Title :
Fault-Tolerant k-Fold Pivot Routing in Wireless Sensor Networks
Author_Institution :
Univ. of Texas, Richardson
Abstract :
Selecting a small set of nodes called pivots, from all the nodes in a network and maintaining the routing infrastructure to and among each other can reduce routing overhead and excessive broadcast redundancy. In this paper a new problem, called "k-fold cover t- set" (for short, k-fold cover), is proposed: we select a smaller set of nodes than the k-fold dominating set, to act as alternative routers for messages in the network. An advantage of the k-fold cover is that it can be defined for graphs where the k-fold dominating set cannot be defined. Computing the minimum size k-fold cover for any k ges 1 is NP-complete. Two approximation algorithms for the k-fold cover problem are proposed: one uses a greedy approach to compute the cover and the other uses randomization.
Keywords :
approximation theory; broadcasting; communication complexity; fault tolerance; graph theory; greedy algorithms; randomised algorithms; set theory; telecommunication network routing; wireless sensor networks; NP-complete; approximation algorithms; broadcast redundancy; fault-tolerant k-fold pivot routing; graphs; greedy approach; k-fold cover problem; k-fold cover t- set problem; wireless sensor networks; Broadcasting; Computer crashes; Energy consumption; Fault tolerance; Fault tolerant systems; Redundancy; Routing; Spine; Wireless communication; Wireless sensor networks;
Conference_Titel :
Hawaii International Conference on System Sciences, Proceedings of the 41st Annual
Conference_Location :
Waikoloa, HI
DOI :
10.1109/HICSS.2008.170
