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    Artificial neural network-based optimized design of reinforced concrete structures

    New search for: Hong, Won-Kee
    Table of contents

    "Artificial Neural Network-based Optimized Design of Reinforced Concrete Structures introduces AI-based Lagrange optimization techniques that can enable more rational engineering decisions for concrete structures, while conforming to codes of practice. It shows how objective functions including cost, CO2 emissions, and structural weight of concrete structures are optimized either separately or simultaneously while satisfying constraining design conditions using an ANN-based Hong-Lagrange method. Any design target can be adopted as an objective function. Many optimized design examples are verified by both conventional structural calculations and big datasets. The book suits undergraduate and graduate students who have a good understanding of college-level calculus and will be especially beneficial to engineers and contractors who seek to optimize concrete structures"

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    Artificial neural network-based optimized design of reinforced concrete structures

    New search for: Hong, Won-Kee
    Table of contents

    "Artificial Neural Network-based Optimized Design of Reinforced Concrete Structures introduces AI-based Lagrange optimization techniques that can enable more rational engineering decisions for concrete structures, while conforming to codes of practice. It shows how objective functions including cost, CO2 emissions, and structural weight of concrete structures are optimized either separately or simultaneously while satisfying constraining design conditions using an ANN-based Hong-Lagrange method. Any design target can be adopted as an objective function. Many optimized design examples are verified by both conventional structural calculations and big datasets. The book suits undergraduate and graduate students who have a good understanding of college-level calculus and will be especially beneficial to engineers and contractors who seek to optimize concrete structures"

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Artificial neural network-based optimized design of reinforced concrete structures

    New search for: Hong, Won-Kee
    Table of contents

    "Artificial Neural Network-based Optimized Design of Reinforced Concrete Structures introduces AI-based Lagrange optimization techniques that can enable more rational engineering decisions for concrete structures, while conforming to codes of practice. It shows how objective functions including cost, CO2 emissions, and structural weight of concrete structures are optimized either separately or simultaneously while satisfying constraining design conditions using an ANN-based Hong-Lagrange method. Any design target can be adopted as an objective function. Many optimized design examples are verified by both conventional structural calculations and big datasets. The book suits undergraduate and graduate students who have a good understanding of college-level calculus and will be especially beneficial to engineers and contractors who seek to optimize concrete structures"

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Artificial neural network-based optimized design of reinforced concrete structures

    Contributors:

    Hong, Won-Kee (author)

    Edition:

    First edition

    Publication date:

    2023

    Size:

    xv, 564 Seiten

    Remarks:

    Illustrationen
    Literaturangaben

    ISBN:

    9781032323688 , 9781032323695

    Type of media:

    Book

    Type of material:

    Print

    Language:

    English

    Keywords:

    Lagrange-Methode , Strukturoptimierung , Neuronales Netz , Betonkonstruktion Lagrangian functions , Structural optimization , Neural networks (Computer science) , Reinforced concrete construction

    Classification:

    DDC:  624.1/8341
    BKL:  54.72 Künstliche Intelligenz / 56.12 Betonbau

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