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Problem: I need to estimate a set of multinomial logistic multilevel models and can’t find an appropriate R package. What is the best R package to estimate such models? STATA 13 recently added this feature to their multilevel mixed-effects models – so the technology to estimate such models seems to be available.

Details: A number of research questions require the estimation of multinomial logistic regression models in which the outcome variable is categorical. For example, biologists might be interested to investigate which type of trees (e.g., pine trees, maple trees, oak trees) are most impacted by acid rain. Market researchers might be interested whether there is a relationship between the age of customers and the frequency of shopping at Target, Safeway, or Walmart. These cases have in common that the outcome variable is categorical (unordered) and multinomial logistic regressions are the preferred method of estimation. In my case, I am investigating differences in types of human migration, with the outcome variable (mig) coded 0=not migrated, 1=internal migration, 2=international migration. Here is a simplified version of my data set:


   hhID mig age stateID pollution
1     1   0  47       a      high
2     2   1  53       a      high
3     3   2  17       a      high
4     4   0  73       a      high
5     5   1  24       a      high
6     6   2  80       a      high
7     7   0  18       a      high
8     8   1  33       b       low
9     9   2  90       b       low
10   10   0  49       b       low
11   11   1  42       b       low
12   12   2  44       b       low
13   13   0  82       b       low
14   14   1  70       b       low
15   15   2  71       c  moderate
16   16   0  18       c  moderate
17   17   1  18       c  moderate
18   18   2  39       c  moderate
19   19   0  35       c  moderate
20   20   1  74       c  moderate
21   21   2  86       c  moderate

My goal is to estimate the impact of age (independent variable) on the odds of (1) migrating internally vs. not migrating, (2) migrating internationally vs. not migrating, (3) migrating internally vs. migrating internationally. An additional complication is that my data operate at different aggregation levels (e.g., pollution operates at the state-level) and I am also interested in predicting the impact of air pollution (pollution) on the odds of embarking on a particular type of movement.

Clunky solutions: One could estimate a set of separate logistic regression models by reducing the data set for each model to only two migration types (e.g., Model 1: only cases coded mig=0 and mig=1; Model 2: only cases coded mig=0 and mig=2; Model 3: only cases coded mig=1 and mig=2). Such a simple multilevel logistic regression model could be estimated with lme4 but this approach is less ideal because it does not appropriately account for the impact of the omitted cases. A second solution would be to run multinomial logistic multilevel models in MLWiN through R using the R2MLwiN package. But since MLWiN is not open source and the generated object difficult to use, I would prefer to avoid this option. Based on a comprehensive internet search there seem to be some demand for such models but I am not aware of a good R package. So it would be great if some experts who have run such models could provide a recommendation and if there are more than one package maybe indicate some advantages/disadvantages. I am sure that such information would be a very helpful resource for multiple R users. Thanks!!

Best, Raphael

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two suggestions: (1) look into the MCMCglmm package; (2) your "clunky method" is actually the standard method (e.g. see Dobson and Barnett Introduction to Generalized Linear Models, 3d ed.); one parameterizes a multinomial model as series of binomial contrasts (level 1 vs level 2, level 1 vs level 3) and fit a series of models. This is actually a complete model because any two-category subset of a multinomial model is conditionally binomial (i.e. if you know it's A or B, then A is a binomial sample from (A+B)); any complete set of pairs is a valid parameterization. –  Ben Bolker Jan 13 '14 at 1:18
In your case, since your categories are somewhat ordered I would probably parameterize them as (no migration vs. internal or international migration), (internal vs international migration); this also sets you up for a comparison with an ordinal model (see the ordinal package). –  Ben Bolker Jan 13 '14 at 1:20
Thanks a lot, Ben Bolker! Both suggestions are indeed very helpful and I will explore them more. –  Raphael Jan 14 '14 at 0:45

4 Answers 4

After some additional reading, I found that @Ben Bolker was right and that the clunky solution of running individual logit models for each contrast is the best method for estimation multinomial multilevel models. And in this way it is possible to use the lme4 package.

  1. Allison (1984, p.46-47) writes: “In any case, it can be shown that the likelihood function (which is maximized in maximum likelihood estimation) for the data can be factored into a separate likelihood function for each kind of event [e.g., contrasts in a multinomial model]. Moreover, those factors look exactly like likelihood functions for single kinds of events with all other events treated as censored. Thus maximum likelihood or partial likelihood estimation can be done separately for each event type, using the methods described in the previous chapters.” So it is clearly statistically appropriate to run separate models for each contrast.
  2. I did the test with a regular logit model (single level), and indeed the results from separate models (e.g., comparing international migrants vs. non migrants (model 1) and comparing domestic migrations vs. non migrants (model 2)) produce similar results as a multinomial model that reports the results for these two contrasts as one output.
  3. Finally, a short article by Pope (2014) in the most recent STATA News, shows that STATA estimates separate multilevel logit models, when its functionality for multinomial multilevel models is employed through gsem.


Allison, P. (1984). Event history analysis. Newbury Park, CA: Sage Publications.

Pope, R. (2014). In the spotlight: Meet Stata’s new xtmlogit command. Stata News, 29(2), 2-3.

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This is correct and very useful. Two added benefits of running models separately is that (1) the computation-to-output time is shorter for each contrast (especially helpful for larger data sets and more complex models) and (2) running separate models encourages examining contrasts that might be ignored (rather than using a single reference category). –  statsRus Jun 26 '14 at 13:43

Here's an implementation (not my own). I'd just work off this code. Plus, this way you'll really know what's going on under the hood.


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Thanks for sharing! But I guess that my statistical knowledge is too limited to work with a raw code like this. The code would have to be a lot more annotated for me to know why they do what they do and to be sure there are no problems/errors present. It appears they are using a Monte Carlo Approach similar to the MCMCglmm package mentioned by Ben Bolker above, but I am not quite sure... –  Raphael Jan 14 '14 at 0:56
Fair enough! Do you have to do your analysis in R? You could just do you analysis in Stata? Otherwise, I can't think of anything else. –  Henry David Thorough Jan 14 '14 at 5:38
Yes, STATA would be my last resort. But since I do all the variable construction and data preprocessing in R, I would like to stick with one Software. –  Raphael Jan 15 '14 at 16:55
I might be misunderstanding the problem, but why don't you just write out the processed dataframe with all of the necessary variables as a csv then import it into Stata? –  Henry David Thorough Jan 15 '14 at 18:42

I will recommend you to use the package "mlogit"

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maybe give a link (cran.r-project.org/web/packages/mlogit) and some description of the algorithm used by the package? (Link-only answers are discouraged, although this is certainly a useful pointer.) –  Ben Bolker May 17 '14 at 17:51
@BenBolker Could you possibly help me with this question? Thanks a lot in advance! stackoverflow.com/questions/23712119/… –  dreamer May 17 '14 at 19:29
To my knowledge the mlogit package does not allow to include random effects or specify a multilevel structure. So I can't use this package for my research. –  Raphael May 21 '14 at 21:55

I'm puzzled that this technique is descried as "standard" and "equivalent", though it might well be a good practical solution. (Guess I'd better to check out the Allison and Dobson & Barnett references). For the simple multinomial case ( no clusters, repeated measures etc.) Begg and Gray (1984) propose using k-1 binomial logits against a reference category as an approximation (though a good one) in many cases to full blown multinomial logit. They demonstrate some loss of efficiency when using a single reference category, though it's small for cases where a single high-frequency baseline category is use as the reference. Agresti (2002: p. 274) provides an example where there is a small increase in standard errors even when the baseline category constitutes over 70% of 219 cases in a five category example.

Maybe it's no big deal, but I don't see how the approximation would get any better adding a second layer of randomness.

Agresti, A. (2002). Categorical data analysis. Hoboken NJ: Wiley.

Begg, C. B., & Gray, R. (1984). Calculation of polychotomous logistic regression parameters using individualized regressions. Biometrika, 71(1), 11–18.

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