In ideal circumstances, failure time data for a K component series system contain the time to failure along with information on the exact component responsible for the system failure. These data then can be used to estimate system and component reliabilities. In many cases, however, due to cost and time constraints, the exact component causing the system failure is not identified, but the cause of failure is only narrowed down to a subsystem or a smaller set of components. A Bayesian analysis is developed in this article for such masked data from a general K component system. The theoretical failure times for the K components are assumed to have independent Weibull distributions. These K Weibulls can have different scale and shape parameter...
The Weibull distribution has been widely used in survival and engineering reliability analysis. In l...
This work describes a Bayesian model for assessing the reliability of complex systems using compone...
An imprecise Bayesian nonparametric approach to system reliability with multiple types of components...
In ideal circumstances, failure time data for a K component series system contain the time to failur...
In the masked system lifetime data, the exact component that causes the system's failure is oft...
The problem of analyzing series system lifetime data with masked or partial information on cause of ...
In the reliability modeling field, we sometimes encounter systems with uncertain structures, and the...
In reliability theory, the most important problem is to determine the reliability of a complex syste...
In a reliability or maintenance analysis of a complex system, it is important to be able to identify...
Bayesian analysis of system failure data from engineering applications under a competing risks frame...
This research deals with the failure rate of the components of a complex system. The failure of a co...
In reliability engineering, data about failure events is often scarce. To arrive at meaningful estim...
This paper considers the quantification of system reliability in scenarios in which data, that is, f...
This paper introduces estimations of reliability values for the individual components in a series sy...
This paper presents a hierarchical Bayesian approach to the estimation of components ’ reliability (...
The Weibull distribution has been widely used in survival and engineering reliability analysis. In l...
This work describes a Bayesian model for assessing the reliability of complex systems using compone...
An imprecise Bayesian nonparametric approach to system reliability with multiple types of components...
In ideal circumstances, failure time data for a K component series system contain the time to failur...
In the masked system lifetime data, the exact component that causes the system's failure is oft...
The problem of analyzing series system lifetime data with masked or partial information on cause of ...
In the reliability modeling field, we sometimes encounter systems with uncertain structures, and the...
In reliability theory, the most important problem is to determine the reliability of a complex syste...
In a reliability or maintenance analysis of a complex system, it is important to be able to identify...
Bayesian analysis of system failure data from engineering applications under a competing risks frame...
This research deals with the failure rate of the components of a complex system. The failure of a co...
In reliability engineering, data about failure events is often scarce. To arrive at meaningful estim...
This paper considers the quantification of system reliability in scenarios in which data, that is, f...
This paper introduces estimations of reliability values for the individual components in a series sy...
This paper presents a hierarchical Bayesian approach to the estimation of components ’ reliability (...
The Weibull distribution has been widely used in survival and engineering reliability analysis. In l...
This work describes a Bayesian model for assessing the reliability of complex systems using compone...
An imprecise Bayesian nonparametric approach to system reliability with multiple types of components...