TY  - Type of reference 
TI  - Taking account of Multi-domains interactions in predictive reliability assessment of mechatronic systems 
AU  - Nabil Bensaid Amrani 
AU  - Laurent Saintis 
AU  - Driss Sarsri 
AU  - Mihaela Barreau 
AB  - The mechatronic systems are hybrid, dynamic, interactive and reconfigurable. Therefore their dysfunctional modeling is very difficult. Multi-physical interactions between components have impacts on the degradation or on system failures, leading thus to more uncertainty in reliability evaluation. The work presented in this paper aims to improve the integration of multi-domain interactions in the reliability assessment of mechatronic systems.
After a presentation of the state of the art of mechatronic systems reliability estimation methods, we propose to represent multi domain interactions by influential factors in the dysfunctional model.
We generally use proportional hazard models ; in the case of an interaction represented by a temperature stress, Arrhenius model is used. 
DO  - 10.21494/ISTE.OP.2017.0123 
JF  - Uncertainties and Reliability of Multiphysical Systems 
KW  - Reliability,  Functional Modelling,  Dysfunctional Modelling,  Petri nets,  Multi-domain Interactions,  Influence Factor,  Cox Model,  Arrhenius Law, Fiabilité,  Modélisation fonctionnelle,  Modélisation dysfonctionnelle,  RdP (Réseaux de Pétri),  Interactions multi-domaines,  facteur d’influence,  modèle de Cox,  loi d’Arrhenius,  
L1  - https://www.openscience.fr/IMG/pdf/06_nabil_ok.pdf 
LA  - en 
PB  - ISTE OpenScience 
DA  - 2017/02/22 
SN  - 2514-569X 
TT  - L’évaluation de la fiabilité prévisionnelle des systèmes mécatroniques avec la prise en compte des interactions multi-domaines 
UR  - https://www.openscience.fr/Taking-account-of-Multi-domains-interactions-in-predictive-reliability 
IS  - Optimization and Reliability 
VL  - 1 
ER  -