As long as you can calculate a distance/dissimilarity matrix (in whatever way you like) you can easily perform kNN classification without the need of any special package.

```
# Generate dummy data
y <- rep(1:2, each=50) # True class memberships
x <- y %*% t(rep(1, 20)) + rnorm(100*20) < 1.5 # Dataset with 20 variables
design.set <- sample(length(y), 50)
test.set <- setdiff(1:100, design.set)
# Calculate distance and nearest neighbors
library(e1071)
d <- hamming.distance(x)
NN <- apply(d[test.set, design.set], 1, order)
# Predict class membership of the test set
k <- 5
pred <- apply(NN[, 1:k, drop=FALSE], 1, function(nn){
tab <- table(y[design.set][nn])
as.integer(names(tab)[which.max(tab)]) # This is a pretty dirty line
}
# Inspect the results
table(pred, y[test.set])
```

If anybody knows a better way of finding the most common value in a vector than the dirty line above, I'd be happy to know.

The `drop=FALSE`

argument is needed to preserve the subset of `NN`

as matrix in the case `k=1`

. If not it will be converted to a vector and `apply`

will throw an error.

`knn`

and`kknn`

and`MTSKNN`

?