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In my previous post, I was looking for correlation ratio (η or η2) routines in R. I was surprised by the fact that no one uses η for linearity checking in the GLM procedures.

Let's start form a simple example: how do you check linearity of bivariate correlation? Solely with scatterplot?

There are several ways of doing this, one way is to compare linear and non-linear model R2, then to apply F test to seek for significant difference between them.

Finally, the question is: How do you check linearity, the "non-grafical" way?

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A far more important question is why are you doing this and why don't you want to use graphics? – hadley Jun 10 '10 at 13:52
I wanted to get some info about non-graphical procedures, just out of curiosity, but it doesn't mean that I don't want to use graphics... on the contrary, I always look at the data in order to get an impression about the underlying structure (this may sound a bit toady, but I use GGobi, rggobi and ggplot2 for those purposes). So there... – aL3xa Jun 10 '10 at 14:52
up vote 5 down vote accepted

An answer is what exactly you have said (comparing a linear and a non-linear model). e.g.

model2<-lm(yv~xv+I(xv^2)) #Even if we restrict ourselves to the inclusion of a quadratic term, there are many curves we can describe, depending upon the signs of the linear and quadratic terms


Analysis of Variance Table

Model 1: yv ~ xv
Model 2: yv ~ xv + I(xv^2)
  Res.Df    RSS Df Sum of Sq      F Pr(>F)  
1     16 91.057                             
2     15 68.143  1    22.915 5.0441 0.0402 *

The more complicated curved model is a significant improvement over the linear model (p=0.04) so, in that case, we accept that there is evidence of curvature in the data.

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Just to clarify: Is this procedure the same as the Mandel test? – Beasterfield Dec 2 '11 at 14:43

The RESET (Regression Equation Specification Error Test) was designed for missing regressors, but it us often used in testing non-linearities. Can be found in the LMTEST package -- among many other useful tests. It's very similar to what you are already doing. Alternatively, you could devise a test on recursive residuals to exploit the fact that they may become all positive/negative when ordered by entering non-linear variable.

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+1 applying it on my test data: resettest(yv~xv , power=2, type="regressor") gave RESET = 5.0441, df1 = 1, df2 = 15, p-value = 0.0402 – George Dontas Jun 10 '10 at 13:29
There's also ramsey function in LDdiag package – aL3xa Jun 10 '10 at 15:23

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