%0 Journal Article
%T Bayes Estimation of a Two-Parameter Geometric Distribution under Multiply Type II Censoring
%A J. B. Shah
%A M. N. Patel
%J Journal of Quality and Reliability Engineering
%D 2011
%R 10.1155/2011/618347
%X We derive Bayes estimators of reliability and the parameters of a two- parameter geometric distribution under the general entropy loss, minimum expected loss and linex loss, functions for a noninformative as well as beta prior from multiply Type II censored data. We have studied the robustness of the estimators using simulation and we observed that the Bayes estimators of reliability and the parameters of a two-parameter geometric distribution under all the above loss functions appear to be robust with respect to the correct choice of the hyperparameters ( ) and a wrong choice of the prior parameters ( ) of the beta prior. 1. Introduction In life testing experiments, a lot of work has been done under the continuous lifetime models. Sometimes it is neither possible nor convenient to measure the life length of an item continuously until its failure. Also failure time data is sometimes discrete either through the grouping of continuous data due to imprecise measurement or because time itself is discrete. In such circumstances one measures the life of a device on a discrete scale and considers the number of successful cycles, trials, or operations before failure. Therefore, the number of successful trials before failure is more pertinent than the time of continuous period. The one-parameter geometric distribution has an important position in discrete lifetime models. The geometric distribution can be used as a discrete failure to investigate the ability of electronic tubes to withstand successive voltage overloads and performance of electric switches, which are repeatedly turned on and off. Many authors like Yaqub and Khan [1], Patel and Gajjar [2], N. W. Patel and M. N. Patel [3] have contributed to the methodology and estimation of the parameter of the geometric distribution. Here we assume that the lifetime of certain items has a two-parameter geometric distribution with probability mass function (pmf), cumulative distribution function (cdf), and reliability, respectively, as Here , and are unknown parameters. This model is employed in situations where it is believed that death or failure cannot occur before certain cycles , where is the warranty time or threshold parameter and is the expected life of the item. One should be cautious when the model includes a threshold parameter , since the data usually does not provide enough information about and the inclusion of could cause rather special statistical problems. If the threshold parameter is known, then there is no difficulty. But if it is unknown then it must be estimated. The models with threshold
%U http://www.hindawi.com/journals/jqre/2011/618347/