This article presents a methodology for reliability prediction during the design phase of mechatronic system considered as an interactive dynamic system. The difficulty in modeling reliability of a mechatronic system is mainly due to failures related to the interaction between the different domains called Multi-domain interaction. Therefore in this paper, after a presentation of the state of the art of mechatronic systems reliability estimation methods, we propose a original approach by representing multi domain interactions by influential factors in the dysfunctional modeled by Dynamic Bayesian Networks. A case study demonstrates the interest of the proposed approach
Mechatronics is defined as the integration of mechanical engineering, electronics, computer control,...
Abstract: The work reported here presents an original method to model dependability of systems, taki...
This paper presents an extension of Bayesian networks (BN) applied to reliability analysis. We devel...
International audienceThis article presents a methodology for reliability prediction during the desi...
In reliability predicting field, the probabilistic approaches are based on data relating to the comp...
Les systèmes mécatroniques sont à la fois hybrides, dynamiques, interactifs et reconfigurables, ce q...
Abstract: Nowadays, the complex manufacturing processes have to be dynamically modelled and controll...
Reliability analysis of mechatronic systems is one of the most young field and dynamic branches of r...
International audienceVarious parametric skewed distributions are widely used to model the time-to-f...
We talk about dynamic reliability when the reliability parameters of the system, such as the failure...
L’étude de la fiabilité des systèmes mécatroniques est un axe de recherche relativement récent. Ces ...
This paper presents a quantitative reliability modelling and analysis method for multi-state element...
This paper presents a quantitative reliability modelling and analysis method for multi-state element...
AbstractIn this paper, we present an approach to reliability modeling and analysis based on the auto...
In this paper, we present an approach to reliability modeling and analysis based on the automatic c...
Mechatronics is defined as the integration of mechanical engineering, electronics, computer control,...
Abstract: The work reported here presents an original method to model dependability of systems, taki...
This paper presents an extension of Bayesian networks (BN) applied to reliability analysis. We devel...
International audienceThis article presents a methodology for reliability prediction during the desi...
In reliability predicting field, the probabilistic approaches are based on data relating to the comp...
Les systèmes mécatroniques sont à la fois hybrides, dynamiques, interactifs et reconfigurables, ce q...
Abstract: Nowadays, the complex manufacturing processes have to be dynamically modelled and controll...
Reliability analysis of mechatronic systems is one of the most young field and dynamic branches of r...
International audienceVarious parametric skewed distributions are widely used to model the time-to-f...
We talk about dynamic reliability when the reliability parameters of the system, such as the failure...
L’étude de la fiabilité des systèmes mécatroniques est un axe de recherche relativement récent. Ces ...
This paper presents a quantitative reliability modelling and analysis method for multi-state element...
This paper presents a quantitative reliability modelling and analysis method for multi-state element...
AbstractIn this paper, we present an approach to reliability modeling and analysis based on the auto...
In this paper, we present an approach to reliability modeling and analysis based on the automatic c...
Mechatronics is defined as the integration of mechanical engineering, electronics, computer control,...
Abstract: The work reported here presents an original method to model dependability of systems, taki...
This paper presents an extension of Bayesian networks (BN) applied to reliability analysis. We devel...