Faster Algorithms for Generalized Mean Densest Subgraph Problem
Abstract
The densest subgraph of a large graph usually refers to some subgraph with the highest average degree, which has been extended to the family of -means dense subgraph objectives by~\citet{veldt2021generalized}. The -mean densest subgraph problem seeks a subgraph with the highest average -th-power degree, whereas the standard densest subgraph problem seeks a subgraph with a simple highest average degree. It was shown that the standard peeling algorithm can perform arbitrarily poorly on generalized objective when but uncertain when . In this paper, we are the first to show that a standard peeling algorithm can still yield -approximation for the case . (Veldt 2021) proposed a new generalized peeling algorithm (GENPEEL), which for has an approximation guarantee ratio , and time complexity , where and denote the number of edges and nodes in graph respectively. In terms of algorithmic contributions, we propose a new and faster generalized peeling algorithm (called GENPEEL++ in this paper), which for has an approximation guarantee ratio , and time complexity , where and denote the number of edges and nodes in graph, respectively. This approximation ratio converges to 1 as .
Keywords
Cite
@article{arxiv.2310.11377,
title = {Faster Algorithms for Generalized Mean Densest Subgraph Problem},
author = {Chenglin Fan and Ping Li and Hanyu Peng},
journal= {arXiv preprint arXiv:2310.11377},
year = {2023}
}
Comments
arXiv admin note: text overlap with arXiv:2106.00909 by other authors