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So this is a very simple question, just can't seem to figure it out.

I'm running a logit using the glm function, but keep getting warning messages relating to the independent variable. They're stored as factors and I've changed them to numeric but had no luck. I also coded them to 0/1 but that did not work either.

Please help!

> mod2 <- glm(winorlose1 ~ bid1, family="binomial")
Warning messages:
1: glm.fit: algorithm did not converge 
2: glm.fit: fitted probabilities numerically 0 or 1 occurred 

I also tried it in Zelig, but similar error:

> mod2 = zelig(factor(winorlose1) ~ bid1, data=dat, model="logit")
How to cite this model in Zelig:
Kosuke Imai, Gary King, and Oliva Lau. 2008. "logit: Logistic Regression for Dichotomous Dependent Variables" in Kosuke Imai, Gary King, and Olivia Lau, "Zelig: Everyone's Statistical Software," http://gking.harvard.edu/zelig
Warning messages:
1: glm.fit: algorithm did not converge 
2: glm.fit: fitted probabilities numerically 0 or 1 occurred 


> str(dat)
'data.frame':   3493 obs. of  3 variables:
 $ winorlose1: int  2 2 2 2 2 2 2 2 2 2 ...
 $ bid1      : int  700 300 700 300 500 300 300 700 300 300 ...
 $ home      : int  1 0 1 0 0 0 0 1 0 0 ...
 - attr(*, "na.action")=Class 'omit'  Named int [1:63021] 3494 3495 3496 3497 3498 3499 3500 3501 3502 3503 ...
  .. ..- attr(*, "names")= chr [1:63021] "3494" "3495" "3496" "3497" ...
share|improve this question
This will be impossible to answer without some detailed information about your data. str(dat) for instance. Also, those are warnings, not errors. There's a big difference. – joran Dec 21 '11 at 20:58
I just wanted to note that there is a glm2 package which claims to achieve convergence where glm does not. I don't know if this has to do with the problem here or not. See journal.r-project.org/archive/2011-2/… – Xu Wang Dec 22 '11 at 6:46
As it seems that you're working with categorical data, I'd consider casting your integer variables as factors. dat$home <- as.factor(dat$home) – eamo Sep 20 '13 at 16:11
some more information on http://stats.stackexchange.com – DJJ Jun 14 '14 at 8:33

If you look at ?glm (or even do a Google search for your second warning message) you may stumble across this from the documentation:

For the background to warning messages about ‘fitted probabilities numerically 0 or 1 occurred’ for binomial GLMs, see Venables & Ripley (2002, pp. 197–8).

Now, not everyone has that book. But assuming it's kosher for me to do this, here's the relevant passage:

There is one fairly common circumstance in which both convergence problems and the Hauck-Donner phenomenon can occur. This is when the fitted probabilities are extremely close to zero or one. Consider a medical diagnosis problem with thousands of cases and around 50 binary explanatory variable (which may arise from coding fewer categorical variables); one of these indicators is rarely true but always indicates that the disease is present. Then the fitted probabilities of cases with that indicator should be one, which can only be achieved by taking βi = ∞. The result from glm will be warnings and an estimated coefficient of around +/- 10. There has been fairly extensive discussion of this in the statistical literature, usually claiming non-existence of maximum likelihood estimates; see Sautner and Duffy (1989, p. 234).

One of the authors of this book commented in somewhat more detail here. So the lesson here is to look carefully at one of the levels of your predictor. (And Google the warning message!)

share|improve this answer
+1 Good answer. Just to add: it's good to look at the model, the model diagnostics, and sometimes a different model. For instance, try a classification tree. This may tell you that either (a) you have an excellent predictor (good thing), or (b) you have some sampling problems (bad thing). – Iterator Dec 22 '11 at 1:16
Does this answer address only the 2nd warning from the OP's question? I found at discuss.analyticsvidhya.com/t/… the suggestion to adjust the parameter maxit (which is not listed in the documentation for glm, but is passed as part of the control parameter to glm.fit and then to glm.control), and that seems to have resolved the 1st warning 1: glm.fit: algorithm did not converge for me. – Paul de Barros Apr 14 at 12:43
I found your answer very useful joran, but I still don't understand how to solve the problem based on your answer. My understanding (based on the quote in your answer) is that: one of the levels of one of my predictor variables is rarely true but always indicates that the the out come variable is either 0 or 1. Firstly, surely any decent statistical method should be able to deal with this? Secondly, how do I find the predictor variable, and once I do find it what do I do with it? – par Jul 5 at 14:33
@par An algorithmic approach to "solving" this problem is often to employ some form of regularization. But it is also wise to reconsider your choices of covariates in the context of your model, and how meaningful they might be. As the quote indicates, you can often spot the problem variable by looking for a coefficient of +/- 10. – joran Jul 5 at 15:02

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