Equivariant topological complexities
Abstract
Many mechanical systems have configuration spaces that admit symmetries. Mathematically, such symmetries are modelled by the action of a group on a topological space. Several variations of topological complexity have emerged that take symmetry into account in various ways, either by asking that the motion planners themselves admit compatible symmetries, or by exploiting the symmetry to motion plan between functionally equivalent configurations. We will survey the main definitions due to Colman-Grant, Lubawski-Marzantowicz, B\l{}aszczyk-Kaluba and Dranishnikov, and some related notions. We conclude with a short list of open problems.
Cite
@article{arxiv.2402.01540,
title = {Equivariant topological complexities},
author = {Mark Grant},
journal= {arXiv preprint arXiv:2402.01540},
year = {2024}
}
Comments
This is a preprint version of an invited survey article for a book project with the working title "Topology and AI", edited by Michael Farber and Jes\'us Gonz\'alez