Abstract
In a recent paper in this journal, Lee, Kapadia and Brock (1980) developed maximum likelihood (ML) methods for estimating the scale parameter of the Rayleigh distribution from doubly censored samples. They reported convergence difficulties in attempting to solve numerically the nonlinear likelihood equation (LE). To mitigate these difficulties, they employed approximations to simplify the LE, but found that the solution of the resulting simplified equation can give rise to parameter estimates of erratic accuracy. We show that the use of approximations to simplify the LE is unnecessary. In fact, under suitable parametric transformation, the log-likelihood function is strictly concave, the ML estimate always exists, is unique and finite. Furthermore, the LE is easy to solve numerically. A numerical example is given to illustrate the computations involved.
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References
Brent, R. P. (1973) Algorithms for Minimization without Derivatives, Prentice-Hall, Englewood Cliffs
Lee, K. R., Kapadia, C. H., Brock, D. B. (1980) On estimating the scale parameter of the Rayleigh distribution from doubly censored samples.Statistische Hefte 21: 14–29
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Wingo, D.R. Estimating the Rayleigh distribution scale parameter from doubly censored samples—Some comments. Statistical Papers 34, 271–276 (1993). https://doi.org/10.1007/BF02925547
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DOI: https://doi.org/10.1007/BF02925547