Nidhi Kohli

Royal and Virginia Anderson Professor of Quantitative Methods in Education; Program Coordinator

Educational Psychology
166 Education Sciences Bldg.
56 East River Road
Minneapolis, MN 55455
612-624-9001
nkohli@umn.edu
Download Curriculum Vitae [PDF]

Areas of interest

Statistical models for longitudinal data (random effects models, latent growth curve models, and growth mixture models)
Monte Carlo simulation studies
Model fit evaluation
Development and validation of new scales/instruments

I am currently accepting doctoral students in the Quantitative Methods in Education (QME) program. Students with research interests that align with mine are encouraged to apply, including students whose research interests fit broadly under the umbrella of the topics above.

Degrees

PhD, University of Maryland, 2011
MEd, University of Nevada, 2006

Biography

I joined the Department of Educational Psychology in 2012, after doing a postdoctoral research fellowship at Palo Alto Medical Foundation Research Institute working with massive Electronic Health Record (EHR) data. My research focuses on the development and improvement of statistical methods for analyzing educational, psychological, and more generally social and behavioral sciences data, particularly longitudinal (measures repeated on the same individuals over time) data. In the methodological framework, I predominantly work in the areas of latent growth curve modeling, mixed-effects modeling, and growth mixture modeling. The core agenda of my methodological research is to better understand nonlinear relationships among observed and latent variables using state-of-the-art latent variable methods, especially nonlinear mixed-effects models and its variants, and nonlinear structural equation models (e.g., piecewise growth models). The aim of this work is to move the educational statistics literature forward and provide researchers and practitioners the theoretical underpinnings and empirical guidance to utilize these methods to address important substantive questions in education, psychology, and human development.

Visit my research website, Longitudinal Methods Development Lab, for more information.

Courses I teach

EPsy 8282 - Statistical Analysis of Longitudinal Data
EPsy 8266 - Statistical Analysis Using Structural Equation Methods

Publications

Selected publications. Complete list available at Experts@Minnesota and Google Scholar

*Indicates current and former students mentored or supervised by Dr. Kohli.

Davison, M. L., Chung, S., Kohli, N., & Davenport, E. C. (in press, 2024). A multidimensional model to facilitate within person comparison of attributes. Psychometrika. DOI: https://doi.org/10.1007/s11336-023-09946-1

*Choi, S., McMaster, K., Kohli, N., Shanahan, E., Birinci, S., An, Jechun., Duesenberg, M., & Lembke, E. (in press, 2024). Longitudinal effects of data-based instructional changes for students with intensive learning need: A piecewise linear-linear mixed effects modeling approach. Journal of Educational Psychology. DOI: https://doi.org/10.1037/edu0000853

*Rohloff, C. T., Kohli, N., & Lock, E. F. (2024). Identifiability and estimability of Bayesian linear and nonlinear crossed random effects models. British Journal of Mathematical & Statistical Psychology, 77(2), 375–394.

Gunderson, J., Symons, F., Kohli, N., Grzadzinski, R., Burrows, C., Estes, A. M., Dager, S., Piven, J., & Wolff, J. (2024). Longitudinal analysis of sensory responsivity from infancy to school age in children at high and low familial likelihood for autism. Journal of Child Psychology and Psychiatry (JCPP) Advances, e12227. DOI: https://doi.org/10.1002/jcv2.12227

*Peralta, Y., Kohli, N., Kendeou, P., Davison, M. L., & Lock, E. F. (in press, 2023). Modeling the interrelation of reading and mathematics achievement trajectories: Is their development intertwined? Reading and Writing. DOI: https://doi.org/10.1007/s11145-023-10442-2

*Zhang, Z., *Rohloff, C. T., & Kohli, N. (2023). Model fit indices for random effects models: Translating model fit ideas from latent growth curve models. Structural Equation Modeling: A Multidisciplinary Journal, 30(5), 822–830.

*Rohloff, C. T., Kohli, N., & Chung, S. (2023). The impact of functional form complexity on model overfitting for nonlinear mixed-effects models. Multivariate Behavioral Research, 58(4), 723–742.