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Hi, I am running a TYPE = TWOLEVEL COMPLEX RANDOM analysis and I am looking for an output that examines the assumptions (as described in Snijders & Bosker, 2004, p. 121: normal distribution and homoscedasticity of residuals etc.). Is there any possibility in Mplus to ensure that assumptions are met? Thank you for any advice Katrin 


The MLR estimator is robust against deviations from the normality assumption. There is currently not an option to display residuals to check for homoscedasticity. 


Hi, If I use the MODEL TEST: command in mplus for complex survey data, is the wald test adjusted for the complex sampling design? Thanks. 


Yes. 


Can you please provide me the statistical reference for citation? 


The Wald test uses as a "weight matrix" which is whatever covariance matrix is computed for the estimated parameters (see Tech3). With Type=Complex, the complex survey features are taken into account in Tech3. How that is done is shown in Asparouhov (2005)  the SEM article. We don't have a reference for this aspect of Wald testing, mainly because this is using "first principles" of statistics. Perhaps you can refer to the article above and the UG. 


Hello! The most central assumptions of the hierarchical linear model are (Raudenbush/Bryk 2002, Snijders/Bosker 2012):  A1: Individual residuals have a normal distribution within each cluster  A2: Individual residuals have the mean 0 within each cluster  A3: Individual residuals have the same variance in all clusters  A4: Cluster residuals have a multivariate normal distribution  A5: Cluster residuals have the mean 0  A6: Cluster residuals and individual residuals are independent Q1: Using Mplus 7.11 with TYPE=TWOLEVEL RANDOM, ESTIMATOR=MLR and FIML, which of the assumptions A1A6 have to be met? Q2: Which of the assumptions, that have to be met, can be checked with Mplus 7.11 and how? Thank you in advance! 


All of these assumptions don't need to hold in Mplus and you can specify models and estimate models where such specifications are modeled in a nonstandard way. The standard model uses A1A6 (Technically speaking A2 and A5 are not assumptions  these are definitions). You can use LRT, use residual plots or save the residuals and test them separately. 


You should take a look at this article http://joophox.net/publist/csda04.pdf 


Thanky you for your answer Tihomir! But I'm afraid I did not understand you completely. I'm just starting with Mplus. Some clarifying questions: Q1: How exactly do I have to specify my model so that the assumptions/definitions don't have to hold? Q2: How exactly can I save the individual residuals and cluster residuals? Q3: How exactly can I plot individual residuals and cluster residuals? 


Please send these questions along with your output and license number to Support. 


Is there in the meanwhile an option to display residuals to check for homoscedasticity? 


Yes, you can plot residuals vs covariate values. 


Hi all, I am using Bayesian analysis to run a random slope model. I know that parameter distributions are not required to be normal, but I am wondering if raw data of variable need to be normal. Is Bayesian robust to against deviations from the normality assumption like MLR estimator? Thanks in advance Tommy 


I don't think it hasn't been thoroughly examined to which degree Bayes is robust to nonnormality and how it compares in that regards to MLR. I would expect it to be similarly robust at least with respect to the point estimates. 


Thanks Bengt for your reply. May I also ask why would you expect Bayes is similarly robust to nonnormality as MLR with respect to the point estimates? I am wondering if I can make the claim that Bayes is robust to nonnormality, just like what other people have claimed regarding MLR. 


Q1: Because Bayes and ML are asymptotically the same when using noninformative priors. The issue is if the Bayes SEs are as robust to nonnormality as the MLR SEs  I am not sure. 

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