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I'm trying to do a simple linear regression on my data frame that looks something like what follows. The actual data set has more factors and more predictors (x's) all trying to predict y.

f1 f2 x y
x  a  1 3.3
x  a  2 3.2
x  a  3 3.04
x  b  1 4.5
x  b  2 4.9
x  b  3 8
y  a  1 20.1
y  a  2 20.3
y  a  3 21.9
y  b  1 101.2
y  b  2 201.8
y  b  3 332.8

Notice, for every combination of f1 & f2 the trends vary. What I want to do is build a lm model for each combination of f1 & f2, store it in some kind of list and then when I call predict, I should be able to use the appropriate model and predict y based on x. I think I should use ldply to create a list of models, as shown below

lm.model.list = ldply(x,.(f1,f2),function(x) {
 fit = lm(x$y ~ x$x)

This gives an error,

Error: attempt to apply non-function

Also, assume I get it all into a list, how do I work with predict after that?

edit: I realize I could use indicator variables for the factors in the modelling itself, but I want to avoid this.

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I don't understand why you would fit a separate model to each subset of your data. Isn't that what interaction terms are for? –  joran Dec 2 '12 at 21:25
Interaction between two predictors A & B would model if A & B combined is different from A and B combined linearly. Also, I would like to extend learnings from here for other models, say neural networks (eg) –  broccoli Dec 2 '12 at 21:33
Maybe dlply rather than ldply? –  joran Dec 2 '12 at 21:37
Yes, dlply typo in code. But how do I deal with predict? –  broccoli Dec 2 '12 at 21:46
Read about interaction of factors. Separate models is generally not the way to go; if you believe there is association of factors/correlation of or nonlinear behavior of response variable, then look into those. e.g. I(x**2) and sqrt(x) terms. But in this case, you can see the x:b case is nonlinear: (1,4.5), (2,4.9), (3,8). The (3,8) is either severely nonlinear or an anomaly. –  smci Jul 27 at 3:55

1 Answer 1

up vote 3 down vote accepted

I think what you want is just:

fit <- lm(y ~ x+ f1*f2, data=dfrm)

This will give a different prediction for each level of the interaction of f1 with f2. It's just one model but could be "queried" for predictions with the predict function using any desired combo of f1 and f2. You should look at ?formula and spend some time understanding how linear models get interpreted.

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But look at the x:b case, it's severely nonlinear: (1,4.5), (2,4.9), (3,8). The (3,8) is either severely nonlinear or an anomaly –  smci Jul 27 at 3:56
The model does not have an x:b term and since there is no b column, it's not clear what is being asked. Worrying about single point is a sign not to little data. –  BondedDust Jul 27 at 4:07
The x.b case clearly either has an anomaly at (3,8) or else involves a very sharp nonlinearity to fit to 4.5,4.9,8 (in whch case they do need separate models). –  smci Jul 27 at 7:38

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