Recursive tree

In graph theory, a recursive tree (i.e., unordered tree) is a non-planar labeled rooted tree. A size-n recursive tree is labeled by distinct integers 1, 2, ..., n, where the labels are strictly increasing starting at the root labeled 1. Recursive trees are non-planar, which means that the children of a particular node are not ordered. E.g. the following two size-three recursive trees are the same.

       1          1
      / \   =    / \
     /   \      /   \
    2     3    3     2

Recursive trees also appear in literature under the name Increasing Cayley trees.

Properties

The number of size-n recursive trees is given by

Hence the exponential generating function T(z) of the sequence Tn is given by

Combinatorically a recursive tree can be interpreted as a root followed by an unordered sequence of recursive trees. Let F denote the family of recursive trees.

where denotes the node labeled by 1, × the Cartesian product and the partition product for labeled objects.

By translation of the formal description one obtains the differential equation for T(z)

with T(0) = 0.

Bijections

There are bijective correspondences between recursive trees of size n and permutations of size n  1.

Applications

Recursive trees can be generated using a simple stochastic process. Such random recursive trees are used as simple models for epidemics.

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.