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dc.contributor.authorIslam, Ali S
dc.identifier.citationDoctor of Philosophyen
dc.description.abstractData in the form of proportions arise in toxicology (Weil, 1970; Williams, 1975) and other similar fields (Crowder, 1978; Otake and Prentice, 1984). These proportions often exhibit variation greater than predicted by a simple binomial model. Several parametric models such as the beta-binomial (BB) (Skellam, 1948), the correlated binomial (Kuper and Haseman, 1978) and the additive and multiplicative binomial models (Altham, 1974) are available for analysing binomial data with over dispersion. Of these the correlated binomial and the additive binomial models are identical. The superiority of the beta-binomial model for the analysis of proportions has been shown by many authors (Paul, 1982; Pack, 1986). The joint estimation of the mean and the dispersion or the intraclass correlation parameters is important in the over/under dispersed binomial data. The computation of the maximum likelihood estimates is quite intensive and not robust to variance misspecification. We consider 'several semi-parametric models as an alter- native approach recently developed in the context of correlated binary data, which require assumption on the form of only the mean and variance. We study large and small sample efficiency of the mean and the intraclass correlation parameters. An important problem is to compare proportions of a certain characteristic in several groups. A common test in these type of to compare the proportion in a control group with that ~ in a treatment group. A number of parametric and , non-parametric procedures are available for testing homogeneity of proportions in the presence of over dispersion. Of these, the likelihood ratio test based on the beta-binomial model has found prominence in the literature (Pack, 1986(a)). We consider procedures for testing the homogeneity of proportions in the presence of a common dispersion parameter. We develop C(o:) (Neyman, 1959) or score type tests (Rao, 1947) based on a parametric model; namely, the extended beta-binomial model (Prentice, 1986) and two semi-parametric models using the quasi-likelihood (Wedderburn, 1974) and the extended quasi-likelihood (NeIder and Pregibon, 1987). We also derive a C( 0:) test using empirical variance based on quasi-likelihood. These procedures and a recent procedure by Rao and Scott (1992), based on the concept of design effect and effective sample size, are compared, through simulations in terms of size, power and robustness for departure from data distribution and dispersion homogeneity. To study robustness in terms of departure from data distribution, i.e., departure from the beta-binomial distribution, we simulate data from the betabinomial distribution, the probit normal binomial distribution and the logit normal binomial distribution. Further, we develop C( 0:) tests for testing the assumption of a common dispersion parameter based on semi-parametric models. In some cases the assumption of a common dispersion parameter might not be tenable. A C( 0:) test is derived for testing the homogeneity of proportion with unequal dispersion parameters based on semi-parametric models.en
dc.description.sponsorshipUniversity of Nairobien
dc.titleParametric and semi-parametric models for the analysis of proportions in presence of over/under dispersionen
local.publisherDepartment of Mathematic and Statisticsen

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