I don't think it has a name, but there's a data structure that might be useful here. It's basically just a normal tree, except that every node in the tree includes a count of the nodes in its left sub-tree. This supports all the basic operations with no worse than logarithmic complexity. During insertion, anytime you insert an item in a left sub-tree, you increment the node's count. During deletion, anytime you delete from the left sub-tree, you decrement the node's count. To index to node N, you start from the root. The root has a count of nodes in its left sub-tree, so you check whether N is less than, equal to, or greater than the count for the root. If it's less, you search in the left subtree in the same way. If it's greater, you descend the right sub-tree, add the root's count to that node's count, and compare that to N. Continue until A) you've found the correct node, or B) you've determined that there are fewer than N items in the tree.