Mapping QTL controlling count traits with excess zeros and ones using a zero-and-one-inflated generalized Poisson regression model
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Publication:6625455
DOI10.1002/bimj.202200342zbMATH Open1547.62186MaRDI QIDQ6625455
Jimin Ye, Jinling Chi, Ying Zhou
Publication date: 28 October 2024
Published in: Biometrical Journal (Search for Journal in Brave)
score testexpectation-maximization algorithmquantitative trait locus mappingzero-and-one-inflated count datazero-and-one-inflated generalized Poisson model
Cites Work
- Unnamed Item
- Generalized poisson regression model
- Score tests for zero-inflation and overdispersion in two-level count data
- Two-part zero-inflated negative binomial regression model for quantitative trait loci mapping with count trait
- A Bayesian analysis of zero-inflated generalized Poisson model
- A score test for zero-inflation in multilevel count data
- Score tests for zero-inflated generalized Poisson mixed regression models
- On the convergence properties of the EM algorithm
- Score tests for zero-inflated Poisson models
- Properties of the zero-and-one inflated Poisson distribution and likelihood-based inference methods
- A zero-and-one inflated Poisson model and its application
- Zero-inflated generalized Poisson regression mixture model for mapping quantitative trait loci underlying count trait with many zeros
- Zero-and-one-inflated Poisson regression model
- Multivariate zero-and-one inflated Poisson model with applications
- Statistical genetics of quantitative traits. Linkage, maps, and QTL.
- Zero-Inflated Poisson Regression, with an Application to Defects in Manufacturing
- Restricted generalized poisson regression model
- The monte carlo newton-raphson algorithm
- A Score Test for Zero Inflation in a Poisson Distribution
- Zero-Inflated Negative Binomial Mixed Regression Modeling of Over-Dispersed Count Data with Extra Zeros
- Bayesian interval mapping of count trait loci based on zero‐inflated generalized Poisson regression model
- Bayesian Generalized Additive Models for Location, Scale, and Shape for Zero-Inflated and Overdispersed Count Data
- A General Statistical Framework for Unifying Interval and Linkage Disequilibrium Mapping
- Statistical inference for zero-and-one-inflated poisson models
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