Paper Info
Title
A Fault-Tolerant And Energy Efficient Routing In A Dense And Large Scale Wireless Sensor Network
Abstract
In a wireless sensor network, a large number of small-size cheap sensor nodes are scattered, and have limited resources such as battery power, data processing capability and memory capacity. They should show fault-tolerance, energy efficiency, and topological adaptation to the change of external environment, therefore, an effective routing algorithm is essential. In general, if a network is large in scale, multi-hop transmission is more energy efficient than direct transmission. In case a large number of nodes are deployed densely within a fixed 1-hop communication range, however, many nodes participate in data transmission, multi-hop transmission consumes much more energy in such a case. Thus, this study proposes a routing algorithm that solves above problems at the same time in a dense and large scale sensor network. The result of experiment showed that routing algorithm proposed in this study has reasonable fault-tolerance, energy efficiency, and offers its adaptability to topological changes in a dense and large scale sensor network.
Year
DOI
Venue
2010
10.1007/978-3-642-17587-9_8
COMMUNICATION AND NETWORKING, PT I
Keywords
Field
DocType
Wireless Sensor Network, Fault-Tolerance, Energy Efficiency, Topology Adaptation, Multi-hop Routing
Key distribution in wireless sensor networks,Multipath routing,Static routing,Hierarchical routing,Computer network,Routing domain,Mobile wireless sensor network,Engineering,Wireless sensor network,Distributed computing,Routing protocol
Conference
Volume
ISSN
Citations 
119
1865-0929
0
PageRank 
References 
Authors
0.34
12
6
Name
Order
Citations
PageRank
Seongyong Choi1102.06
Jinsu Kim21049.80
Yangjae Park301.01
Joong-Kyung Ryu4374.95
Kee-Wook Rim515424.20
Jung-Hyun Lee6222.82