In a GMM analysis, I am trying to decide whether to use a linear or a quadratic growth model, I am wondering if there are some guidelines for how to approach this. Shall I 1) fit a regular growth model(with 1-class) first, and decide to include the quadratic term or not (I assume using the chi-square test for nested model), and then fit the GMMs to decide the # of classes; or 2) decide the # of classes in GMM, and then decide if I should include quadratic terms? It's hard to know if each latent class would need the quadratic term though. Your guidance would be greatly appreciated!
Related to the above discussion, we have estimated an unconditional growth curve that demonstrates better fit with quadratic than linear model. As a next step we looked at a 5 class latent class growth model. In this model, the three most substantively interesting classes have non-significant quadratic means. Additonally, the slopes for these 3 classes are also non-significant, but eyeballing their graphs it would appear there is a significant slope. I'm wondering if the incorrect inclusion of a quadratic term for these 3 classes could be affecting the significance of the slope mean estimate? The two other classes, which have a higher N (ex.-stable low class) do however, demonstrate a significant quadratic mean.
In this case, do you suggest maintaining the same quadratic or linear model for all classes? Or is it possbile/correct to specify different models (linear vs quadratic) for the different classes? If this is the case, is there a reference you are aware of for how to go about settnig this up? Thanks so much
Without substantive theory to the contrary, it seems like a reasonable approach to use the same functional form for all classes and then report where some parameters are insignificant.
You get a separate form simply by specifying a different growth model within the class in question.
Han-Jung Ko posted on Wednesday, April 02, 2014 - 11:56 am
Dr. Muthen, I am working on a growth mixture model with outcomes of 5-wave continuous variables. Before proceeding to class analysis, I wonder how I could determine whether it should be better estimated as a linear or quadratic model?
1. The estimated means of slopes in the linear model were not significant, nor were the slopes and quadratic terms in the quadratic model.
2. Would it be legitimate if I determine whether linear or quadratic estimations are more appropriate by Chi-square tests? If so, where should I look for the values in the output? Chi-Square Test of Model Fit or Chi-Square Test of Model Fit for the Baseline Model?
What does it mean if the Chi-Square Test of Model Fit is not significant?
I read through example 6.1 and 6.9 but I am still not sure how to compare the linear and quadratic models.
I think it is sufficient to look at the z scores for the linear and quadratic growth factor means. So it sounds like you have an intercept only growth model.
Han-Jung Ko posted on Monday, April 07, 2014 - 11:58 am
Thank you, Dr. Muthen. I figured keeping the linear model is more reasonable. Another question encountered is when I tried to apply the 3-step approach to estimate the model. I was able to estimate the classes in step 1 (2 classes identified) but failed in step 2, where I have a few categorical and continuous variables to predict the probabilities of being in each class.
Analysis: Type = Mixture; Starts = 500 80; LRTSTARTS = 1000 1000 1000 1000; Stiterations = 50; processor = 4; Model: %OVERALL% !i s | pl_1@0pl_2@1pl_3@2pl_4@3pl_5@4; !i WITH s; c on sex AA total_t1lgs total_t1neo_c total_t1neo_n total_t1neo_e; %c#1% pl_4; [email@example.com]; %c#2% pl_4; [n#1@-3.150];
Sorry I did not describe my question well. Based on Asparouhvo & Muthen (2013), my step 1 model is: Usevariables are pl_1 pl_2 pl_3 pl_4 pl_5; Missing are all(-9999) ; Classes=c(2); SAVEDATA: FILE = gmm2step.dat; save = cprobabilities; Analysis: Type = Mixture; Model: %OVERALL% i s | pl_1@0pl_2@1pl_3@2pl_4@3pl_5@4; i WITH s;
The problem was when I proceed to estimate whether gender, race, personality traits etc. predict the class membership, Mplus could not read the data saved from step 1.
Model: %OVERALL% c on sex AA total_t1lgs total_t1neo_c total_t1neo_n total_t1neo_e; %c#1% [firstname.lastname@example.org]; %c#2% [n#1@-3.150];
I guess it is because in the data from step 1, there are only estimated PIL1~5, intercept mean and Std., slope mean and Std., p(1), p(2), and n. There are no data on gender, race, and personality traits etc.
I did try add: auxiliary= AA sex total_t1lgs total_t1neo_c total_t1neo_n total_t1neo_e; But the model did not work. Thank you for the help in advance. Han-Jung Ko
One comment. You do not have a GMM if the variances of the growth factors are fixed at zero.
To have different growth models in different classes, specify the most complex model in %OVERALL%. In the other classes, fix the means, variances, and covariances of the growth factors you don't want to zero.
Yue Liao posted on Thursday, June 26, 2014 - 3:45 pm
I followed Example 8.5 to set up my model. I thought it's a GMM?
If I don't want class 1 to have the quadratic term for the growth model, do I just put:
For the above spec, the model still says "THE SOLUTION MAY NOT BE TRUSTWORTHY DUE TO LOCAL MAXIMA. INCREASE THE NUMBER OF RANDOM STARTS." Should I then change the algorithm to MONTECARLO (suggested by the manual since random starts already reach 5000)?
And will increasing STITERATIONS and/or integration number make a difference at this point?
where x is about 1/4 of y. So you want to increase both in tandem.
I always use the default Stiterations and it does not have to do with negative ABS changes. The problem of neg ABS changes has to do with lack of numerical precision with numerical integration, in which case you want to increase the number of integration points.
Eva Guerin posted on Wednesday, June 08, 2016 - 3:13 pm
hi there, Naive question again - sorry of this is repetitive of previous discussions.
Adding a quadratic growth term to a 3-class solution (whether it is added to all classes or just one) changes class membership/cprobs... Is this normal?
Is it best to use the start values from a simpler model with just the linear growth factors in order to test the significance of the quadratic growth factor in my already established classes? I am trying to compare models with linear vs. linear+quadratic vs. quadratic growth for my trajectories are better - but logically, I would think that having the same class membership for the comparison would make the most sense.