Anonymous posted on Tuesday, February 25, 2003 - 11:05 pm
Dear Linda & Bengt,
I have used LGM to model children´s academic skill development over a five-year period (one measurement during each year). In this context, I am particularly interested in to examine the extent to which children´s initial status (level of skill at the baseline) is related with their growth rate (linear / linear and quadratic trends). Consequently, I have fixed the first loading on the slope factor as zero. If I have understood right, the centering point defines the interpretation of the intercept factor. This is clear.
Now, however, I have found arguments (mainly in HLM litarature) that centering at the first time point is not 'the ideal choice' because it produces high correlation between the intercept and slope. In contrast, centering in the middle have been suggested to have various desirable effects. I am little bit confused. I thought that centering at different time points change the interpretation of the results concerning the intercept (including the covariance between the intercept and the slope) rather than validate those. I would appreciate any clarification on this issue. (1) Is there any reason to test the same model with different centering points if I am only interested in how the initial status is associated with the growth rate? (2) Are there any differences in this issue between HLM and LGM? (3) Does quadratic term anything to do with this? (4) What are the benefits to center at the middle, or are there any?
There is a difference between how HLM and LGM handles time scores. In HLM, time scores are treated as data whereas in LGM, time scores are treated as parameters. When time scores are treated as data, the problems that you have been reading about are seen particularly with quadratic growth. When time scores are parameters, these problems are not seen. This is discussed in the following paper:
Muthén, B. & Curran, P. (1997). General longitudinal modeling of individual differences in experimental designs: A latent variable framework for analysis and power estimation. Psychological Methods, 2, 371-402.
I have run 8 occasion growth models of self-perception with a time-varying predictor of depression.
To insure the level-1 effect of depression is truly within-person and not contaminated by BP differences in depression, I centered the depression scores.
If I pick an occasion and center other occasion scores on that occasion's depression level, letting the BP differences be carried at level-2 by the depression score for the year I pick, and the level-1 offsets from this score capture the WP fluctuations in depression - the model runs fine.
However there is no reason to pick any particular year. It seems more reasonable to compute the mean level of depression for each individual and center each individual's scores on that, where the mean is used for BP differences at level-2 and the time-varying mean-offsets capture WP at level-1.
But this model does not run successfully because of the linear dependancy between the mean and the set of ofsets. - we get a poorly conditioned matrix.
"THE MODEL ESTIMATION DID NOT TERMINATE NORMALLY DUE TO A NON-POSITIVE DEFINITE FISHER INFORMATION MATRIX."
It does run if I leave out one year to eliminate the linear dependancy.
IS there an estimator that is insensitive to the condition of the information matrix? I tried ML, MLR, MLF. (All variables are continuious.)
This model does run in MLR framework in traditional packages.
Please send the files and your license number to email@example.com. Also, specify what you mean by "This model does run in MLR framework in traditional packages." How does this differ from what you are doing.
HI Linda, I am not free to send this model and data due to a consulting agreement, but I can illustrate.
Consider Ex#6.10 in manual. This LGM has time-invariant and time-varying covariates.
If I wanted to follow general recommendation in books by Singer&Willett or Raudenbusch, and mean-center the TV covariate within person, I would recompute a31-a34 as deviations from the mean of a31-a34 for each person.
While this is not a problem in MLR (tall file) analyses, it is a problem in LGM/SEM because a31-a34 now sum to zero for each person.
In the data for Ex#6.10, which has no missing, I get a warning "WARNING: THE SAMPLE COVARIANCE OF THE INDEPENDENT VARIABLES IS SINGULAR. PROBLEM INVOLVING VARIABLE A34C" - which makes sense since there is a dependency. BUT - the model does terminate normally, and gives almost identical estimates achieved with equivalent specification in SPSS Mixed.
In my dataset, with more occ and missing data, I get the different warning about FISHER quoted above, and no SEs.
I am asking if there is an estimator, integration technique, or tolerance setting, or something that permits person mean-centering to be estimated in MPlus.
I just centered the time-varying covariates in Example 6.10, and I do not get any message. It is not possible to answer your questions without more information. These messages can be caused by a variety of problems.
I will have sent my Ex#6 output to the support email.
Whether I compute the mean-centered covariates in MPlus with DEFINE, or outside of MPLUS. The result is the same.
Since the tv-covariates now sum to zero, the message about the singular matrix makes sense. This ex#6 model does run, but once missing data is in the picture the model does not run.
I suspect person mean-centering just cannot be done in SEM framework.
Kerry Lee posted on Tuesday, June 18, 2013 - 8:29 pm
Dear Dr.s Muthen,
I am trying to fit a growth model on a latent construct from four waves of data. The latent is indicated by three observed variables at each wave.
When I first ran an associative model without random intercept or slope, the model converged, but the latent from one wave was correlated with the others at r > 1. Having done the due diligence regarding equality of factor loadings and intercepts, I found that a growth model with random intercept and slope would not converge. It did converge when I recentred from the first to the last time-point.
My question is why does recentering aid in convergence? Although not explicitly modelled, TECH 4 indicates that the latent was still correlated with the others at r >1. This seems to indicate that recentering did not "fix" the collinearity problem.
Peter Lekkas posted on Thursday, December 10, 2015 - 3:07 am
Dear Drs Muthen I aim to use a time-varying covariate - 'a'- in a LGCM. Moreover, I aimed to center this time-varying covariate around the grand mean of all observations such that the GMC time-varying covariate is calculated by subtracting the GM of all observations from each observation 'a' at time 't' for person 'i'. Given this, is the applicable statement >= CENTER a1-a3 (GRANDMEAN); Or, does this statement only generate a 'within-occasion' GMC adjusted covariate?
Grandmean uses the overall mean for that covariate, so it is occasion-specific.
Peter Lekkas posted on Thursday, December 10, 2015 - 7:31 pm
Thank you Bengt. I remain confused. If within the context of LGCM, the advice for centering a time-varying covariate is to 'center' it around "one common mean" (David Kenny; Betsy Coach), and the covariate has been measured at say x3 occasions (e.g.a1, a2, a3), then what statement would be used to generate this GMC time-varying covariate using the one-common" grand mean of "all" person-time observations? Or, is it the case that one only needs to GMC within each measurement occasion of the time-varying covariate based only on the occasion-specific mean?
I compared the estimates for a LGCM both with and without mean-centered predictors that are part of an interaction term, checking whether the estimates changed for the main effects to make sure I did it right. Estimates under "Model Results" are identical, except for "I" and "S" under "Intercepts." I was expecting the estimates for the main effects to change; remaining stable suggests I coded something wrong. Perhaps it has to do with this warning: *** WARNING in DEFINE command The CENTER transformation is done after all other DEFINE transformations have been completed.
If the centering transformation is done after everything else is completed, that sounds like it is mean-centering my interaction term, not mean-centering my X's prior to creating their product term. How do I code it to mean-center my X's prior to creating the interaction term? (Or, can I define the interaction later, elsewhere in the code?)