ISSN NO: 0974-4274(PRINT), ISSN NO: 2582-1148(ONLINE)

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Functional Analysis of Cluster-Based Routing Protocols for Wireless Sensor Networks

Year 2012
Volume/Issue/Review Month Vol. - V | Spl. Issue II | July
Title Functional Analysis of Cluster-Based Routing Protocols for Wireless Sensor Networks
Authors Ms. Puspanjali Mallik , Ms. Bijayalaxmi Panda
Broad area Functional Analysis of Cluster-Based Routing Protocols for Wireless Sensor Networks
Abstract
Wireless Sensor Networks (WSNs) have gained worldwide attention in recent
years with the wide deployment of smart sensors. These sensors are small,
with limited processing resources and limited battery life. Sensor nodes can
sense, measure and gather information from the environment and based on
some local decision process, they can transmit the sensed data to the base
station. WSNs are large networks made up of numerous number of sensor
nodes with sensing, computation and wireless application capabilities.
Due to the non-uniform node distribution, the energy consumption among
nodes is more imbalanced in cluster-based wireless sensor networks. Here
we give a brief summary of the analysis and simulation of cluster-based routing
protocols, based on the energy consumption and conclude that the non-uniform
node distribution protocols like EADUC and EADC can give better energy
consumption than the uniform node distribution algorithm like LEACH.
Description A wireless sensor network consists of hundreds or thousands of inexpensive, low-powered sensing devices with limited memory, computational and communication resources [1].
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Referenceses
  • K.Sohraby, D. Monali, T. Znati “Routing strategies in wireless
  • sensor networks”, Wireless sensor networks
  • technology, pg 202-219.
  • Heinzelman WR, Chandrakasan A, Balakrishnan H.
  • Energy-efficient communication protocol for wireless
  • microsensor networks. Proc. of the 33rd Annual
  • Hawaii International Conference on System
  • Sciences, Maui; 2000. p. 1–10.
  • Younis O, Fahmy S. Heed: a hybrid, energy-efficient,
  • distributed clustering approach for ad hoc sensor
  • networks. IEEE Transactions on Mobile Computing
  • 2004;3:366–79.
  • Yu JG, Qi YY. An energy-driven unequal clustering protocol
  • for heterogeneous wireless sensor networks. Journal
  • of Control Theory and Applications 2011;9:133–9.
  • Qi YY, Yu JG, Wang NN. An energy-efficient distributed
  • clustering algorithm for wireless sensor networks.
  • Computer Engineering 2011;37(1):83–6.
  • Jia YC, Liu YH. Hierarchical clustering routing scheme
  • based on leach in wireless sensor networks.
  • Computer Engineering 2009;35:74–6.
  • Soro S, Heinzelman WR. Cluster head election techniques
  • for coverage preservation in wireless sensor
  • networks. Ad Hoc Networks 2009;7:955–72.
  • Yu JG, Qi YY, Wang G, Guo Q, Gu X. An energy-aware
  • distributed unequal clustering protocol for wireless
  • sensor networks. Inter-national Journal of
  • Distributed Sensor Networks 2011; in press, http:/
  • /www.hindawi.com/journals/ijdsn/aip/202145/