationships within concrete mix parameters. A comparative analysis of various soft computing methods applied to structural and non-structural elements is carried out in this study to demonstrate their diverse applications and advantages in optimizing concrete mix designs, enhancing structural performance, and contributing to cost and time efficiency in construction processes.

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Fuzzy Logic, Neural Network, and Adaptive Neuro-Fuzzy Inference System in Delegation of Standard Concrete Beam Calculations

Cited by 2 publications

References 21 publications

Proposal and parametric investigations of square steel tubes as post-tensioned connectors for linear-shaped precast concrete elements

Proposal and parametric investigations of square steel tubes as post-tensioned connectors for linear-shaped precast concrete elements

Soft Computing for Comprehensive Concrete Strength Prediction – A Comparative Study

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