I have googled this and could not find a solution.

It seems R has an issue with AIC/BIC calculation. It produces incorrect results. A simple example is shown below:

link = 'https://gist.githubusercontent.com/seankross/a412dfbd88b3db70b74b/raw/5f23f993cd87c283ce766e7ac6b329ee7cc2e1d1/mtcars.csv'
df = read.csv(link, row.names = 'model')
form = 'mpg ~ disp + hp + wt + qsec + gear'
my_model = lm(form, data = df)
cat('AIC:',AIC(my_model),'\tBIC:',AIC(my_model, k = log(nrow(df))))

AIC: 157.4512   BIC: 167.7113

Doing Exactly the same thing in python, I obtain:

import pandas as pd
from statsmodels.formula.api import ols as lm

link = 'https://gist.githubusercontent.com/seankross/a412dfbd88b3db70b74b/raw/5f23f993cd87c283ce766e7ac6b329ee7cc2e1d1/mtcars.csv'
df = pd.read_csv(link, index_col='model')
form = 'mpg ~ disp + hp + wt + qsec + gear'
my_model = lm(form, df).fit()
print(f'AIC: {my_model.aic:.4f}\tBIC: {my_model.bic:.4f}')

AIC: 155.4512   BIC: 164.2456

You could check the summary(my_model) in R and my_model.summary() in python and you will notice that the two models are EXACTLY the same in everything, apart from the AIC and BIC.

I decided to compute it manually in R:

p = length(coef(my_model)) # number of predictors INCLUDING the Intercept ie 6
s = sqrt(sum(resid(my_model)^2)/nrow(df)) #sqrt(sigma(my_model)^2 * (nrow(df) - p)/nrow(df))
logl = -2* sum(dnorm(df$mpg, fitted(my_model),s, log = TRUE))

c(aic = logl + 2*p, bic = logl + log(nrow(df))*p)
 aic      bic 
155.4512 164.2456 

Which matches the results produced by python.

Digging deeper, I noticed that the AIC does use the logLik function. And that is where the problem arises: logLik(my_model) gives exactly the same results as shown in the logl above before multiplying by -2 but the df is given as 7 instead of 6.

If I bruteforce the rank in order to make it 6, I get the correct results ie:

my_model$rank = my_model$rank - 1
cat('AIC:',AIC(my_model),'\tBIC:',AIC(my_model, k = log(nrow(df))))

AIC: 155.4512   BIC: 164.2456

Why does R add 1 to the number of predictors? You can access the logLik function used in base R by typing stats:::logLik.lm on your Rstudio and pressing enter. The two lines below kind of seems to have an issue:

function (object, REML = FALSE, ...) 
    p <- object$rank
    attr(val, "df") <- p + 1 # This line here. Why does R ADD 1?
  • 4
    Possibly related: stackoverflow.com/questions/37917437/… – MrFlick Oct 26 at 3:48
  • @MrFlick thanks so much. Although why would R add one claiming to be an estimation of the standard error yet python doew not? Don't you think the authors of the statmodels should hqve consideres this and incorporated it? – Onyambu Oct 26 at 12:30
  • I can't speak for the authors of statsmodels for can I speak for the authors of R. All statistical results are based on assumptions that reasonable people might disagree about. You can write your own AIC function to define it however you like. – MrFlick Oct 26 at 17:03

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