Can you tell me what is returned by glm$residuals and resid(glm) where glm is a quasipoisson object. e.g. How would I create them using glm$y and glm$linear.predictors.


     n missing  unique    Mean     .05     .10   .25  .50     .75     .90     .95

 37715   10042    2174 -0.2574 -2.7538 -2.2661 -1.4480 -0.4381  0.7542  1.9845  2.7749

lowest : -4.243 -3.552 -3.509 -3.481 -3.464
highest:  8.195  8.319  8.592  9.089  9.416


        n    missing     unique       Mean        .05        .10        .25
    37715          0       2048 -2.727e-10    -1.0000    -1.0000    -0.6276
      .50        .75        .90        .95
  -0.2080     0.4106     1.1766     1.7333

lowest : -1.0000 -0.8415 -0.8350 -0.8333 -0.8288
highest:  7.2491  7.6110  7.6486  7.9574 10.1932

Calling resid(model) will default to the deviance residuals, whereas model$resid will give you the working residuals. Because of the link function, there is no single definition of what a model residual is. There are the deviance, working, partial, Pearson, and response residuals. Because these only rely on the mean structure (not the variance), the residuals for the quasipoisson and poisson have the same form. You can take a look at the residuals.glm function for details, but here is an example:

counts <- c(18,17,15,20,10,20,25,13,12)
outcome <- gl(3,1,9)
treatment <- gl(3,3)
glm.D93 <- glm(counts ~ outcome + treatment, family=quasipoisson())

(counts - glm.D93$fitted.values)/exp(glm.D93$linear)

fit <- exp(glm.D93$linear)
poisson.dev <- function (y, mu) 
    sqrt(2 * (y * log(ifelse(y == 0, 1, y/mu)) - (y - mu)))
poisson.dev(counts,fit) * ifelse(counts > fit,1,-1)

counts - fit

(counts - fit)/sqrt(fit)
  • 1
    This is great. Now I just need to learn about when each type of residual is most useful in doing regression diagnostics. The book recommendation made by Adam below ("Generalized Linear models and extensions" by Hardin and Hilbe) seems helpful, any other suggestions? – Michael Bishop Mar 28 '10 at 21:31

I don't know enough about poisson and quasi-poisson distributions to answer your question in the depth asked for (i.e. an exact equation that will transform the variables into the residuals using the model), but if any of the confusion is due to what residual types are being used and why the two commands give a different answer, this could help:

resid() defaults to a "deviance" type in R. However, glm() assigns different residuals to the $residuals vector.

If you're using the quasi-poisson family, glm() will assign residuals of the working type, whereas, resid() gives the deviance type as default.

To try this out, you can use:




and that should give you the same answer (at least, it did on a sample dataset I used).

According to R, working residuals are: "the residuals in the final iteration of the IWLS fit"

If you look up the book: "Generalized Linear models and extensions" (by Hardin and Hilbe) on googlebooks, you can access section 4.5 which explains the various types of residuals.

  • Great reference to the book by Hardin and Hilbe! Thanks! – Theodore Lytras Jan 31 '14 at 10:14

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