14

For the simple example below, you can see that there are certain points that are identified in the ensuing plots. How can I extract the row numbers identified in these plots, especially the Normal Q-Q plot?

set.seed(2016)
maya <- data.frame(rnorm(100))
names(maya)[1] <- "a"
maya$b <- rnorm(100)
mara <- lm(b~a, data=maya)
plot(mara)

I tried using str(mara) to see if I could find a list there, but I can't see any of the numbers from the Normal Q-Q plot there. Thoughts?

15

I have edited your question using set.seed(2016) for reproducibility. To answer your question, I need to explain how to produce the Q-Q plot you see.

se <- sqrt(sum(mara$residuals^2) / mara$df.residual)  ## Pearson residual standard error
hii <- lm.influence(mara, do.coef = FALSE)$hat  ## leverage
std.resi <- mara$residuals / (se * sqrt(1 - hii))  ## standardized residuals
## these three lines can be replaced by: std.resi <- rstandard(mara)

Now, let's compare the Q-Q plot we generate ourselves and that generated by plot.lm:

par(mfrow = c(1,2))
qqnorm(std.resi, main = "my Q-Q"); qqline(std.resi, lty = 2)
plot(mara, which = 2)  ## only display Q-Q plot

Q-Q

The same, right?

Now, the only issue left is how the numbers are labelled. Those labelled points mark the largest 3 absolute standardised residuals. Consider:

x <- sort(abs(std.resi), decreasing = TRUE)
id <- as.integer(names(x))
id[1:3]
# [1] 23  8 12

Now, if you look at the graph closely, you can see that those three numbers are exactly what is shown. Knowing this, you can also check out, for example, id[1:5].

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