English

Depths in random recursive metric spaces

Probability 2024-11-20 v2

Abstract

As a generalization of random recursive trees and preferential attachment trees, we consider random recursive metric spaces. These spaces are constructed from random blocks, each a metric space equipped with a probability measure, containing a labelled point called a hook, and assigned a weight. Random recursive metric spaces are equipped with a probability measure made up of a weighted sum of the probability measures assigned to its constituent blocks. At each step in the growth of a random recursive metric space, a point called a latch is chosen at random according to the equipped probability measure and a new block is chosen at random and attached to the space by joining together the latch and the hook of the block. We use martingale theory to prove a law of large numbers and a central limit theorem for the insertion depth; the distance from the master hook to the latch chosen. We also apply our results to further generalizations of random trees, hooking networks, and continuous spaces constructed from line segments.

Keywords

Cite

@article{arxiv.2210.03557,
  title  = {Depths in random recursive metric spaces},
  author = {Colin Desmarais},
  journal= {arXiv preprint arXiv:2210.03557},
  year   = {2024}
}

Comments

17 pages. This version contains a new proof of the main theorem suggested by a referee and more details are added in the applications section

R2 v1 2026-06-28T03:00:23.586Z