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I am using a user-defined logistic exposure model in a glm. For some background on the logistic exposure model, see here:


I would like to be able to use the predict function while being able to alter the 'exposure' variable. Here is my example code, which is hopefully self-explanatory:

    logexp <- function(days = 1)
    linkfun <- function(mu) qlogis(mu^(1/days))
    linkinv <- function(eta) plogis(eta)^days
    mu.eta <- function(eta) days * plogis(eta)^(days-1) *
      .Call("logit_mu_eta", eta, PACKAGE = "stats")
    valideta <- function(eta) TRUE
    link <- paste("logexp(", days, ")", sep="")
    structure(list(linkfun = linkfun, linkinv = linkinv,
                   mu.eta = mu.eta, valideta = valideta, name = link),
              class = "link-glm")



    ##the predictions seem to have retained the exposure from the original model
##this must be the case

#but I want predictions for exposure=1 only, let me try that
#it has retained the exposure variable from the original model.  maybe I should rename it days.

#nope, same problem

#maybe I can pass it in with the family argument as I did with the glm function
#sadly, no

I was able to scrub the logexp function from other sources, and am afraid that I do not know how to control it or exactly what it does (but I know that it seems to work!). Therefore, I cannot specify a different exposure in the predict function than what was used in the model. Does anybody know how I can specify a different exposure in the predict function? Ultimately, I want to create a very smooth graph of the predicted relationship between x and y, given that exposure=1, with very smooth confidence interval lines. I can achieve this only if I can master the predict function, or calculate the standard errors for each x gasp by hand.

Any help would be much appreciated. Thanks!

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migrated from stats.stackexchange.com Jan 20 '13 at 14:00

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Can you describe in words what you're trying to do with this user defined family? I'm not familiar with the logexp argument to binomial, but it looks suspiciously like some kind of weighting/offset. – ashkan Jan 19 '13 at 0:41
exposure was never in the model frame so R doesn't know anything about this; when you pass in newdata, R extracts variables in the formula of the model and passes them on to the underlying prediction code. It needs to be a term in the model but you have it in the family function call. But as I don't follow what you are doing, I'll leave the discussion there. – Gavin Simpson Jan 19 '13 at 20:40
This is the 'logistic-exposure' family, as described by Shaffer 2004 as a nest survival model. It is a modified logistic link. When people monitor bird nests for success(hatching or fledging)/failure, they find a nest and then come back periodically until they can determine success. The number of days between visits to the nest (exposure) is included in the link function to allow the probability of success for a single day to be calculated. I have found the logexp function in various places, including as the last example in ?family. I admit I don't fully understand the implementation in R. – P-value Jan 22 '13 at 17:03
@Gavin Simpson, I think if you follow my example closely, you will see that R most definitely 'knows' about the exposure variable. What I am trying to do is get the standard errors of the response at the new values of the xs, given exposure=1. However, I am not able to figure out how to update exposure to equal 1 in the predict function, and that is my question. Thanks. – P-value Jan 23 '13 at 17:38
Read my comment carefully; exposure isn't in the model frame that glm() built for you from the formula. That exposure is in the data object is irrelevant. exposure is available when R parses the call and runs glm() to fit the model, but this run-time value is then fixed, there is nothing that predict() can do to alter it; it works by matching variables in the formula and as exposure isn't in it, you can't do what you want via predict(). Unfortunately I don't know how to do that. But if you don't want to take my advice... – Gavin Simpson Jan 23 '13 at 18:19

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