I have produced a linear data set and have used lm() to fit a model to that dataset. I am now trying to find the MSE using mse()

I know the formula for MSE but I'm trying to use this function. What would be the proper way to do so? I have looked at the documentation, but I'm either dumb or it's just worded for people who actually know what they're doing.


x.linear <- seq(0, 200, by=1) # x data
error.linear <- rnorm(n=length(x.linear), mean=0, sd=1) # Error (0, 1)
y.linear <- x.linear + error.linear  # y data

training.data <- data.frame(x.linear, y.linear)
training.model <- lm(training.data)
training.mse <- mse(training.model, training.data)


mse() needs two data frames. I'm not sure how to get a data frame out of lm(). Am I even on the right track to finding a proper MSE for my data?

  • @ZheyuanLi I'm more-or-less asking where my predicted/simulated set of Y values can come from for the formula. In the mse() function, it requires an observed and simulated data frame. I need to know what to use for both those data frames.
    – Dan
    Commented Sep 27, 2016 at 18:43
  • I don't know why you'd use this weird function instead of mean(training.model$residuals ^ 2) Commented Sep 27, 2016 at 18:43
  • You can get the fitted values from the model, training.model$fitted.values, but they are a vector, not a data frame. So I suppose the alternative is hydroGOF::mse(data.frame(training.model$fitted.values), training.data[["y.linear"]])... also I'd strongly recommend specifying a formula when fitting a model. As you have it I think you're regressing x on y, which is probably not what you want. Commented Sep 27, 2016 at 18:47
  • @ZheyuanLi I think you guys are right, I'll just do it the old fashioned way
    – Dan
    Commented Sep 27, 2016 at 18:53

4 Answers 4


Try this:

mean((training.data - predict(training.model))^2)
#[1] 0.4467098
  • I was advised to use the mse() function but this is a way I'm more comfortable with. Thank you!
    – Dan
    Commented Sep 27, 2016 at 19:02
  • 1
    Special care needs to be taken when calculating MSE for multiple linear regression. The denominator to calculate MSE is n - (p+1), where p is the number of predictors. Here, in case of simple linear regression, p = 1 so the denominator becomes n. Commented Apr 7, 2020 at 9:11

You can also use below mentioned code which is very clean to get mean square error

mse(actual, predicted)

The first data set on which is actual one : training.data The second argument is the one which you will predict like :

pd <- predict(training.model , training.data) mse(training.data$,pd)

Seems you have not done prediction yet so first predict the data based on your model and then calculate mse


You can use the residual component from lm model output to find mse in this manner :

mse = mean(training.model$residuals^2)

Note: if you come from another program (like SAS) they get the mean using the sum and the degrees of freedom of the residual. I recommend doing the same if you want a more accurate estimate of the error.

mse = sum(training.model$residuals^2)/training.model$df.residual

I found this while trying to figure out why mean(my_model$residuals^2) was different in R than the MSE in SAS.

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