Wireless sensor networks have been studied widely
for their broad range of potential observation and tracking
applications which are typically composed of large number of
tiny sensors. This proposed system explored the optimal
distribution of nodes for better network topology in wireless
sensor network. As the nodes are assumed to be distributed
regularly or uniformly but in practice they may not be placed
uniformly which could have a huge crash on network
properties. Most of the schemes have proven to be able to
provide a better network monitoring and communication
performance with protracted system lifetime. In this paper full
analysis of the various methods is provided. Existing problem is
analyzed by considering previous achievements and possible
research is pointed out. Routing strategy has employed in which
the aomdv algorithm is introduced which is an efficient topology
maintenance algorithm which finds the available path for the
transmission of packets from source to destination.
Priyanka Tadas : Department of Computer Science and Engineering, G.H. Raisoni
Institute of Engineering and Technology for Women,
Nagpur, Maharashtra, India
Purnima Soni : Assistant Professor, Department of Computer Science and Engineering,
G.H. Raisoni Institute of Engineering and Technology
for Women, Nagpur, Maharashtra, India
Wireless Sensor Network
Throughput
Topology
In this paper the survey is made over efficient topology by
studying some routing and broadcasting schemes. Various
existing methods are also studied for maintaining efficient
topology in wireless sensor network. To overcome the
drawback of these techniques efficient topology
maintenance algorithm is proposed. By considering
various topologies optimal topology is chosen in which
nodes distribution is optimal which leads to
improvements in network performance.
[1] Sen yang, Xiaoying Gan, Feng Yang, “Topology
Analysis of Wireless Sensor Networks Based on
Nodes’ Spatial Distribution”IEEE Transactions on
Wireless Communications, Vol. 13, no. 5, May 2014.
[2] S. Toumpis, Member, and Leandros
Tassiulas,”Optimal Deployment of Large Wireless
Sensor Networks” 2006.
[3] Guoqiang Mao and Brian DO Anderson, “Capacity of
Large Wireless Networks withGenerally Distributed
Nodes” IEEE Transactions on Wireless
Communications, Vol. 13, no. 3, March 2014.
[4] S. Toumpis G. A. Gupta” Optimal Placement of
Nodes in Large Sensor Networks under a General
Physical Layer Model” IEEE 2005.
[5] Hakki Bagci, Ibrahim Korpeoglu, , and Adnan
Yazici,” A Distributed Fault-Tolerant Topology
Control Algorithm for Heterogeneous Wireless
Sensor Networks” IEEE Transactions on Parallel and
Distributed Systems.
[6] Jason Tillett Shanchieh Yang” Optimal topologies
for wireless sensor networks” conference paper
2004.
[7] Stefania Sardellitti, Sergio Barbarossa” Optimal
Topology Control and Power Allocation for
Minimum Energy Consumption in Consensus
networks” IEEE transactions on signal processing,
vol. 60, no. 1, january 2012.
[8] Pan Li Yuguang Fang Yuguang Fang “The Capacity
of Heterogeneous Wireless Networks” IEEE
Communications 2010.
[9] Mina Youssef1, Caterina Scoglio1 and Todd Easton2
“Optimal Topology Design for Overlay Networks.
[10] Radha Krishna Ganti and Martin Haenggi”
Interference and Outage in Clustered Wireless Ad
Hoc Networks” june 2007.
[11] Metin Inanc, Malik Magdon-Ismail “Power Optimal
Connectivity and Coverage in Wireless Sensor
Networks”.