Title :
Scale-free topology for large-scale wireless sensor networks
Author :
Wang, Lili ; Dang, Jianxun ; Jin, Yi ; Jin, Huihua
Author_Institution :
Beihang Univ., Beijing
Abstract :
In this paper, we propose an efficient and fault tolerant topology control algorithm named AWSF for large-scale wireless sensor networks, which introduces the scale-free characteristic of complex networks into the topology of wireless sensor networks to minimize transmission delay and increase robustness. It is a distributed algorithm, letting each node locally adjust its transmission power and determine its neighbor relationship based on certain arbitrary weights which are random real numbers following a negative power-law probability distribution. The topology constructed under AWSF is proved to be scale-free, strongly connected and bi-directional. Simulation results show that the resulting topology has a small average degree and good network performance in terms of transmission delay and robustness.
Keywords :
complex networks; distributed algorithms; fault tolerance; minimisation; statistical distributions; telecommunication network topology; wireless sensor networks; complex networks; distributed algorithm; fault tolerant topology control algorithm; large-scale wireless sensor networks; negative power-law probability distribution; scale-free topology; transmission delay minimization; Bidirectional control; Complex networks; Disruption tolerant networking; Distributed algorithms; Fault tolerance; Large-scale systems; Network topology; Probability distribution; Robust control; Wireless sensor networks; fault tolerant; scale-free; sensor networks; time efficient; topology control;
Conference_Titel :
Internet, 2007. ICI 2007. 3rd IEEE/IFIP International Conference in Central Asia on
Conference_Location :
Tashkent
Print_ISBN :
978-1-4244-1007-1
DOI :
10.1109/CANET.2007.4401663
