问题
I'm trying to do a 10-fold cross validation for some glm models that I have built earlier in R. I'm a little confused about the cv.glm()
function in the boot
package, although I've read a lot of help files. When I provide the following formula:
library(boot)
cv.glm(data, glmfit, K=10)
Does the "data" argument here refer to the whole dataset or only to the test set?
The examples I have seen so far provide the "data" argument as the test set but that did not really make sense, such as why do 10-folds on the same test set? They are all going to give exactly the same result (I assume!).
Unfortunately ?cv.glm
explains it in a foggy way:
data: A matrix or data frame containing the data. The rows should be cases and the columns correspond to variables, one of which is the response
My other question would be about the $delta[1]
result. Is this the average prediction error over the 10 trials? What if I want to get the error for each fold?
Here's what my script looks like:
##data partitioning
sub <- sample(nrow(data), floor(nrow(x) * 0.9))
training <- data[sub, ]
testing <- data[-sub, ]
##model building
model <- glm(formula = groupcol ~ var1 + var2 + var3,
family = "binomial", data = training)
##cross-validation
cv.glm(testing, model, K=10)
回答1:
I am always a little cautious about using various packages 10-fold cross validation methods. I have my own simple script to create the test and training partitions manually for any machine learning package:
#Randomly shuffle the data
yourData<-yourData[sample(nrow(yourData)),]
#Create 10 equally size folds
folds <- cut(seq(1,nrow(yourData)),breaks=10,labels=FALSE)
#Perform 10 fold cross validation
for(i in 1:10){
#Segement your data by fold using the which() function
testIndexes <- which(folds==i,arr.ind=TRUE)
testData <- yourData[testIndexes, ]
trainData <- yourData[-testIndexes, ]
#Use test and train data partitions however you desire...
}
回答2:
@Roman provided some answers in his comments, however, the answer to your questions is provided by inspecting the code with cv.glm
:
I believe this bit of code splits the data set up randomly into the K-folds, arranging rounding as necessary if K does not divide n:
if ((K > n) || (K <= 1))
stop("'K' outside allowable range")
K.o <- K
K <- round(K)
kvals <- unique(round(n/(1L:floor(n/2))))
temp <- abs(kvals - K)
if (!any(temp == 0))
K <- kvals[temp == min(temp)][1L]
if (K != K.o)
warning(gettextf("'K' has been set to %f", K), domain = NA)
f <- ceiling(n/K)
s <- sample0(rep(1L:K, f), n)
This bit here shows that the delta value is NOT the root mean square error. It is, as the helpfile says The default is the average squared error function.
What does this mean? We can see this by inspecting the function declaration:
function (data, glmfit, cost = function(y, yhat) mean((y - yhat)^2),
K = n)
which shows that within each fold, we calculate the average of the error squared, where error is in the usual sense between predicted response vs actual response.
delta[1]
is simply the weighted average of the SUM of all of these terms for each fold, see my inline comments in the code of cv.glm
:
for (i in seq_len(ms)) {
j.out <- seq_len(n)[(s == i)]
j.in <- seq_len(n)[(s != i)]
Call$data <- data[j.in, , drop = FALSE]
d.glm <- eval.parent(Call)
p.alpha <- n.s[i]/n #create weighted average for later
cost.i <- cost(glm.y[j.out], predict(d.glm, data[j.out,
, drop = FALSE], type = "response"))
CV <- CV + p.alpha * cost.i # add weighted average error to running total
cost.0 <- cost.0 - p.alpha * cost(glm.y, predict(d.glm,
data, type = "response"))
}
来源:https://stackoverflow.com/questions/21380236/cross-validation-for-glm-models