In this paper, we estimate the reliability of a parallel system with two com-ponents. We assume strengths of these components follow bivariate exponen-tial(BVE) distribution. These two components are subjected to two independent stresses which are independent of the strengths of two components. If (X1, X2) are strengths of two components subjected to two independent stresses Y1 and Y2, then the reliability of a parallel system or system reliability (R) is given by R = P [Y1 < X1, Y2 < X2]. We estimate R when (X1, X2) have different BVE models proposed by Marshall-Olkin(1967), Block-Basu(1974), Freund(1961) and Proschan-Sullo(1974). We assume the distribution of Y1 and Y2 as exponential or gamma. We obtain the asymptotic normal(AN) dis...
In this paper, we estimate the reliability of a system with k components. The system functions when ...
Industrial systems often have redundant structures for improving reliability and avoiding sudden fai...
In a system with standby redundancy, there are a number of components only one of which works at a t...
In this paper, we estimate the reliability of a parallel system with two com-ponents. We assume the ...
In this paper, we estimate the reliability of a parallel system with two compo-nents. We assume that...
In this paper, we estimate the reliability of a component subjected to two different stresses which ...
In this paper, we estimate the reliability of a component subjected to two dif-ferent stresses which...
Abstract: This paper deals with the estimation of reliability of either parallel or series systems w...
In this paper, we consider the mean remaining strength at the system level of two-component parallel...
A stress-strength model is formulated for a multi-component system consisting of k identical compo...
In this paper, we estimate the reliability of series system with k compo-nents. We assume the streng...
In this paper, we estimate the reliability of some parallel and series multi-component stress–streng...
In this paper, we discuss the problem of estimating reliabil-ity (R) of a component based on maximum...
AbstractIn this paper, we estimate the reliability of some parallel and series multi-component stres...
An expression for the stress-strength reliability R=P(X1<X2) is obtained when the vector (X1, X2) fo...
In this paper, we estimate the reliability of a system with k components. The system functions when ...
Industrial systems often have redundant structures for improving reliability and avoiding sudden fai...
In a system with standby redundancy, there are a number of components only one of which works at a t...
In this paper, we estimate the reliability of a parallel system with two com-ponents. We assume the ...
In this paper, we estimate the reliability of a parallel system with two compo-nents. We assume that...
In this paper, we estimate the reliability of a component subjected to two different stresses which ...
In this paper, we estimate the reliability of a component subjected to two dif-ferent stresses which...
Abstract: This paper deals with the estimation of reliability of either parallel or series systems w...
In this paper, we consider the mean remaining strength at the system level of two-component parallel...
A stress-strength model is formulated for a multi-component system consisting of k identical compo...
In this paper, we estimate the reliability of series system with k compo-nents. We assume the streng...
In this paper, we estimate the reliability of some parallel and series multi-component stress–streng...
In this paper, we discuss the problem of estimating reliabil-ity (R) of a component based on maximum...
AbstractIn this paper, we estimate the reliability of some parallel and series multi-component stres...
An expression for the stress-strength reliability R=P(X1<X2) is obtained when the vector (X1, X2) fo...
In this paper, we estimate the reliability of a system with k components. The system functions when ...
Industrial systems often have redundant structures for improving reliability and avoiding sudden fai...
In a system with standby redundancy, there are a number of components only one of which works at a t...