CudeckR.HarringJ. R. (2010). Developing a random coefficient model for nonlinear repeated measures data. In ChowS. M.FerrerE.HsiehF. (Eds.), Statistical methods for modeling human dynamics: An interdisciplinary dialogue (pp. 239-318). New York, NY: Routledge.
2.
CudeckR.KlebeK. J. (2002). Multiphase mixed-effects models for repeated measures data. Psychological Methods, 7, 41-63.
3.
du ToitS. H. C.CudeckR. (2009). Estimation of the nonlinear random coefficient model when some random effects are separable. Psychometrika, 74, 65-82.
4.
EverittB. S.HandD. J. (1981). Finite mixture distributions. New York, NY: Chapman & Hall.
5.
FitzmauriceG. M.LairdN. M.WareJ. H. (2011). Applied longitudinal analysis (2nd ed.). New York, NY: Wiley.
6.
HarringJ. R. (2012). Finite mixtures of nonlinear mixed-effects models. In HarringJ. R.HancockG. R. (Eds.), Advances in longitudinal methods in the social and behavioral sciences (pp. 159-191). Charlotte, NC: Information Age Publishing.
7.
HippJ. R.BauerD. J. (2006). Local solutions in the estimation of growth mixture models. Psychological Methods, 11, 36-53.
8.
KohliN.HarringJ. R.ZopluogluC. (under review). A finite mixture of nonlinear random coefficient models for continuous repeated measures data.
9.
MuggeoV. M. R. (2008). segmented: An R Package to fit regression models with broken-line relationships. R News, 8, 1, 20-25. Retrieved from http://cran.r-project.org/doc/Rnews/
10.
R Core Team. (2013). R: A language and environment for statistical computing [Computer software]. Vienna, Austria: R Foundation for Statistical Computing. Available from http://www.R-project.org
11.
TitteringtonD. M.SmithA. F. M.MakovU. E. (1985). Statistical analysis of finite mixture distributions. Chichester, England: Wiley.
