A Novel Energy Efficient Joint Dynamic Emissive Location-Based Routing Scheme for SOFAR Channel Underwater Sensor Networks

Chia Sheng Tsai; Chich Fu Yang

doi:10.4028/www.scientific.net/AMM.284-287.2001

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 284-287A Novel Energy Efficient Joint Dynamic Emissive...

A Novel Energy Efficient Joint Dynamic Emissive Location-Based Routing Scheme for SOFAR Channel Underwater Sensor Networks

Abstract:

The Underwater Sensor Network (UWSN) could be recorded by hydrophones suspended in the channel as earthquake monitors by seismic events on or below the seafloor generated energy. In this paper, we present a novel position of sensor devices and routing protocol towards short for Sound Fixing and Ranging channel (SOFAR) for Sound Fixing and Ranging channel technologies, which could save transmission power. The sound speed also increases towards the warmer sea surface with temperature. Thus we use the oceanography to find more efficient ways of utilizing routing protocol and in to obtain more effective detection and identification capabilities for underwater sources. We present an adaptive location-based routing protocol which can overcome the location based UWSN without Global Positioning System (GPS) position. It reduced costs of deployment in long range propagation. The performances are measured according to the energy consumption per bit in which the result of simulator is better than other routing protocols such as FBR.

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Periodical:

Applied Mechanics and Materials (Volumes 284-287)

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2001-2004

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https://doi.org/10.4028/www.scientific.net/AMM.284-287.2001

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January 2013

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Chia Sheng Tsai, Chich Fu Yang

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FBR, GPS, Oceanography, SOFAR, UWSN

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References

[1] M. K. Park and V. Rodoplu, "UWAN-MAC: An Energy-Efficient MAC Protocol for Underwater Acoustic Wireless Sensor Networks," IEEE Journal of Oceanic Engineering, vol. 32, no. 3, July (2007).

DOI: 10.1109/joe.2007.899277

Google Scholar

[2] M. Stojanovic, "Recent Advances in High-Speed Underwater Acoustic Communications," IEEE Journal of Oceanic Engineering, vol. 121, no. 2, pp.125-136, April (1996).

DOI: 10.1109/48.486787

Google Scholar

[3] P.-F. Piserchia, D. Rodrigues, J. Virieux, S. Gaffet, "Detection of underwater explosion at very long-range," OCEANS '98 Conference Proceedings, vol. 2, pp.698-702, Oct (1998).

DOI: 10.1109/oceans.1998.724328

Google Scholar

[4] W. Jans, "Hydroacoustic CTBT monitoring of the World Oceans Strengths and Weaknesses," VERTIC Seminar during the Article XIV conference, pp.21-23, September (2005).

Google Scholar

[5] B. Srinivasan, V. Rodoplu, "Energy-Efficient Joint Source-Channel Coding for Optical Wireless Underwater Networks," Oceans 2007, p.1 – 5, Oct. (2007)

DOI: 10.1109/oceans.2007.4449217

Google Scholar

[6] P. SUN, W. K. G. SEAH1, P. W.Q. LEE , "Efficient Data Delivery with Packet Cloning for Underwater Sensor Networks," Underwater Technology and Workshop on Scientific Use of Submarine Cables and Related Technologies, 2007. Symposium on, p.34 – 41, Apr. (2007)

DOI: 10.1109/ut.2007.370944

Google Scholar

[7] Peng Xie, Jun-Hong Cui, Li Lao, "VBF:Vector-Based Forwarding Protocol for Underwater Sensor Networks," IFIP Networking'06, p.1216--1221. Coimbra, Portugal, May (2006).

DOI: 10.1007/11753810_111

Google Scholar

[8] D. B. Kilfoyle and A. B. Baggeroer, "The state of the art in underwater acoustic telemetry," IEEE Journal of Oceanic Enginnering, VOL. 25, p.4–27, (2000).

DOI: 10.1109/48.820733

Google Scholar

[9] Josep Miquel Jornet, Milica Stojanovic, Michele Zorzi." Focused Beam Routing Protocol for Underwater Acoustic Networks" International Conference on Mobile Computing and Networking, third ACM international workshop on Underwater Networks, PP. 75-82, (2008).

DOI: 10.1145/1410107.1410121

Google Scholar

[10] Porto, A.; Stojanovic, M.,"Optimizing the Transmission Range in an Underwater Acoustic Network,"OCEANS 2007,pp.1-5,(2007)

DOI: 10.1109/oceans.2007.4449241

Google Scholar

[11] J.M. Jornet, "AUVNetSim: A Simulator for Underwater Acoustic Networks", MIT Sea Grant Technical Report,Available:http://seagrant.mit.edu/media/publications/MITSG08-4.pdf., (2008)

Google Scholar

[12] Jesús Llor * and Manuel P. Malumbres, "Underwater Wireless Sensor Networks: How Do Acoustic Propagation Models Impact the Performance of Higher-Level Protocols," Open Access Sensors journal, VOL.12,pp.1312-1335, (2012)

DOI: 10.3390/s120201312

Google Scholar