
Accession Number : ADA294274
Title : Modified GoodnessOfFit Tests For The Inverse Gaussian Distribution With Two Unknown Parameter.
Descriptive Note : Master's thesis,
Corporate Author : AIR FORCE INST OF TECH WRIGHTPATTERSON AFB OH SCHOOL OF ENGINEERING
Personal Author(s) : Guenes, Hueseyin
PDF Url : ADA294274
Report Date : MAR 1995
Pagination or Media Count : 339
Abstract : Modified Kolmogorov Smirnov (KS), AndersonDarling (AD), Cramervon Mises (CV), Kupier (V), and Watson (W) goodnessoffit tests are generated for the inverse Gaussian distribution with unknown parameters. The inverse Gaussian parameters are estimated by maximum likelihood estimation. A Monte Carlo simulation of 50,000 repetitions is used to generate critical values for sample sizes of 5 through 50 with an increment of five, sample sizes of 60 through 100 with an increment of 10, and 24 different values of the inverse Gaussian shape parameter. A 50,000repetition Monte Carlo power study is carried out using data with sample sizes of 5 through 100 from five alternate distributions for the five EDF tests for significance levels of 0.01,0.05,0.10, 0.15, and 0.20. For sequential tests, power studies are performed for the significance levels produced by combining two EDF tests. Power studies corresponding two both cases are presented in tables and graphs. The power studies showed that the tests arc excellent in discriminating between the inverse Gaussian and distributions such as the gamma, exponential and uniform that are very different in shape. However, they are relatively unable to discriminate between the inverse Gaussian distribution and distributions that are similar in shape such as the lognormal and certain Weibull distributions with shape similar to the particular inverse Gaussian. The AD test has the highest power in most cases studied. A functional relationship is identified between the modified KS, AD, CV, V, and W test statistics, sample size, and the inverse Gaussian shape parameter. The critical values are found to be a nonlinear function of the shape parameters and sample sizes for the significance levels of 0.01, 0.05, 0.10, 0.15, and 0.20.
Descriptors : *INVERSION, *NORMAL DISTRIBUTION, *GOODNESS OF FIT TESTS, HIGH POWER, SIMULATION, WEIBULL DENSITY FUNCTIONS, PARAMETERS, MAXIMUM LIKELIHOOD ESTIMATION, STATISTICAL TESTS, GRAPHS, THESES, MONTE CARLO METHOD, SEQUENTIAL ANALYSIS, NONLINEAR SYSTEMS, POWER, VALUE.
Subject Categories : Statistics and Probability
Distribution Statement : APPROVED FOR PUBLIC RELEASE