Residual Energy in Wireless Ad-Hoc Network Using Ercim

Authors

  • Dr. S. K. Manju Bargavi  Department of Computer Science, Eritrea Institute of Technology, Asmara, Eritrea, India

Keywords:

Bandwidth, PNCC, Interference, Residual, Topology.

Abstract

A wireless ad hoc network is a collection of nodes exchanging information through radio or infrared wireless adapters. Such a network functions without an established infrastructure. Each node communicates directly with destinations within wireless transmission range and indirectly with all other destinations, relying on its peers to forward traffic on its behalf. In this networks are generally characterized by bandwidth-constrained, variable-capacity links and an unpredictable, dynamic topology. Because the nodes of an ad hoc network are usually small, battery powered devices, energy management is a critical issue for practical deployment of these networks. In this paper, we introduced an Enhanced Receiver Centric Interference model (ERCIM) with PNCC algorithm to calculate the residual energy in during transmission. This algorithm proves the guarantees to build a valid topology for transfer data between source and destination.

References

  1. E. Jones, K. M. Sivalingam, P. Agrawal, and J. C. Chen 2001. A survey of energy efficient network protocols for wireless networks, Wireless Networks,  (Aug. 2001) vol. 7, no. 4, pp. 343–358.
  2. Charles E. Perkins , “Ad Hoc Networking” Addison-Wesley, December 2000.
  3. Gupta and P. R. Kumar. 2000. The capacity of wireless networks, IEEE Trans. Inform. Theory, vol. 46, no. 2, pp. 388–404, (Mar. 2000).
  4. Narayanaswamy, V. Kawadia, R. S. Sreenivas, and P. R. Kumar 2002, Power control in ad-hoc networks: Theory, architecture, algorithm and implementation of the compow protocol, in Proc. of European Wireless 2002, Next Generation Wireless Networks: Technologies, Protocols, Services and Applications, Florence, Italy, (Feb. 2002), pp. 156–162.
  5. Li, J. Y. Halpern, P. Bahl, Y.-M. Wang, and R. Wattenhofer 2001. Analysis of a cone-based distributed topology control algorithm for wireless multi-hop networks in Proc. ACM Symposium on Principlesof Distributed Computing, Newport, Rhode Island, United States, (Aug. 2001), pp. 264–273.
  6. Rodoplu and T. H. Meng, 1999. Minimum energy mobile wireless networks IEEE J. Select. Areas Commun., vol. 17, no. 8, pp. 1333–1344,  (Aug. 1999).
  7. Liang. 2002. Constructing Minimum-Energy Broadcast Trees in Wireless Ad Hoc Networks. In Proc. of 3rd ACM International Symposium on Mobile Ad Hoc Networking and Computing (MOBIHOC 02), pp. 112-122, (2002).
  8. Fussen, R. Wattenhofer, and A. Zollinger. 2005. Interference Arises at the Receiver. In Proc. of the 2005 International Conference on Wireless Networks, Communications, and Mobile Computing (WIRELESSCOM 05), (2005).
  9. K. Manju bargavi and Dr. G.P. Rajamani 2014. Saving Energy in Wireless Ad hoc Network with Nearest Component Connector Algorithm, Journal of Applied and Theoretical Information Technology, vol. 67, no. 3. (Sep. 2014).
  10. Lu Ruan and Zhi Liu 2005. Upstream node initiated fast restoration in MPLS network, IEEE conference on Communications, Seoul, Korea, vol. 2, pp. 959-964, (2005).

International Journal of Scientific Research in Science, Engineering and Technology

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Published

2016-10-30

Issue

Volume 2, Issue 5, September-October-2016

Section

Research Articles

License

Copyright (c) IJSRSET

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This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Dr. S. K. Manju Bargavi, " Residual Energy in Wireless Ad-Hoc Network Using Ercim, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 2, Issue 5, pp.311-315, September-October-2016.