The Generalized Bergman Game
Abstract
Every positive integer may be written uniquely as a base- decomposition--that is a legal sum of powers of --where is the dominating root of a non-increasing positive linear recurrence sequence. Guided by earlier work on a two-player game which produces the Zeckendorf Decomposition of an integer (see [Bai+19]), we define a broad class of two-player games played on an infinite tuple of non-negative integers which decompose a positive integer into its base- expansion. We call this game the Generalized Bergman Game. We prove that the longest possible Generalized Bergman game on an initial state with summands terminates in time, and we also prove that the shortest possible Generalized Bergman game on an initial state terminates between and time. We also show a linear bound on the maximum length of the tuple used throughout the game.
Keywords
Cite
@article{arxiv.2109.00117,
title = {The Generalized Bergman Game},
author = {Benjamin Baily and Justine Dell and Irfan Durmić and Henry Fleischmann and Faye Jackson and Isaac Mijares and Steven J. Miller and Ethan Pesikoff and Luke Reifenberg and Alicia Smith Reina and Yingzi Yang},
journal= {arXiv preprint arXiv:2109.00117},
year = {2021}
}
Comments
34 pages, 6 figures, to be submitted in Fibonacci Quartlerly