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Is aov appropriate for unbalanced datasets. According to help ...provides a wrapper to lm for fitting linear models to balanced or unbalanced experimental designs. But later on it says aov is designed for balanced designs, and the results can be hard to interpret without balance.

How should I perform a 2-way anova on an unbalanced dataset in R?

I would like to reproduce the different results for type I and type III sum of squares of SAS output (when using proc glm). I remember we were using type III sum of squares for unbalanced datasets.

Thank you in advance.

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Speaking of type III sum of squares:… – Marek Apr 13 '10 at 6:05
I think type III SS get a bad rap from the R community. In terms of general applicability I find them more useful than type I SS, though less useful than type II. I tend to almost always use the Anova function in the car package over the base anova. – Ian Fellows Apr 13 '10 at 7:39
up vote 12 down vote accepted

Function anova (or summary.aov) will give you the so called type I (or sequential) sum of squares. To get type III sum of squares, you can use the Anova function from library car with parameter type="III". The difference between these two approaches in unbalanced datasets (and also sample R code to produce both tables) is presented in detail here.

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Thank you very much. This paper seems to be very helpful and informative. – Brani Apr 13 '10 at 7:32
Thanks for the link to the Zahn paper. I hadn't seen it before. – Ian Fellows Apr 13 '10 at 7:40
@gd047: Could you clarify where is the sample R code? – unutbu Apr 13 '10 at 13:41
@~unutbu: In the appendix :-) – George Dontas Apr 13 '10 at 16:01
Doh! :-) Thank you... – unutbu Apr 13 '10 at 18:17

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