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I'm an R noob, I hope you can help me:

I'm trying to analyse a dataset in R, but I'm not sure how to interpret the output of summary(glmer(...)) and the documentation isn't a big help:

> data_chosen_stim<-glmer(open_chosen_stim~closed_chosen_stim+day+(1|ID),family=binomial,data=chosenMovement)
> summary(data_chosen_stim)
Generalized linear mixed model fit by maximum likelihood (Laplace Approximation) ['glmerMod']
 Family: binomial ( logit )
Formula: open_chosen_stim ~ closed_chosen_stim + day + (1 | ID)
   Data: chosenMovement

     AIC      BIC   logLik deviance df.resid 
    96.7    105.5    -44.4     88.7       62 

Scaled residuals: 
    Min      1Q  Median      3Q     Max 
-1.4062 -1.0749  0.7111  0.8787  1.0223 

Random effects:
 Groups Name        Variance Std.Dev.
 ID     (Intercept) 0        0       
Number of obs: 66, groups: ID, 35

Fixed effects:
                    Estimate Std. Error z value Pr(>|z|)
(Intercept)           0.4511     0.8715   0.518    0.605
closed_chosen_stim2   0.4783     0.5047   0.948    0.343
day                  -0.2476     0.5060  -0.489    0.625

Correlation of Fixed Effects:
            (Intr) cls__2
clsd_chsn_2 -0.347       
day         -0.916  0.077

I understand the GLM behind it, but I can't see the weights of the independent variables and their error bounds.

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1  
I'm not sure what you mean by "weights", exactly. There's a section there summarizing the fixed effects, with coefficient estimates and standard errors. Is there something else you're looking for? –  joran May 23 '14 at 19:09
    
If p(y|x, w, s²) = exp((yw^Tx - A(w^T x))/s² + c(y,s²)), then I'm looking for p(w|y,x) essentially. Is that the Estimate, etc in the fixed effects section? –  zombiecalypse May 23 '14 at 19:19
    
Uh.....paging @BenBolker! –  joran May 23 '14 at 19:42
    
@zombiecalypse I don't follow your notation, but the Estimate column are the \beta_i for the model constant term (intercept) and the two terms in your model. If this were a (G)LM (no random effects) these would be the model coefficients; the things you wanted to estimate the effect on the response of. –  Gavin Simpson May 23 '14 at 19:53
    
I have to say I don't follow your notation either ... this may be more appropriate for CrossValidated (where you can also use LaTeX notation in your question and it will be nicely rendered) –  Ben Bolker May 23 '14 at 20:07

1 Answer 1

update: weights.merMod already has a type argument ...

I think what you're looking for weights(object,type="working").

I believe these are the diagonal elements of W in your notation?

Here's a trivial example that matches up the results of glm and glmer (since the random effect is bogus and gets an estimated variance of zero, the fixed effects, weights, etc etc converges to the same value).

Note that the weights() accessor returns the prior weights by default (these are all equal to 1 for the example below).

Example (from ?glm):

 d.AD <- data.frame(treatment=gl(3,3),
                    outcome=gl(3,1,9),
                    counts=c(18,17,15,20,10,20,25,13,12))
 glm.D93 <- glm(counts ~ outcome + treatment, family = poisson(),
                data=d.AD)
 library(lme4)
 d.AD$f <- 1  ## dummy grouping variable
 glmer.D93 <- glmer(counts ~ outcome + treatment + (1|f),
                    family = poisson(),
                    data=d.AD,
                    control=glmerControl(check.nlev.gtr.1="ignore"))

Fixed effects and weights are the same:

 all.equal(fixef(glmer.D93),coef(glm.D93))  ## TRUE
 all.equal(unname(weights(glm.D93,type="working")),
                  weights(glmer.D93,type="working"),
           tol=1e-7)   ## TRUE
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