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    Kriging and Visualization

    New search for: Bheemasetti, Tejo
    New search for: Caballero, Santiago
    New search for: Puppala, Anand J.

    “Earth” forms the basis for more than 150 branches of science and engineering. Its continuous evolution over centuries has led to developments with respect to society and infrastructure. While Earth is the epitome of many regional and global topics, including climate change, frontiers, food, and energy, the notion of “Earth” is elusive and largely depends on the context. For geotechnical engineers, the word Earth refers to soils, rocks, and their spatial-temporal depositions, strength-deformation behavior, backfill material, and the vulnerability of the earth to geohazards. Significant technological advancements have led to strides in geotechnical testing tools, computational procedures, and machine learning for geotechnical stability analysis. However, the accuracy of geotechnical site characterization is still a challenging problem for engineers. Over the last two decades, the incorporation of spatial variability topics, especially the kriging technique in geotechnical engineering, has led to advancements in geotechnical site characterization.

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    Kriging and Visualization

    New search for: Bheemasetti, Tejo
    New search for: Caballero, Santiago
    New search for: Puppala, Anand J.

    “Earth” forms the basis for more than 150 branches of science and engineering. Its continuous evolution over centuries has led to developments with respect to society and infrastructure. While Earth is the epitome of many regional and global topics, including climate change, frontiers, food, and energy, the notion of “Earth” is elusive and largely depends on the context. For geotechnical engineers, the word Earth refers to soils, rocks, and their spatial-temporal depositions, strength-deformation behavior, backfill material, and the vulnerability of the earth to geohazards. Significant technological advancements have led to strides in geotechnical testing tools, computational procedures, and machine learning for geotechnical stability analysis. However, the accuracy of geotechnical site characterization is still a challenging problem for engineers. Over the last two decades, the incorporation of spatial variability topics, especially the kriging technique in geotechnical engineering, has led to advancements in geotechnical site characterization.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Kriging and Visualization

    New search for: Bheemasetti, Tejo
    New search for: Caballero, Santiago
    New search for: Puppala, Anand J.

    “Earth” forms the basis for more than 150 branches of science and engineering. Its continuous evolution over centuries has led to developments with respect to society and infrastructure. While Earth is the epitome of many regional and global topics, including climate change, frontiers, food, and energy, the notion of “Earth” is elusive and largely depends on the context. For geotechnical engineers, the word Earth refers to soils, rocks, and their spatial-temporal depositions, strength-deformation behavior, backfill material, and the vulnerability of the earth to geohazards. Significant technological advancements have led to strides in geotechnical testing tools, computational procedures, and machine learning for geotechnical stability analysis. However, the accuracy of geotechnical site characterization is still a challenging problem for engineers. Over the last two decades, the incorporation of spatial variability topics, especially the kriging technique in geotechnical engineering, has led to advancements in geotechnical site characterization.

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    Check availability in my library
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    Title:

    Kriging and Visualization

    Additional title:

    Geostrata

    Contributors:

    Bheemasetti, Tejo (author) / Caballero, Santiago (author) / Puppala, Anand J. (author)

    Published in:

    GeoStrata Magazine Archive ; 26 ; 36-43

    Publication date:

    2022-12-01

    ISSN:

    2766-9122

    DOI:

    https://doi.org/10.1061/geosek.0000456

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

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