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    Resilience of a Transportation Network from a Geotechnical Perspective

    New search for: Lee, Mina
    New search for: Basu, Dipanjan

    Climate change, and natural and man-made disasters cause failure of crucial geotechnical components in civil infrastructure systems, which may result in catastrophic damage not only to the civil infrastructure but also to local communities. For example, road embankments provide structural support to transportation infrastructure; thus, they greatly influence the mobility of public to access essential human needs such as food, shelter, work, and medical care. The concept of resilience, which is defined as the ability to absorb, recover from, and adapt to disruptions, introduces a new paradigm to overcome challenges with inevitable disruptive events arising from climate change, natural and man-made disasters. In this paper, a quantitative framework is proposed for evaluating the resilience of geotechnical infrastructure along with consideration of its sustainability. The framework is demonstrated through a hypothetical case study based on a selected road network in the province of Ontario, Canada.

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    Resilience of a Transportation Network from a Geotechnical Perspective

    New search for: Lee, Mina
    New search for: Basu, Dipanjan

    Climate change, and natural and man-made disasters cause failure of crucial geotechnical components in civil infrastructure systems, which may result in catastrophic damage not only to the civil infrastructure but also to local communities. For example, road embankments provide structural support to transportation infrastructure; thus, they greatly influence the mobility of public to access essential human needs such as food, shelter, work, and medical care. The concept of resilience, which is defined as the ability to absorb, recover from, and adapt to disruptions, introduces a new paradigm to overcome challenges with inevitable disruptive events arising from climate change, natural and man-made disasters. In this paper, a quantitative framework is proposed for evaluating the resilience of geotechnical infrastructure along with consideration of its sustainability. The framework is demonstrated through a hypothetical case study based on a selected road network in the province of Ontario, Canada.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Resilience of a Transportation Network from a Geotechnical Perspective

    New search for: Lee, Mina
    New search for: Basu, Dipanjan

    Climate change, and natural and man-made disasters cause failure of crucial geotechnical components in civil infrastructure systems, which may result in catastrophic damage not only to the civil infrastructure but also to local communities. For example, road embankments provide structural support to transportation infrastructure; thus, they greatly influence the mobility of public to access essential human needs such as food, shelter, work, and medical care. The concept of resilience, which is defined as the ability to absorb, recover from, and adapt to disruptions, introduces a new paradigm to overcome challenges with inevitable disruptive events arising from climate change, natural and man-made disasters. In this paper, a quantitative framework is proposed for evaluating the resilience of geotechnical infrastructure along with consideration of its sustainability. The framework is demonstrated through a hypothetical case study based on a selected road network in the province of Ontario, Canada.

    Access

    Check access
    Check availability in my library
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    Title:

    Resilience of a Transportation Network from a Geotechnical Perspective

    Contributors:

    Lee, Mina (author) / Basu, Dipanjan (author)

    Conference:

    Geotechnical Frontiers 2017 ; 2017 ; Orlando, Florida

    Published in:

    Geotechnical Frontiers 2017 ; 224-233

    Publication date:

    2017-03-30

    ISBN:

    9780784480458

    DOI:

    https://doi.org/10.1061/9780784480458.022

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

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