Course

Applied Statistics for Educational Researchers (DUH165)

This course is organized in several workshops and will introduce in structural equations models with growth curve modeling and autoregressive dynamic structural equations models as special applications. We will use the software packages Mplus and R.


Dette er emnebeskrivelsen for studieåret 2021-2022. Merk at det kan komme endringer.

See course description and exam/assesment information for this semester (2024-2025)

Semesters

Fakta

Emnekode

DUH165

Vekting (stp)

5

Semester undervisningsstart

Spring

Undervisningsspråk

English

Antall semestre

1

Vurderingssemester

Spring

Timeplan

Vis timeplan

Litteratur

Pensumlisten finner du i Leganto

Content

In the seminar, we will introduce Confirmative Factor Analysis (CFA) and Structural Equations Modelling (SEM) and see how Latent Growth Curve Models (LGCMs) can be understood as an extension of SEM with intercepts and/or slopes being modelled as latent variables, first as an unconditional latent curve model. We will then look at conditional LGCMs (including mediation models, cross-lagged models, hierarchical/multilevel models), and comparison of (latent) groups with different approaches of testing measurement invariance, also in the Bayesian SEM framework. This will be extended to Dynamic Structural Equation Models with autoregressive slopes (DSEM), i.e. accounting for the influence of the respective previous time points on the outcome variable (time-lagging). Those models are important to analyze intensive longitudinal data, where many observations are nested in individuals. In contrast to latent growth modelling, borrowing logic from time-series analyses DSEM is interested in the dynamics over time, in terms of autoregressive associations between the same variable at Times T (concurrent time-point) and T-1 (the previous time-point), and cross-lagged associations between variables between T and T-1. Such models are possible to implement using Maximum Likelihood with user specified lagged variables. More complex models (e.g., multiple random slopes) are possible to implement using the Bayesian estimator in Mplus.

The working format is a blending of lectures, group discussions, and hand-on analyses in Mplus/R. The last session on DSEM will be additionally streamed as a webinar and is open for a wider audience (no credits are awarded for the DSEM-webinar).

Course leader: Ulrich Dettweiler (UiS)

Instructors: Ulrich Dettweiler (UiS), Knud Knudsen (UiS), Thormod Idsøe (NUBU, UiS), Lars-Erik Malmberg (Oxford University)

Learning outcome

By completion of this course, the PhD candidate will have gained the following:

Knowledge

    • of measurement theory
    • a good understanding of multiple regression and factor analysis
    • a good understanding of hierarchical structures in data, and how to address them in analysis
    • a good understanding of SEM and LGC in complex survey data

Skills:

    • running SEM and LGC analyses in MPlus and R (optional)
    • preparing results of such analyses for publication

General competences:

    • being able to choose and apply the right analyses for the given data
    • developing advanced strategies for further research

Forkunnskapskrav

Ingen

Anbefalte forkunnskaper

Know your project and the research questions thoroughly. Get yourself acquainted with MPlus and/or R prior to the course so that you feel competent to prepare the data for import in Mplus, and know some basic syntax (chapters 1 + 2 in Muthén & Muthén). Have some datasets prepared in the right format (.dat) for MPlus or .csv in R. 

Exam

Form of assessment Weight Duration Marks Aid Exam system Withdrawal deadline Exam date
1/1 Passed / Not Passed


Evaluation will be based on the active participation and analyses performed in group work, presented in a brief paper.

Coursework requirements: Active participation in lectures and seminars at the workshop. Self-study. The students’ workload will be approximately 150 hours of work.

Vilkår for å gå opp til eksamen/vurdering

At least 80 % attendance in lectures and seminares.

Fagperson(er)

Course teacher:

Thormod Idsøe

Course teacher:

Knud Knudsen

Course coordinator:

Lene Vestad

Course teacher:

Njål Foldnes

Course teacher:

Ulrich Dettweiler

Study Program Director:

Hein Berdinesen

Course teacher:

Simona Carla Silvia Caravita

Åpent for

International and local students enrolled in a doctoral program. Max. 25 participants. WNGER II students will be prioritized up to a quote of 10.

Emneevaluering

A dialogue with the students to gain information for similar courses in the future. Final discussion with the students and concluding report from the course leader. The course will be included in the evaluation procedure of the PhD programs at the faculty.

Litteratur

Book

Mplus User’s Guide Muthén, L.K.; Muthén, B.O. , Los Angeles, CA, Muthén & Muthén, 1998-2017, https://www.statmodel.com/ugexcerpts.shtmlView online

Book

Latent curve models : a structural equation perspective Bollen, Kenneth A., Curran, Patrick J., Hoboken, N.J, Wiley-Interscience, Wiley series in probability and statistics, 2006, isbn:9780471455929,

Book

Principles and practice of structural equation modeling Kline, Rex B., New York, The Guilford Press, XVII, 534 sider, [2016], isbn:9781462523344; 9781462523351,

Book

Data analysis using regression and multilevel/hierarchical models Gelman, Andrew; Hill, Jennifer, New York ; Cambridge, Cambridge University Press, Analytical methods for social research, 2007, xxii, 625 p.isbn:9780521867061 (hbk.),

Book

Growth modeling : structural equation and multilevel modeling approaches Grimm, Kevin J.,, Ram, Nilam,; Estabrook, Ryne,, New York :, The Guilford Press, XVII, 535 s., Methodology in the social sciences, [2017]., xvii, 537 pagesisbn:9781462526062 (hbk.) :,

Book Chapter

Bayesianism vs. Frequentism in Statistical Inference Sprenger, Jan, Hájek, Alan Hitchcock, Christopher, Bayesianism vs. Frequentism in Statistical Inference, Oxford, Oxford University Press, 2016, 382-405,

Article

A gentle introduction to bayesian analysis: applications to developmental research van de Schoot, R.; Kaplan, D.; Denissen, J.; Asendorpf, J. B.; Neyer, F. J.; van Aken, M. A., Child Dev, 3, 85, 2014,May-Jun, 842-60, https://www.ncbi.nlm.nih.gov/pubmed/24116396View online

Article

Bayesian analyses: where to start and what to report van den Schoot, Rens; Depaoli, Sarah, The European Health Psychologist, 2, 16, 2014, 75-84,

Article

Intraindividual structural equation models for learning experiences Malmberg, Lars-Erik, International Journal of Research & Method in Education, 4, 43, 2020, 413-430,

Article

A primer on two-level dynamic structural equation models for intensive longitudinal data in Mplus McNeish, D.; Hamaker, E. L., Psychol Methods, 5, 25, 2020,Oct, 610-635, https://www.ncbi.nlm.nih.gov/pubmed/31855015View online

Kontakt

Course teacher:

Thormod Idsøe

Course teacher:

Knud Knudsen

Course coordinator:

Lene Vestad

Course teacher:

Njål Foldnes

Course teacher:

Ulrich Dettweiler

Study Program Director:

Hein Berdinesen

Course teacher:

Simona Carla Silvia Caravita

Tilbys av

Faculty of Arts and Education

Centre for Learning Environment

The course description is retrieved from FS (Felles studentsystem). Version 1