2010-12-30
Hurdle models for multilevel zero-inflated data via h-likelihood
Publication
Publication
Statistics in Medicine , Volume 29 - Issue 30 p. 3294- 3310
Count data often exhibit overdispersion. One type of overdispersion arises when there is an excess of zeros in comparison with the standard Poisson distribution. Zero-inflated Poisson and hurdle models have been proposed to perform a valid likelihood-based analysis to account for the surplus of zeros. Further, data often arise in clustered, longitudinal or multiple-membership settings. The proper analysis needs to reflect the design of a study. Typically random effects are used to account for dependencies in the data. We examine the h-likelihood estimation and inference framework for hurdle models with random effects for complex designs. We extend the h-likelihood procedures to fit hurdle models, thereby extending h-likelihood to truncated distributions. Two applications of the methodology are presented. Copyright
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| doi.org/10.1002/sim.3852, hdl.handle.net/1765/27821 | |
| Statistics in Medicine | |
| Organisation | Erasmus MC: University Medical Center Rotterdam |
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Molas, M., & Lesaffre, E. (2010). Hurdle models for multilevel zero-inflated data via h-likelihood. Statistics in Medicine, 29(30), 3294–3310. doi:10.1002/sim.3852 |
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