Abstract
Problem Statement: The two-parameter exponentiated Rayleigh distribution has been widely used especially in the modelling of life time event data. It provides a statistical model which has a wide variety of application in many areas and the main advantage is its ability in the context of life time event among other distributions. The uniformly minimum variance unbiased and maximum likelihood estimation methods are the way to estimate the parameters of the distribution. In this study we explore and compare the performance of the uniformly minimum variance unbiased and maximum likelihood estimators of the reliability function R(t)=P(X>t) and P=P(X>Y) for the two-parameter exponentiated Rayleigh distribution. Approach: A new technique of obtaining these parametric functions is introduced in which major role is played by the powers of the parameter(s) and the functional forms of the parametric functions to be estimated are not needed. We explore the performance of these estimators numerically under varying conditions. Through the simulation study a comparison are made on the performance of these estimators with respect to the Biasness, Mean Square Error (MSE), 95% confidence length and corresponding coverage percentage. Conclusion: Based on the results of simulation study the UMVUES of R(t) and ‘P’ for the two-parameter exponentiated Rayleigh distribution found to be superior than MLES of R(t) and ‘P’.
Highlights
Reliability theory is mainly concerned with the determination of the probability that a system, consisting possibly of several components, will operate adequately for a given period of time in its intended application
We provide the UMVUE of the sampled pdf (1) at specified point ‘x’
[−λ−2 2 ln(1 − e−T )]1/2 < [−λ−1 2 ln(1 − e−S )]1/2. Proof It follows from Lemma 2 that the Uniformly minimum variance unbiased estimators (UMVUES) of f1(x; α1, λ1) and f2(y; α2, λ2) at specified points ‘x’ and ‘y’, respectively, are f1(x; α1, λ1)
Summary
Reliability theory is mainly concerned with the determination of the probability that a system, consisting possibly of several components, will operate adequately for a given period of time in its intended application. The twoparameter exponentiated Rayleigh distribution has the following probability density function (pdf) We provide the UMVUE of the sampled pdf (1) at specified point ‘x’.
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