English

Dynamic Complexity of Expansion

Computational Complexity 2020-08-14 v1

Abstract

Dynamic Complexity was introduced by Immerman and Patnaik \cite{PatnaikImmerman97} (see also \cite{DongST95}). It has seen a resurgence of interest in the recent past, see \cite{DattaHK14,ZeumeS15,MunozVZ16,BouyerJ17,Zeume17,DKMSZ18,DMVZ18,BarceloRZ18,DMSVZ19,SchmidtSVZK20,DKMTVZ20} for some representative examples. Use of linear algebra has been a notable feature of some of these papers. We extend this theme to show that the gap version of spectral expansion in bounded degree graphs can be maintained in the class \DynACz\DynACz (also known as \dynfo\dynfo, for domain independent queries) under batch changes (insertions and deletions) of O(lognloglogn)O(\frac{\log{n}}{\log{\log{n}}}) many edges. The spectral graph theoretic material of this work is based on the paper by Kale-Seshadri \cite{KaleS11}. Our primary technical contribution is to maintain up to logarithmic powers of the transition matrix of a bounded degree undirected graph in \DynACz\DynACz.

Cite

@article{arxiv.2008.05728,
  title  = {Dynamic Complexity of Expansion},
  author = {Samir Datta and Anuj Tawari and Yadu Vasudev},
  journal= {arXiv preprint arXiv:2008.05728},
  year   = {2020}
}

Comments

29 pages

R2 v1 2026-06-23T17:49:39.952Z