Abstract
Many systems are affected by different random factors and stochastic processes, significantly complicating their reliability analysis. In general, the performance of complicated systems may gradually, suddenly, or continuously be downgraded over times from perfect functioning to breakdown states or may be affected by unexpected shocks. In the literature, analytic reliability assessment examined for especial cases is restricted to applying the Exponential, Gamma, compound Poisson, and Wiener degradation processes. Consideration of the effect of non-fatal soft shock makes such assessment more challenging which has remained a research gap for general degraded stochastic processes. Through the current article, for preventing complexity of analytic calculations, we have focused on applying a simulating approach for generalization. The proposed model embeds both the stochastic degradation process as well randomly occurred shocks for two states, multi-state, and continuous degradation. Here, the user can arbitrarily set the time to failure distribution, stochastic degradation, and time to occurrence shock density function as well its severity. In order to present the validity and applicability, two case studies in a sugar plant alongside an example derived from the literature are examined. In the first case study, the simulation overestimated the system reliability by less than 5%. Also, the comparison revealed no significant difference between the analytic and the simulation result in an example taken from an article. Finally, the reliability of a complicated crystallizer system embedding both degradation and soft shock occurrence was examined in a threecomponent standby system.
Highlights
Reliability is common scientific characteristic of a system with commutability, operability, or usability upon any request to accomplish the relevant nominated tasks over time to evaluate the system potential or performance
This paper proposes an efficient computer simulation approach in reliability assessment of a multi-state system subject to stochastic degradation process and randomly occurring non-fatal shocks
The literature survey shows that system reliability estimation always accompanied by complexity in analytic methods especially when there is a great deal of uncertainties the system analysis
Summary
Reliability is common scientific characteristic of a system with commutability, operability, or usability upon any request to accomplish the relevant nominated tasks over time to evaluate the system potential or performance In this regard, their assessment is a crucial analytic task given the huge complexity and solving the many states equation especially in the presence of stochastic degradation process and random arrival shock with unknown severity. Their assessment is a crucial analytic task given the huge complexity and solving the many states equation especially in the presence of stochastic degradation process and random arrival shock with unknown severity This context has remained a research gap, which has attracted much attention in the literature by Patelli et al [17].
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