First convert the string to a set of unique characters and occurrence numbers e.g. BANANA -> (3, A),(1,B),(2,N). (This could be done by sorting the string and grouping letters). Then, for each letter in the set, prepend that letter to all permutations of the set with one less of that letter (note the recursion). Continuing the "BANANA" example, we have: permutations((3,A),(1,B),(2,N)) = A:(permutations((2,A),(1,B),(2,N)) ++ B:(permutations((3,A),(2,N)) ++ N:(permutations((3,A),(1,B),(1,N))

Here is a working implementation in Haskell:

```
circularPermutations::[a]->[[a]]
circularPermutations xs = helper [] xs []
where helper acc [] _ = acc
helper acc (x:xs) ys =
helper (((x:xs) ++ ys):acc) xs (ys ++ [x])
nrPermutations::[(Int, a)]->[[a]]
nrPermutations x | length x == 1 = [take (fst (head x)) (repeat (snd (head x)))]
nrPermutations xs = concat (map helper (circularPermutations xs))
where helper ((1,x):xs) = map ((:) x)(nrPermutations xs)
helper ((n,x):xs) = map ((:) x)(nrPermutations ((n - 1, x):xs))
```