Comparison of two graphical models approaches for the modelling of multi-components system´s reliability

Author

Donat, Roland ; Bouillaut, Laurent ; Neji, Abdelmoez ; Aknin, Patrice

Author_Institution

French Nat. Inst. for Transp. & Safety Res., Noisy-le-Grand, France

fYear

2009

fDate

6-9 July 2009

Firstpage

1261

Lastpage

1266

Abstract

Reliability analysis is an integral part of system design and operating. Moreover, it can be an input to optimize maintenance policies. Recently, Bayesian Networks (BN) and Dynamic Bayesian Networks (DBN) have been proved relevant to represent complex systems and perform reliability studies. The major drawback of this approach comes from the constraint on the state sojourn times which are necessarily exponentially distributed, as in usual markovian approaches. Therefore, a new formalism was previously introduced in the literature to avoid this constraint: the Graphical Duration Models (GDM). This paper aims to quantify the reliability estimation error due to an exponential approximation when the system follows other kinds of sojourn time´s distributions. Finally results obtained by DBN and GDM will be compared.

Keywords

Markov processes; approximation theory; belief networks; estimation theory; large-scale systems; reliability theory; DBN; GDM; Markovian approaches; complex systems; dynamic Bayesian networks; exponential approximation; graphical duration models; multicomponents system reliability; optimize maintenance policy; reliability analysis; reliability estimation error; system design; Bayesian methods; Degradation; Estimation error; Exponential distribution; Graphical models; Maintenance; Random variables; Reliability; System analysis and design; Transportation; Bayesian Network; Maintenance; Markov models; Probabilistic Graphical Models; Reliability; Semi-Markov process;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers & Industrial Engineering, 2009. CIE 2009. International Conference on

Conference_Location

Troyes

Print_ISBN

978-1-4244-4135-8

Electronic_ISBN

978-1-4244-4136-5

Type

conf

DOI

10.1109/ICCIE.2009.5223908

Filename

5223908