To increase the efficiency of underwater network using vector based technique

To increase the efficiency of underwater network using vector based technique

  IJCOT-book-cover
 		 International Journal of Computer & Organization Trends  (IJCOT)          
 
© 2016 by IJCOT Journal
Volume - 6 Issue - 2
Year of Publication : 2016
Authors :  Meenakshi sharma, Malika saini, Alka Thakur
DOI : 10.14445/22492593/IJCOT-V33P303

Citation

Meenakshi sharma, Malika saini, Alka Thakur"To increase the efficiency of underwater network using vector based technique", International Journal of Computer & organization Trends (IJCOT), V6(2):13-16 Mar - Apr 2016, ISSN:2249-2593, www.ijcotjournal.org. Published by Seventh Sense Research Group.

Abstract For the enhancement of underwater acoustic network the current research is focus oncommunication between various remote instruments to improve the high-rate reliable communication, energy efficiency and robustness. Underwater acoustic are generally formed by connecting ocean-bottom sensors, autonomous under water vehicles, and a surface station. They provide a link to on-shore control center. Underwater acoustic networks are different from ground based networks. They can be deployed for commercial and military applications. Underwater networks consist of a number of sensors and vehicles that are deployed to perform collaborative monitoring tasks over a given area. This paper introduces the research issues of UANs like ranging from energy saving and deployment to different layers and the solutions for these issues.

References

1. C. Zhang, M. C. Zhou, and M. Yu, “Ad hoc Network Routing and Security: A Review,” International Journal of Communication Systems, Vol. 20, pp. 909-925, Aug. 2007.
2. F. Schill, U.R. Zimmer, and J. Trumpf, “Visible Spectrum Optical Communication and Distance Sensing for Underwater Applications”, In Proc. Australasian Conf. Robotics and Automation, Canberra, Australia, Dec., 2004.
3. International Journal of Scientific &Engineering Research Volume 2, Issue 7, July-2011 1ISSN 2229-5518.
4. I. F. Akyildiz, D. Pompili, and T. Melodia, “Underwater acoustic sensor networks: research challenges”, Ad Hoc Networks (Elsevier), vol. 3, no. 3, pp. 257-279, March 2005.
5. K. Akkaya, M. Younis, A survey on routing protocols for wireless sensor networks, Ad Hoc Networks 3 (3) (2005) 325–349, in this issue.
6. L. Brekhovskikh, Y. Lysanov, Fundamentals of Oceans Acoustics, Springer, New York, 2007.
7. M. Abolhasan, T. Wysocki, E. Dutkiewicz, A review of routing protocols for mobile ad hoc networks, Ad Hoc Networks 2 (1) (2004) 1–22.
8. P. Bose, P. Morin, I. Stojmenovic, J. Urrutia, Routing with guaranteed delivery in ad hoc wireless networks, ACM Wireless Networks 7 (6) (2006) 609–616.
9. O.B. Akan, I.F. Akyildiz, Event-to-sink reliable transport in wireless sensor networks, IEEE/ACM Transactions on Networking, in press.
10. Underwater Acoustic Networks Ethem M. Sozer, Milica Stojanovic, and John G. Proakis, Life Fellew IEEE.

Keywords
Underwater Acoustic Networks, under water Acoustic communications, Energy Efficiency,Robust, scalable, Cross layer Design, NS2 simulation.