Abstract
In this article, we describe a Bayesian approach for the estimation of probability distribution of a discrete random variable (rv) with correlated classes under finite sample space. We utilize general benefits of Bayesian approaches within the context of estimation of probability distributions under finite sample space. In our approach, a tractable posterior distribution is obtained; and hence, posterior inferences are easily drawn by using the Gibbs sampling. Possible prior correlations between adjacent categories of the considered discrete rv are suitably modeled. The proposed approach takes into account all available information contained in successive samples as a natural consequence of using Bayes’s theorem. It is beneficial in the estimation of probability distributions for compositional data sets observed in longitudinal studies. We analyze two bar charts from two health surveys in Italy for illustrative purposes and apply our approach to a data set from general elections of Turkey.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Argiento R, Guglielmi A, Pievatolo A (2014) Estimation, prediction and interpretation of NGG random effects models: an application to Kevlar fibre failure times. Stat Pap 55:805–826
Box G, Tiao C (1973) Bayesian inference in statistical analysis. Addison-Wesley, London
Branscum A, Hanson T, Gardner I (2008) Bayesian non-parametric models for regional prevalence estimation. J Appl Stat 35:567–582
Christensen R, Johnson W, Branscum A, Hanson T (2010) Bayesian ideas and data analysis: an introduction for scientists and statisticians. Chapman and Hall/CRC, New York
Conti S, Farchi G, Minelli G, Buiatti E, Balzi D, Arniani S, Naldoni P, Gargiulo L, Gianicolo E, Sabbadini L (2007) Health observation compared to health reporting findings from a pilot study in florence. Ann Epidemiol 17:999–1003
Demirhan H (2013) Bayesian estimation of order-restricted and unrestricted association models. J Multivar Anal 121:109–126
Demirhan H, Hamurkaroglu C (2006) A Bayesian approach to the estimation of expected cell counts by using log linear models. Commun Stat—Theor M 35:325–335
Demirhan H, Hamurkaroglu C (2008) Bayesian estimation of log odds ratios from \({R} \times {C}\) and \(2 \times 2 \times {K}\) contingency tables. Stat Neerl 62:405–512
Dickey J, Jiang T (1998) Filtered-variate prior distributions for histogram smoothing. J Am Stat Assoc 93:651–662
Gelman A (1996) Inference and monitoring convergence. Markov chain Monte Carlo in practice. Chapman and Hall/CRC, London
Hanson T, Jara A (2013) Surviving fully Bayesian nonparametric regression models. Bayesian theory and applications. Oxford University Press, Oxford, pp 592–615
Hupkens C, van den Berg J, van der Zee J (1999) National health interview surveys in europe: an overview. Health Policy 47:145–168
Kaynar M (2007) Political parties of Republic period of 1923–2006 (Cumhuriyet Donemi Siyasi Partileri 1923–2006). Imge, Ankara
King R, Brooks S (2001) Prior induction in log-linear models for general contingency table analysis. Ann Stat 29:715–747
Leonard T (1973) Bayesian method for histograms. Biometrika 60:297–308
Leonard T (1978) Density estimation, stochastic processes and prior information. J Roy Stat Soc 40:113–146
Mostofi A, Kharrati-Kopaei M (2012) Bayesian nonparametric inference for unimodal skew-symmetric distributions. Stat Pap 53:821–832
Petrone S (1999) Bayesian density estimation using Bernstein polynomials. Can J Stat 27:105–126
Rodrigues P, Lima A (2009) Analysis of an european union election using principal component analysis. Stat Pap 50:895–904
Thorburn D (1986) A Bayesian approach to density estimation. Biometrika 73:65–75
Titterington D (1985) Common structure of smoothing techniques in statistics. Int Stat Rev 53:141–170
Acknowledgments
We would like to thank two anonymous reviewers and editor for constructive criticisms and valuable comments that improved the clarity of the article.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Demirhan, H., Demirhan, K. A Bayesian approach for the estimation of probability distributions under finite sample space. Stat Papers 57, 589–603 (2016). https://doi.org/10.1007/s00362-015-0669-z
Received:
Revised:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00362-015-0669-z