in the Mplus user's guide example 7.16 describes a latent class analysis with partial local independence. Is the method desribed comparable to the term "direct effect" which is used by Hagenaars (1988) or Magidson and Vermunt (2004)? Can I use the method of Mplus to account for a lack of conditional independence between a continous indicator and a nominal indicator?
Hagenaars, J. A. (1988). Latent structure models with direct effects between indicators: Local dependence models. Sociological Methods and Research, 16, 379-405.
Magidson, J., & Vermunt, J. K. (2004). Latent class models. In D. Kaplan (Ed.), The Sage handbook of quantitative methodology series for the social sciences (pp. 175-198). Thousand Oaks, CA: Sage.
I believe this is what they call a direct effect. You can do this with one nominal and one continuous.
Lewina Lee posted on Thursday, February 16, 2012 - 2:45 pm
In Mplus User's Guide Version 5, example 7.16 describes LCA with partial conditional independence in one of the classes such that a latent factor (f) loads on 2 continuous indicators (u2, u3). Example 7.22 models correlations among continuous indicators y1-y4. Are specifying latent factors (f) and correlations among indicators both valid ways of testing conditional dependence among indicators? If not, how are they different?
My indicators are subscale scores on different measures (e.g., intelligence subscales A, B, C; personality subscales I, II, III). I want to test for residual covariance among subscales from the same construct. Is there a preferred way to do this? For instance: F1 by A B C; F2 by I II III;
Residual covariances cannot be specified using WITH when numerical integration is involved. This is because each residual covariance requires one dimension of integration. Otherwise, WITH can be used. In your case, I believe WITH is allowed.
Your BY statements are not correct. Each residual covariance requires one BY statement, for example,
where the residual covariance is found in the factor loading for u2.
Lewina Lee posted on Tuesday, February 21, 2012 - 1:20 pm
Thank you for your reply. I have 21 continuous indicators, each representing a subscale score under 4 separate measures (e.g., intelligence, personality). I first attempted to run latent profile analyses with k=1 through k=8 & conditional independence. As a second step, I attempted to test for conditional dependence among indicators of the same measure. Per your earlier response, I specified conditional dependence via:
MODEL: %overall% A1 with A2-A4; A2 with A3-A4; A3 with A4; B1 with B2-B7; B2 with B3-B7; (and so forth)
I estimated a 1-class solution & a 2-class solution. I received error messages regarding "AN ILL-CONDITIONED FISHER INFORMATION MATRIX", "A NON-POSITIVE DEFINITE FISHER INFORMATION MATRIX", "NON-POSITIVE DEFINITE FIRST-ORDER DERIVATIVE PRODUCT MATRIX" & "SINGULARITY OF INFORMATION MATRIX." Parameters involving residual covariances were referenced. What can I do?
Also, how can I show that there is little or no conditional dependence across subscales of the same measure?