We present a Bayesian approach for analysis of competing risks survival data with masked causes of failure. This approach is often used to assess the impact of covariates on the hazard functions when the failure time is exactly observed for some subjects but only known to lie in an interval of time for the remaining subjects. Such data, known as partly interval-censored data, usually result from periodic inspection in production engineering. In this study, Dirichlet and Gamma processes are assumed as priors for masking probabilities and baseline hazards. Markov chain Monte Carlo (MCMC) technique is employed for the implementation of the Bayesian approach. The effectiveness of the proposed approach is illustrated with simulated and productio...
In the masked system lifetime data, the exact component that causes the system's failure is oft...
Standard survival analysis focuses on failure-time data that has one type of failure. Competing risk...
Abstract: A Bayesian approach is proposed for an accelerated failure time model with interval-censor...
We present a Bayesian approach for analysis of competing risks survival data with masked causes of f...
We present a Bayesian approach for analysis of competing risks survival data with masked causes of f...
Bayesian analysis of system failure data from engineering applications under a competing risks frame...
Masked issues can emerge when dealing with competing risk data. Such issues are exemplified by the c...
Over the last decades, several authors have studied competing strategies to analyse the risk. This a...
In a reliability or maintenance analysis of a complex system, it is important to be able to identify...
Cause-specific analyses under a competing risks framework have received considerable attention in th...
In reliability theory, the most important problem is to determine the reliability of a complex syste...
In several studies in Survival Analysis, the cause of failure / death of items or individuals may be...
In ideal circumstances, failure time data for a K component series system contain the time to failur...
The exponential distribution is the most widely used reliability analysis. This distribution is very...
In the studies that involve competing risks, somehow, masking issues might arise. That is, the cause...
In the masked system lifetime data, the exact component that causes the system's failure is oft...
Standard survival analysis focuses on failure-time data that has one type of failure. Competing risk...
Abstract: A Bayesian approach is proposed for an accelerated failure time model with interval-censor...
We present a Bayesian approach for analysis of competing risks survival data with masked causes of f...
We present a Bayesian approach for analysis of competing risks survival data with masked causes of f...
Bayesian analysis of system failure data from engineering applications under a competing risks frame...
Masked issues can emerge when dealing with competing risk data. Such issues are exemplified by the c...
Over the last decades, several authors have studied competing strategies to analyse the risk. This a...
In a reliability or maintenance analysis of a complex system, it is important to be able to identify...
Cause-specific analyses under a competing risks framework have received considerable attention in th...
In reliability theory, the most important problem is to determine the reliability of a complex syste...
In several studies in Survival Analysis, the cause of failure / death of items or individuals may be...
In ideal circumstances, failure time data for a K component series system contain the time to failur...
The exponential distribution is the most widely used reliability analysis. This distribution is very...
In the studies that involve competing risks, somehow, masking issues might arise. That is, the cause...
In the masked system lifetime data, the exact component that causes the system's failure is oft...
Standard survival analysis focuses on failure-time data that has one type of failure. Competing risk...
Abstract: A Bayesian approach is proposed for an accelerated failure time model with interval-censor...