Estimation of rare event probabilities in power transmission networks subject to cascading failures

Cadini, Francesco; Agliardi, Gian Luca; Zio, Enrico

doi:10.1016/j.ress.2016.09.009

Cited by 38 publications

(11 citation statements)

References 34 publications

(88 reference statements)

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“…Finally, another widely different rare event related learning scenario can be found in the literature. The estimation of the probability of occurrence of a rare event (Wu et al, 2003;Cadini et al, 2017;Dessai and Hulme, 2004;Dueñas-Osorio and Vemuru, 2009;Bedford and Cooke, 2001). This approach is mainly used in engineering and physics and some illustrative examples of rare event probability estimation include: the estimation of the probability of infrastructure failure in a fixed period of time (Dueñas-Osorio and Vemuru, 2009), the estimation of the probability of failure of technical systems in a fixed period of time (Bedford and Cooke, 2001), or the estimation of the probability of extreme climate developments in a specific time window (Dessai and Hulme, 2004).…”

Section: Rare Event Detectionmentioning

confidence: 99%

Analyzing rare event, anomaly, novelty and outlier detection terms under the supervised classification framework

2019

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In recent years, a variety of research areas have contributed to a set of related problems with rare event, anomaly, novelty and outlier detection terms as the main actors. These multiple research areas have created a mix-up between terminology and problems. In some research, similar problems have been named differently; while in some other works, the same term has been used to describe different problems. This confusion between terms and problems causes the repetition of research and hinders the advance of the field. Therefore, a standardization is imperative. The goal of this paper is to underline the differences between each term, and organize the area by looking at all these terms under the umbrella of supervised classification. Therefore, a one-to-one assignment of terms to learning scenarios is proposed. In fact, each learning scenario is associated with the term most frequently used in the literature. In order to validate this proposal, a set of experiments retrieving papers from Google Scholar, ACM Digital Library and IEEE Xplore has been carried out.

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Section: Rare Event Detectionmentioning

confidence: 99%

Analyzing rare event, anomaly, novelty and outlier detection terms under the supervised classification framework

2019

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“…connectivity properties of complex systems, evaluating the effects on system functionality and locating the critical parts [18]- [23]. Logical methods, such as game theory and hierarchical logic trees, can capture the logic of dysfunction of a complex system [24]- [29].…”

Section: Accepted Manuscriptmentioning

confidence: 99%

A systematic framework of vulnerability analysis of a natural gas pipeline network

Zio

Zhang

et al. 2018

Reliability Engineering & System Safety

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This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Highlights  A method is developed to analyze vulnerability of gas pipeline networks.  Supply capacity, gas grid performance and demand change are considered.  Indices are developed to measure gas grid vulnerability and pipeline criticality.  Demand site robustness is analyzed by statistics and topology properties.  The application of the method is studied in a complex natural gas pipeline network.

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“…These risks are difficult to quantify, and are often the most worrisome as well (Oldenburg and Budnitz 2016). Although some methods have been used to analyse these risks (Oldenburg and Budnitz 2016) and to quantify them (Cadini et al 2017;Mignan et al 2014), tolerable thresholds are difficult to define for systems where large populations are exposed (densely populated developments where hundreds to thousands of people can potentially be affectedsuch as communities downstream of dam facilities). It can be argued that on these circumstances the precautionary principle be applied.…”

Section: The Issue Of Low Probability -High Consequence Eventsmentioning

confidence: 99%

Framework for developing risk to life evaluation criteria associated with landslides in Canada

Macciotta

Lefsrud²

2018

Geoenviron Disasters

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The application of quantitative risk assessments is increasing for decision-making in many industries and contexts, with the evaluation of risks against some adopted criteria. In this article, we review risk criteria developed and used for landslide management, in particular criteria associated with risk to life. We show that while this natural hazard is encountered worldwide, the social and regulatory contexts under which evaluation criteria are developed can vary significantly. Thus, the applicability of developed criteria to any specific situation should be assessed before adopting them elsewhere. We describe selected considerations for developing risk evaluation criteria, propose a framework for defining these criteria in Canada, and assess the applicability of previously proposed criteria. Examples of risk criteria development and adoption for new and existing residential developments and for railway employees are presented to illustrate some of these concepts.

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Estimation of rare event probabilities in power transmission networks subject to cascading failures

Cited by 38 publications

References 34 publications

Analyzing rare event, anomaly, novelty and outlier detection terms under the supervised classification framework

Analyzing rare event, anomaly, novelty and outlier detection terms under the supervised classification framework

A systematic framework of vulnerability analysis of a natural gas pipeline network

Framework for developing risk to life evaluation criteria associated with landslides in Canada

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