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Multivariate generalized linear mixed models using R

By: Material type: TextTextPublication details: London CRC Press 2015Description: xxi, 280 p. 24 cm; Hard CoverISBN:
  • 9781439813263
Subject(s): DDC classification:
  • 003.35133 BER
Contents:
Introduction Generalized Linear Models for Continuous/Interval Scale Data Introduction Continuous/interval scale data Simple and multiple linear regression models Checking assumptions in linear regression models Likelihood: multiple linear regression Comparing model likelihoods Application of a multiple linear regression model Generalized Linear Models for Other Types of Data Binary data Ordinal data Count data Family of Generalized Linear Models Introduction The linear model Binary response models Poisson model Likelihood Mixed Models for Continuous/Interval Scale Data Introduction Linear mixed model The intraclass correlation coefficient Parameter estimation by maximum likelihood Regression with level-two effects Two-level random intercept models General two-level models including random intercepts Likelihood Residuals Checking assumptions in mixed models Comparing model likelihoods Application of a two-level linear model Two-level growth models Likelihood Example on linear growth models Mixed Models for Binary Data Introduction The two-level logistic model General two-level logistic models Intraclass correlation coefficient Likelihood Example on binary data Mixed Models for Ordinal Data Introduction The two-level ordered logit model Likelihood Example on mixed models for ordered data Mixed Models for Count Data Introduction The two-level Poisson model Likelihood Example on mixed models for count data Family of Two-Level Generalized Linear Models Introduction The mixed linear model Mixed binary response models Mixed Poisson model Likelihood Three-Level Generalized Linear Models Introduction Three-level random intercept models Three-level generalized linear models Linear models Binary response models Likelihood Example on three-level generalized linear models Models for Multivariate Data Introduction Multivariate two-level generalized linear model Bivariate Poisson model: Example Bivariate ordered response model: Example Bivariate linear-probit model: Example Multivariate two-level generalized linear model likelihood Models for Duration and Event History Data Introduction Duration data in discrete time Renewal data Competing risk data Stayers, Non-Susceptibles, and Endpoints Introduction Mover-stayer model Likelihood with mover-stayer model Example 1: Stayers in Poisson data Example 2: Stayers in binary data Handling Initial Conditions/State Dependence in Binary Data Introduction to key issues: heterogeneity, state dependence and non-stationarity Motivational example Random effects model Initial conditions problem Initial treatment of initial conditions problem Example: Depression data Classical conditional analysis Classical conditional model: Depression example Conditioning on initial response but allowing random effect u0j to be dependent on zj Wooldridge conditional model: Depression example Modeling the initial conditions Same random effect in the initial response and subsequent response models with a common scale parameter Joint analysis with a common random effect: Depression example Same random effect in models of the initial response and subsequent responses but with different scale parameters Joint analysis with a common random effect (different scale parameters): Depression example Different random effects in models of the initial response and subsequent responses Different random effects: Depression example Embedding the Wooldridge approach in joint models for the initial response and subsequent responses Joint model plus the Wooldridge approach: Depression example Other link functions Incidental Parameters: An Empirical Comparison of Fixed Effects and Random Effects Models Introduction Fixed effects treatment of the two-level linear model Dummy variable specification of the fixed effects model Empirical comparison of two-level fixed effects and random effects estimators Implicit fixed effects estimator Random effects models Comparing two-level fixed effects and random effects models Fixed effects treatment of the three-level linear model Appendix A: SabreR Installation, SabreR Commands, Quadrature, Estimation, Endogenous Effects Appendix B: Introduction to R for Sabre Bibliography Exercises appear at the end of most chapters.
Summary: Multivariate Generalized Linear Mixed Models Using R presents robust and methodologically sound models for analyzing large and complex data sets, enabling readers to answer increasingly complex research questions. The book applies the principles of modeling to longitudinal data from panel and related studies via the Sabre software package in R. A Unified Framework for a Broad Class of Models The authors first discuss members of the family of generalized linear models, gradually adding complexity to the modeling framework by incorporating random effects. After reviewing the generalized linear model notation, they illustrate a range of random effects models, including three-level, multivariate, endpoint, event history, and state dependence models. They estimate the multivariate generalized linear mixed models (MGLMMs) using either standard or adaptive Gaussian quadrature. The authors also compare two-level fixed and random effects linear models. The appendices contain additional information on quadrature, model estimation, and endogenous variables, along with SabreR commands and examples. Improve Your Longitudinal Study In medical and social science research, MGLMMs help disentangle state dependence from incidental parameters. Focusing on these sophisticated data analysis techniques, this book explains the statistical theory and modeling involved in longitudinal studies. Many examples throughout the text illustrate the analysis of real-world data sets. Exercises, solutions, and other material are available on a supporting website. Share this Title Recommend to Librarian Related Titles 1 of 8 Generalized Latent Variable Modeling: Multilevel, Longitudinal, and Structural Equation Models
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Introduction

Generalized Linear Models for Continuous/Interval Scale Data
Introduction
Continuous/interval scale data
Simple and multiple linear regression models
Checking assumptions in linear regression models
Likelihood: multiple linear regression
Comparing model likelihoods
Application of a multiple linear regression model

Generalized Linear Models for Other Types of Data
Binary data
Ordinal data
Count data

Family of Generalized Linear Models
Introduction
The linear model
Binary response models
Poisson model
Likelihood

Mixed Models for Continuous/Interval Scale Data
Introduction
Linear mixed model
The intraclass correlation coefficient
Parameter estimation by maximum likelihood
Regression with level-two effects
Two-level random intercept models
General two-level models including random intercepts
Likelihood
Residuals
Checking assumptions in mixed models
Comparing model likelihoods
Application of a two-level linear model
Two-level growth models
Likelihood
Example on linear growth models

Mixed Models for Binary Data
Introduction
The two-level logistic model
General two-level logistic models
Intraclass correlation coefficient
Likelihood
Example on binary data

Mixed Models for Ordinal Data
Introduction
The two-level ordered logit model
Likelihood
Example on mixed models for ordered data

Mixed Models for Count Data
Introduction
The two-level Poisson model
Likelihood
Example on mixed models for count data

Family of Two-Level Generalized Linear Models
Introduction
The mixed linear model
Mixed binary response models
Mixed Poisson model
Likelihood

Three-Level Generalized Linear Models
Introduction
Three-level random intercept models
Three-level generalized linear models
Linear models
Binary response models
Likelihood
Example on three-level generalized linear models

Models for Multivariate Data
Introduction
Multivariate two-level generalized linear model
Bivariate Poisson model: Example
Bivariate ordered response model: Example
Bivariate linear-probit model: Example
Multivariate two-level generalized linear model likelihood

Models for Duration and Event History Data
Introduction
Duration data in discrete time
Renewal data
Competing risk data

Stayers, Non-Susceptibles, and Endpoints
Introduction
Mover-stayer model
Likelihood with mover-stayer model
Example 1: Stayers in Poisson data
Example 2: Stayers in binary data

Handling Initial Conditions/State Dependence in Binary Data
Introduction to key issues: heterogeneity, state dependence and non-stationarity
Motivational example
Random effects model
Initial conditions problem
Initial treatment of initial conditions problem
Example: Depression data
Classical conditional analysis
Classical conditional model: Depression example
Conditioning on initial response but allowing random effect u0j to be dependent on zj
Wooldridge conditional model: Depression example
Modeling the initial conditions
Same random effect in the initial response and subsequent response models with a common scale parameter
Joint analysis with a common random effect: Depression example
Same random effect in models of the initial response and subsequent responses but with different scale parameters
Joint analysis with a common random effect (different scale parameters): Depression example
Different random effects in models of the initial response and subsequent responses
Different random effects: Depression example
Embedding the Wooldridge approach in joint models for the initial response and subsequent responses
Joint model plus the Wooldridge approach: Depression example
Other link functions

Incidental Parameters: An Empirical Comparison of Fixed Effects and Random Effects Models
Introduction
Fixed effects treatment of the two-level linear model
Dummy variable specification of the fixed effects model
Empirical comparison of two-level fixed effects and random effects estimators
Implicit fixed effects estimator
Random effects models
Comparing two-level fixed effects and random effects models
Fixed effects treatment of the three-level linear model

Appendix A: SabreR Installation, SabreR Commands, Quadrature, Estimation, Endogenous Effects
Appendix B: Introduction to R for Sabre


Bibliography

Exercises appear at the end of most chapters.

Multivariate Generalized Linear Mixed Models Using R presents robust and methodologically sound models for analyzing large and complex data sets, enabling readers to answer increasingly complex research questions. The book applies the principles of modeling to longitudinal data from panel and related studies via the Sabre software package in R.

A Unified Framework for a Broad Class of Models
The authors first discuss members of the family of generalized linear models, gradually adding complexity to the modeling framework by incorporating random effects. After reviewing the generalized linear model notation, they illustrate a range of random effects models, including three-level, multivariate, endpoint, event history, and state dependence models. They estimate the multivariate generalized linear mixed models (MGLMMs) using either standard or adaptive Gaussian quadrature. The authors also compare two-level fixed and random effects linear models. The appendices contain additional information on quadrature, model estimation, and endogenous variables, along with SabreR commands and examples.

Improve Your Longitudinal Study
In medical and social science research, MGLMMs help disentangle state dependence from incidental parameters. Focusing on these sophisticated data analysis techniques, this book explains the statistical theory and modeling involved in longitudinal studies. Many examples throughout the text illustrate the analysis of real-world data sets. Exercises, solutions, and other material are available on a supporting website.

Share this Title

Recommend to
Librarian
Related Titles
1 of 8

Generalized Latent Variable Modeling: Multilevel, Longitudinal, and Structural Equation Models

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