# Calculate confidence intervals for model averaged data using shrinkage in R

I'm trying to run a nest survival model using the logistic-exposure method based on Shaffer, 2004. I have a range of parameters and wish to compare all possible models and then estimate model-averaged parameters using shrinkage as in Burnham and Anderson, 2002. However, I am having trouble figuring out how to estimate the confidence intervals for the shrinkage adjusted parameters.

Is it possible to estimate confidence intervals for the model-averaged parameters estimated using shrinkage? I can easily extract the mean estimates for the model-averaged parameters with shrinkage using model.average\$coef.shrinkage but am unclear how to get the corresponding confidence intervals.

Any help is gratefully appreciated. I'm currently working with the MuMIn package as I get errors with AICcmodavg regarding the link function.

Below is a simplified version of the code I'm using:

``````library(MuMIn)

# See Shaffer, T.  2004. A unifying approach to analyzing nest success.
# Auk 121(2): 526-540.

logexp <- function(days = 1)
{
require(MASS)
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="")
mu.eta = mu.eta, valideta = valideta, name = link),
}

# randomly generate data
nest.data <- data.frame(egg=rep(1,100), chick=runif(100), exposure=trunc(rnorm(100,113,10)), density=rnorm(100,0,1), height=rnorm(100,0,1))
nest.data\$chick[nest.data\$chick<=0.5] <- 0
nest.data\$chick[nest.data\$chick!=0] <- 1

# run global logistic exposure model
glm.logexp <- glm(chick/egg ~  density * height, family=binomial(logexp(days=nest.data\$exposure)), data=nest.data)

# evaluate all possible models
model.set <- dredge(glm.logexp)

# model average 95% confidence set and estimate parameters using shrinkage
mod.avg <- model.avg(model.set, beta=TRUE)
(mod.avg\$coef.shrinkage)
``````

Any ideas on how to extract/generate the corresponding confidence intervals?

Thanks Amy

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This is some really cool modeling. I don't fully understand this, but I assume that you are aware that mod.avg\$avg.model returns CIs and you are asking about estimates using shrinkage, which, if I understand correctly, those aren't. And the help for model.avg uses this for CIs but I am not really sure what the cumsum(weight) arg is doing: confint(model.avg(model.set, cumsum(weight) <= .95)) – MattBagg Nov 12 '12 at 6:43
Thinking about it more, this question might get better attention at Cross-validated (stats.stackexchange.com), which actually has a shrinkage tag. To the extent that the question concerns the appropriate method to estimate CIs in this type of model, it is more a stats question than a coding question. – MattBagg Nov 13 '12 at 4:10
Thanks @mb3041023. The `cumsum(weight=x)` argument restricts the models that are included in the model averaging to those whose cumulative weight equal x. Unfortunately `confint` doesn't use shrinkage but I have come up with a hack that I think works based on equation 5 in Lukacs, P. M., Burnham, K. P., & Anderson, D. R. (2009). Model selection bias and Freedman’s paradox. Annals of the Institute of Statistical Mathematics, 62(1), 117–125. Code included in a separate comment. Thanks also for the heads-up about Cross-validated. – nzwormgirl Nov 15 '12 at 2:05

After pondering about this for a while, I have come up with the following solution based on equation 5 in Lukacs, P. M., Burnham, K. P., & Anderson, D. R. (2009). Model selection bias and Freedman’s paradox. Annals of the Institute of Statistical Mathematics, 62(1), 117–125. Any comments on its validity would be appreciated.

The code follows on from that above:

``````# MuMIn generated shrinkage estimate
shrinkage.coef <- mod.avg\$coef.shrinkage

# beta parameters for each variable/model combination
coef.array <- mod.avg\$coefArray
coef.array <- replace(coef.array, is.na(coef.array), 0) # replace NAs with zeros

# generate empty dataframe for estimates
shrinkage.estimates <- data.frame(shrinkage.coef,variance=NA)

# calculate shrinkage-adjusted variance based on Lukacs et al, 2009
for(i in 1:dim(coef.array)[3]){
input <- data.frame(coef.array[,,i],weight=model.set\$weight)

variance <- rep(NA,dim(input)[2])
for (j in 1:dim(input)[2]){
variance[j] <- input\$weight[j] * (input\$Std..Err[j]^2 + (input\$Estimate[j] - shrinkage.estimates\$shrinkage.coef[i])^2)
}
shrinkage.estimates\$variance[i] <- sum(variance)
}

# calculate confidence intervals
shrinkage.estimates\$lci <- shrinkage.estimates\$shrinkage.coef - 1.96*shrinkage.estimates\$variance
shrinkage.estimates\$uci <- shrinkage.estimates\$shrinkage.coef + 1.96*shrinkage.estimates\$variance
``````
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My guess is that you meant to use the square root of the variance when building your shrinkage confidence intervals instead of the variance. Unless I missed where you took the square root? – aosmith Aug 28 '13 at 15:30