We consider estimation of the multicomponent stress-strength reliability for a general class of inverted exponentiated distributions under progressive type-II censoring. We assume that both stress and strength variables follow this general class of distributions with a common parameter. Different point and interval estimates for the reliability of this system are obtained by using maximum likelihood and Bayesian approaches when the common parameter is known and unknown. The uniformly minimum variance unbiased estimate and exact Bayes estimate under the squared error loss function are derived when the common parameter is known. Bayes estimates are also obtained by using Lindley, Tierney-Kadane and Markov chain Monte Carlo methods. The asympt...
In this paper, we consider the estimation reliability in multicom-ponent stress-strength (MSS) model...
In the literature, there are a well-developed estimation techniques for the reliability assessment i...
This paper is devoted to discuss the stress-strength reliability model R = Pr(Y \u3c X) when X and Y...
A s-out-of-k : G system consists of k components functions if and only if at least s components func...
In this study, we consider a multicomponent system which has k statistically independent and identic...
The statistical inference of the reliability and parameters of the stress–strength model has receive...
Reliability analysis for a multicomponent stress-strength (MSS) model is discussed in this paper. Wh...
In this article, the reliability inference for a multicomponent stress-strength (MSS) model, when bo...
In this paper, inference for a multicomponent stress–strength (MSS) model is studied under censored ...
This study deals with the classical and Bayesian estimation of reliability in a multicomponent stres...
A system of k components, where the strengths of all k components are independent and have identical...
In many real-life scenarios, systems frequently perform badly in difficult operating situations. The...
It is highly common in many real-life settings for systems to fail to perform in their harsh operati...
In this paper, reliability estimation for a competing risks model is discussed under a block progres...
Based on progressively Type-II censored samples, this paper deals with inference for the stress-stre...
In this paper, we consider the estimation reliability in multicom-ponent stress-strength (MSS) model...
In the literature, there are a well-developed estimation techniques for the reliability assessment i...
This paper is devoted to discuss the stress-strength reliability model R = Pr(Y \u3c X) when X and Y...
A s-out-of-k : G system consists of k components functions if and only if at least s components func...
In this study, we consider a multicomponent system which has k statistically independent and identic...
The statistical inference of the reliability and parameters of the stress–strength model has receive...
Reliability analysis for a multicomponent stress-strength (MSS) model is discussed in this paper. Wh...
In this article, the reliability inference for a multicomponent stress-strength (MSS) model, when bo...
In this paper, inference for a multicomponent stress–strength (MSS) model is studied under censored ...
This study deals with the classical and Bayesian estimation of reliability in a multicomponent stres...
A system of k components, where the strengths of all k components are independent and have identical...
In many real-life scenarios, systems frequently perform badly in difficult operating situations. The...
It is highly common in many real-life settings for systems to fail to perform in their harsh operati...
In this paper, reliability estimation for a competing risks model is discussed under a block progres...
Based on progressively Type-II censored samples, this paper deals with inference for the stress-stre...
In this paper, we consider the estimation reliability in multicom-ponent stress-strength (MSS) model...
In the literature, there are a well-developed estimation techniques for the reliability assessment i...
This paper is devoted to discuss the stress-strength reliability model R = Pr(Y \u3c X) when X and Y...