Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events

Yaohan Li; You Dong

Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Resilience and loss assessment plays an important role in hazard risk management and mitigation. As a paramount indicator, resilience has been widely utilized to account for robustness and recovery capability of civil infrastructure. However, previous studies evaluate the resilience conditioned on a single hazard scenario, which is less likely to incorporate long-term uncertainty and multiple hazard effects. Although the life-cycle loss was commonly computed in previous research, quantification of loss has been restricted to the expectation and the stationary occurrence model. Statistical moments, such as standard deviation, skewness, and kurtosis of long-term loss interpreting uncertainty characteristics, were rarely discussed. Uncertainty associated time-dependent characteristics with respect to stochastic occurrence and intensity have not been taken into account. To address these concerns, an integrated life-cycle probabilistic resilience and loss assessment framework is developed to aid the management and decision making of civil infrastructure subjected to hazard effects.

Original language	English
Title of host publication	IABSE Conference, Seoul 2020
Subtitle of host publication	Risk Intelligence of Infrastructures - Report
Pages	346-351
Number of pages	6
ISBN (Electronic)	9783857481758
Publication status	Published - 2021
Externally published	Yes
Event	IABSE Conference Seoul 2020: Risk Intelligence of Infrastructures - Seoul, Korea, Republic of Duration: 9 Nov 2020 → 10 Nov 2020

Publication series

Name	IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report

Conference

Conference	IABSE Conference Seoul 2020: Risk Intelligence of Infrastructures
Country/Territory	Korea, Republic of
City	Seoul
Period	9/11/20 → 10/11/20

Keywords

Life-cycle
Long-term resilience
Loss assessment
Renewal process

Cite this

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title = "Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events",

abstract = "Resilience and loss assessment plays an important role in hazard risk management and mitigation. As a paramount indicator, resilience has been widely utilized to account for robustness and recovery capability of civil infrastructure. However, previous studies evaluate the resilience conditioned on a single hazard scenario, which is less likely to incorporate long-term uncertainty and multiple hazard effects. Although the life-cycle loss was commonly computed in previous research, quantification of loss has been restricted to the expectation and the stationary occurrence model. Statistical moments, such as standard deviation, skewness, and kurtosis of long-term loss interpreting uncertainty characteristics, were rarely discussed. Uncertainty associated time-dependent characteristics with respect to stochastic occurrence and intensity have not been taken into account. To address these concerns, an integrated life-cycle probabilistic resilience and loss assessment framework is developed to aid the management and decision making of civil infrastructure subjected to hazard effects.",

keywords = "Life-cycle, Long-term resilience, Loss assessment, Renewal process",

author = "Yaohan Li and You Dong",

note = "Publisher Copyright: {\textcopyright} 2021 IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report. All rights reserved.; IABSE Conference Seoul 2020: Risk Intelligence of Infrastructures ; Conference date: 09-11-2020 Through 10-11-2020",

year = "2021",

language = "English",

series = "IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report",

pages = "346--351",

booktitle = "IABSE Conference, Seoul 2020",

}

Li, Y & Dong, Y 2021, Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events. in IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report. IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report, pp. 346-351, IABSE Conference Seoul 2020: Risk Intelligence of Infrastructures, Seoul, Korea, Republic of, 9/11/20.

Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events. / Li, Yaohan; Dong, You.
IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report. 2021. p. 346-351 (IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events

AU - Li, Yaohan

AU - Dong, You

PY - 2021

Y1 - 2021

N2 - Resilience and loss assessment plays an important role in hazard risk management and mitigation. As a paramount indicator, resilience has been widely utilized to account for robustness and recovery capability of civil infrastructure. However, previous studies evaluate the resilience conditioned on a single hazard scenario, which is less likely to incorporate long-term uncertainty and multiple hazard effects. Although the life-cycle loss was commonly computed in previous research, quantification of loss has been restricted to the expectation and the stationary occurrence model. Statistical moments, such as standard deviation, skewness, and kurtosis of long-term loss interpreting uncertainty characteristics, were rarely discussed. Uncertainty associated time-dependent characteristics with respect to stochastic occurrence and intensity have not been taken into account. To address these concerns, an integrated life-cycle probabilistic resilience and loss assessment framework is developed to aid the management and decision making of civil infrastructure subjected to hazard effects.

AB - Resilience and loss assessment plays an important role in hazard risk management and mitigation. As a paramount indicator, resilience has been widely utilized to account for robustness and recovery capability of civil infrastructure. However, previous studies evaluate the resilience conditioned on a single hazard scenario, which is less likely to incorporate long-term uncertainty and multiple hazard effects. Although the life-cycle loss was commonly computed in previous research, quantification of loss has been restricted to the expectation and the stationary occurrence model. Statistical moments, such as standard deviation, skewness, and kurtosis of long-term loss interpreting uncertainty characteristics, were rarely discussed. Uncertainty associated time-dependent characteristics with respect to stochastic occurrence and intensity have not been taken into account. To address these concerns, an integrated life-cycle probabilistic resilience and loss assessment framework is developed to aid the management and decision making of civil infrastructure subjected to hazard effects.

KW - Life-cycle

KW - Long-term resilience

KW - Loss assessment

KW - Renewal process

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M3 - Conference contribution

AN - SCOPUS:85101676340

T3 - IABSE Conference, Seoul 2020: Risk Intelligence of Infrastructures - Report

SP - 346

EP - 351

BT - IABSE Conference, Seoul 2020

T2 - IABSE Conference Seoul 2020: Risk Intelligence of Infrastructures

Y2 - 9 November 2020 through 10 November 2020

ER -

Life-cycle probabilistic loss and resilience quantification of civil infrastructure under extreme events

Abstract

Publication series

Conference

Keywords

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Cite this