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generally, it is not rocked science to fit a linear model and use it out-of-sample. Nevertheless, i struggle to implement the linear regression in groups. The r-code given below illustrates the problem.

The fitted values are incorrectly computed. It seems as if the data is mixed up in some way. But i don't know why and how exactly.

As it turns out deploying a conditioned lm-object (conditioned on group affiliation) instead of lmList leads to the same results.

  1. Generating the data

    data.frame <- data.frame("group"= c(rep(1, 250), rep(2, 250), rep(1, 250), 
                                        rep(2, 250)))
    data.frame$"X_1" <- NA  
    data.frame[data.frame$group == 1,]$"X_1" <- round(rnorm(500, mean=5, sd=12),2)  
    data.frame[data.frame$group == 2,]$"X_1" <- round(rnorm(500, mean=-2, sd=12),2)  
    data.frame$"X_2" <- round(rnorm(1000, mean = 1, sd = 12),2)  
    data.frame$"error" <- round(rnorm(1000, mean=0, sd=1),2)  
    data.frame$"Y" <- 0.5*data.frame$X_1 + 0.5*data.frame$X_2 + 
    training.data <- data.frame[1:500,]  
    test.data <- data.frame[501:1000,]
  2. Set up the regression using "training.data"

    regression.lmList <- lmList(Y ~ X_1 + X_2 | group, data = training.data)
  3. Apply the model on "test.data"

    test.data$"pred(Y)" <- predict(regression.lmList, new.data=test.data)
  4. Results


    screenshot 1


screenshot 2

But a an example: According to the estimated parameters the fitted value for the first column should be "pred(Y)" = 13.6458 rather than "pred(Y)" = -20.8359 (as computed). Any idea?

Thanks for your help! :)

share|improve this question
You used the wrong parameter name in predict. It's newdata (without a dot): predict(regression.lmList, newdata=test.data) And of course test.data needs to contain all variables that are used as predictors in lmList. Study ?predict.lmList. –  Roland Aug 3 '13 at 14:54

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