Multilevel Modeling is designed to provide graduate students with a practical, applied approach to the clustered and/or longitudinal data. Students will learn how to differentiate and appropriately select the best statistical methods for use in various research designs and analytical problems. This includes Multilevel Modeling (MLM), which also goes by such names as Hierarchical Linear Modeling (HLM) and Mixed Effects Regression (MER), Generalized Multilevel Modeling (GzMLM), and Generalized Estimating Equations (GEE).
Focus
Mastery of the material covered in this course will enable students to develop the skills necessary to conduct well-planned behavioral and educational research involving clustered or longitudinal designs, and thoughtful statistical analyses of the resulting data. Knowledge gained in this course will build upon concepts learned in prior research methodology and data analysis courses. Students will learn how to differentiate and appropriately select the best statistical methods for use in various clustered or longitudinal research designs.
As the theoretical is secondary to the applied approach to data analysis in this course, students will learn how to:
Use the
R
statistical programming environment (via theR Studio
IDE) to analyze clustered and longitudinal data andInterpret and communicate the results of their analyses (including creating reproducible research reports with R Markdown).
This course will only emphasize methods for manifest or observed, rather than latent or unobserved, variables.
Successful completion of EDUC/PSY 7610 or an equivalent course in single level multiple linear regression is required.
Structure
This is a lecture and applied skills course and students will be expected to demonstrate their learning via classroom participation, written assignments, and a presentation. Much of the basic material will be presented in readings (textbook and supplements) and pre-recorded lectures which students will view prior to class. The purpose of class time (on Zoom) is to elaborate on interesting or difficult material presented in the text, conduct skill-building exercises and demonstrations, and to provide a forum for class discussions in more of a lab fashion. We will frequently use a hands-on approach in class, working through analyses together via computer software.
Syllabus
Resources
Textbooks
- Multilevel Analysis: Techniques and Applications, 3rd edition (2018), by Joop J. Hox, Mirjam Moerbeek, and Rens van de Schoot
USU library: Free, with USU login
Amazon: purchase, new or used
- Publication Manual of the APA: The Official Guide to APA Style, 7th edition (2020)
- Amazon: purchase new
Encyclopedia
Volume 0. Setting up Your Computer
Volume 1. Wrangling Your Data
Volume 2. Exploring Your Data
Volume 3. Testing Mean Differences
Volume 4. Correlation & Regression
Volume 5. Multilevel & Marginal Modeling
YouTube
- Sarah Schwartz Stats LINK
OBJECTIVES
Methodological issues in the design of clustered and longitudinal studies
A. Characterize different types of sampling and how they determine analysis type and interpretation
B. Evaluate sample size and power in longitudinal designs
C. Understand the effect of attrition/missing data on results
D. Know what is meant by clustering and how clustered differ from non-clustered analyses
E. Differentiate between long and short data formats
Generalized linear models: Logistic, Poisson, and multinomial regression (GLM)
A. Understand the mathematical fundamentals
B. Know how to properly conduct analyses using R
C. Competently interpret results
Mixed-effects or multi-level longitudinal models (MLM, HLM, ect.)
A. In the context of these methods, define and know how to specify:
1. Fixed effects 2. Random effects 3. Variance components 4. Time-varying covariates 5. Time-invariant covariates 6. Polynomial covariates 7. Dummy variables 8. Level 1, 2, etc. in multilevel models
B. Learn how to use/program R to conduct clustered or longitudinal analyses
C. Interpret output from statistical software in terms of change over time, group differences, individual differences, and change over time as a function of both group or individual differences
Generalized estimating equations (GEE, marginal models)
A. Differentiate between population averaged and subject-specific models
B. Conduct analyses with R
C. Know how to interpret results at the population-averaged or individual level
Competency in use of statistical software (e.g., R and R Studio)
A. Data manipulation
B. Data analysis
C. Interpreting output
D. Graphics
E. R Markdown Reports (Knit to html, pdf, and word)
Develop skills in reporting of statistical results (APA format)
A. Master the basics of communicating results of clustered or longitudinal research
B. Learn how to create tables and figures for presentations