(Peer-Reviewed) Surviving rate of graphs and Firefighter Problem
Weifan WANG 王维凡, Jiangxu KONG 孔将旭
Department of Mathematics, Zhejiang Normal University, Jinhua 321004, China
中国 金华 浙江师范大学数学系
Abstract
The Firefighter Problem on a graph can be viewed as a simplified model of the spread of contagion, fire, rumor, computer virus, etc. The fire breaks out at one or more vertices in a graph at the first round, and the fire-fighter chooses some vertices to protect. The fire spreads to all non-protected neighbors at the beginning of each time-step. The process stops when the fire can no longer spread.
The Firefighter Problem has attracted considerable attention since it was introduced in 1995. In this paper we provide a survey on recent research progress of this field, including algorithms and complexity, Fire-fighter Problem for special graphs (finite and infinite) and digraphs, surviving rate and burning number of graphs. We also collect some open problems and possible research subjects.
Light-induced enhancement of exciton transport in organic molecular crystal
Xiao-Ze Li, Shuting Dai, Hong-Hua Fang, Yiwen Ren, Yong Yuan, Jiawen Liu, Chenchen Zhang, Pu Wang, Fangxu Yang, Wenjing Tian, Bin Xu, Hong-Bo Sun
Opto-Electronic Advances
2025-03-28
Double topological phase singularities in highly absorbing ultra-thin film structures for ultrasensitive humidity sensing
Xiaowen Li, Jie Sheng, Zhengji Wen, Fangyuan Li, Xiran Huang, Mingqing Zhang, Yi Zhang, Duo Cao2, Xi Shi, Feng Liu, Jiaming Hao
Opto-Electronic Advances
2025-03-28
Multi-photon neuron embedded bionic skin for high-precision complex texture and object reconstruction perception research
Hongyu Zhou, Chao Zhang, Hengchang Nong, Junjie Weng, Dongying Wang, Yang Yu, Jianfa Zhang, Chaofan Zhang, Jinran Yu, Zhaojian Zhang, Huan Chen, Zhenrong Zhang, Junbo Yang
Opto-Electronic Advances
2025-01-22
