Quantitative Analysis of Dynamic Fault Trees Based on the Coupling of Structure Functions and Monte Carlo Simulation

G. Merle; J. M. Roussel; J. J. Lesage; V. Perchet; N. Vayatis

doi:10.1002/qre.1728

Quantitative Analysis of Dynamic Fault Trees Based on the Coupling of Structure Functions and Monte Carlo Simulation

G. Merle
, J. M. Roussel
, J. J. Lesage
, V. Perchet
, N. Vayatis

Research output: Contribution to journal › Review article › peer-review

Abstract

This paper focuses on the quantitative analysis of Dynamic Fault Trees (DFTs) by means of Monte Carlo simulation. In a previous article, we defined an algebraic framework allowing to determine the structure function of DFTs. We exploit this structure function and the minimal cut sequences that it allows to determine, to know the failure mode configuration of the system, which is an input of Monte Carlo simulation. We show that the results obtained are in good accordance with theoretical results and that some results, such as importance measures and sensitivity indexes, are not provided by common quantitative analysis and yet interesting. We finally illustrate our approach on a DFT example from the literature.

Original language	English
Pages (from-to)	7-18
Number of pages	12
Journal	Quality and Reliability Engineering International
Volume	32
Issue number	1
DOIs	https://doi.org/10.1002/qre.1728
Publication status	Published - 1 Feb 2016
Externally published	Yes

Keywords

Dynamic Fault Tree
Monte Carlo simulation
quantitative analysis

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10.1002/qre.1728

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title = "Quantitative Analysis of Dynamic Fault Trees Based on the Coupling of Structure Functions and Monte Carlo Simulation",

abstract = "This paper focuses on the quantitative analysis of Dynamic Fault Trees (DFTs) by means of Monte Carlo simulation. In a previous article, we defined an algebraic framework allowing to determine the structure function of DFTs. We exploit this structure function and the minimal cut sequences that it allows to determine, to know the failure mode configuration of the system, which is an input of Monte Carlo simulation. We show that the results obtained are in good accordance with theoretical results and that some results, such as importance measures and sensitivity indexes, are not provided by common quantitative analysis and yet interesting. We finally illustrate our approach on a DFT example from the literature.",

keywords = "Dynamic Fault Tree, Monte Carlo simulation, quantitative analysis",

author = "G. Merle and Roussel, \{J. M.\} and Lesage, \{J. J.\} and V. Perchet and N. Vayatis",

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AU - Merle, G.

AU - Roussel, J. M.

AU - Lesage, J. J.

AU - Perchet, V.

AU - Vayatis, N.

PY - 2016/2/1

Y1 - 2016/2/1

N2 - This paper focuses on the quantitative analysis of Dynamic Fault Trees (DFTs) by means of Monte Carlo simulation. In a previous article, we defined an algebraic framework allowing to determine the structure function of DFTs. We exploit this structure function and the minimal cut sequences that it allows to determine, to know the failure mode configuration of the system, which is an input of Monte Carlo simulation. We show that the results obtained are in good accordance with theoretical results and that some results, such as importance measures and sensitivity indexes, are not provided by common quantitative analysis and yet interesting. We finally illustrate our approach on a DFT example from the literature.

AB - This paper focuses on the quantitative analysis of Dynamic Fault Trees (DFTs) by means of Monte Carlo simulation. In a previous article, we defined an algebraic framework allowing to determine the structure function of DFTs. We exploit this structure function and the minimal cut sequences that it allows to determine, to know the failure mode configuration of the system, which is an input of Monte Carlo simulation. We show that the results obtained are in good accordance with theoretical results and that some results, such as importance measures and sensitivity indexes, are not provided by common quantitative analysis and yet interesting. We finally illustrate our approach on a DFT example from the literature.

KW - Dynamic Fault Tree

KW - Monte Carlo simulation

KW - quantitative analysis

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DO - 10.1002/qre.1728

M3 - Review article

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SP - 7

EP - 18

JO - Quality and Reliability Engineering International

JF - Quality and Reliability Engineering International

IS - 1

ER -

Quantitative Analysis of Dynamic Fault Trees Based on the Coupling of Structure Functions and Monte Carlo Simulation

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Keywords

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