Narrow Results

A radix sort tree arises when storing distinct infinite binary words in the leaves of a binary tree such that for any two words their common prefixes coincide with the common prefixes of the corresponding two leaves. If one deletes the out-degree 1 vertices in the radix sort tree and “closes up the gaps”, then the resulting PATRICIA tree maintains all the information that is necessary for sorting the infinite words into lexicographic order.

We investigate the PATRICIA chains — the tree-valued Markov chains that arise when successively building the PATRICIA trees for the collection of infinite binary words Z₁, … ,Z_n, n = 1, 2, …, where the source words Z₁, Z₂, … are independent and have a common diffuse distribution on {0, 1}^∞. It turns out that the PATRICIA chains share a common collection of backward transition probabilities and that these are the same as those of a chain introduced by Rémy for successively generating uniform random binary trees with larger and larger numbers of leaves. This means that the infinite bridges of any PATRICIA chain (that is, the chains obtained by conditioning a PATRICIA chain on its remote future) coincide with the infinite bridges of the Rémy chain. The infinite bridges of the Rémy chain are characterized concretely in Evans, Grübel, and Wakolbinger (2017) and we recall that characterization here while adding some details and clarifications.