Recent Innovations in Wireless Network Security (e-ISSN: 3048-8354)

This is the period of logical upset and creation. With the progression of time science has been knowledgeable about new innovation and exploration region. Submerged sensor network is one of the difficult and fascinating examination fields that opens the entryway of satisfying a great deal of scientist in concentrating on the field. In numerous applications, submerged hubs are energy compelled as well as hub is portable in water climate because of water flow; what's more, in this manner, create a versatile, strong and energy-productive convention is extremely difficult and at times it is a troublesome undertaking. Disregarding this compelled way, specialists fostered a few steering convention however those are lost their allure with the time. This is the interest old enough to give an energy-effective and adaptable vigorous steering convention. In this proposition we propose a novel directing convention named level based steering (LBR) convention, expecting to give powerful, versatile and energy proficient steering. LBRP is basically a level-based directing methodology. No state data is expected on the sensor hubs and just a little part of the hubs is engaged with directing. LBRP likewise guarantees the best utilization of complete energy utilization and guarantees bundle transmission is more solid in contrasted with other steering convention. The proposed directing convention considers remaining energy, level and distance from the sending hub to the sink hub to direct a bundle from source to the objective hub. The sending choice is taken by level of the sending hub and applying multicasting procedure. We utilize the degree of sending hub, remaining energy and distance from the sending hub to the sending hub as proof in Multicasting method. In order to support the improved performance of the proposed protocol, simulation has been carried out in both noisy and noiseless environments.

Akyildiz, I. F., Pompili, D., & Melodia, T. (2005). Underwater acoustic sensor networks: research challenges. Ad hoc networks, 3(3), 257-279.

Guo, L., Santschi, P. H., Baskaran, M., & Zindler, A. (1995). Distribution of dissolved and particulate230Th and232Th in seawater from the Gulf of Mexico and off Cape Hatteras as measured by SIMS. Earth and Planetary Science Letters, 133(1-2), 117-128.

Xie, P., Cui, J. H., & Lao, L. (2006). VBF: Vector-based forwarding protocol for underwater sensor networks. In NETWORKING 2006. Networking Technologies, Services, and Protocols; Performance of Computer and Communication Networks; Mobile and Wireless Communications Systems: 5th International IFIP-TC6 Networking Conference, Coimbra, Portugal, May 15-19, 2006. Proceedings 5 (pp. 1216-1221). Springer Berlin Heidelberg.

Nicolaou, N., See, A., Xie, P., Cui, J. H., & Maggiorini, D. (2007, June). Improving the robustness of location-based routing for underwater sensor networks. In Oceans 2007-Europe (pp. 1-6). IEEE.

Domingo, M. C., & Prior, R. (2008). Energy analysis of routing protocols for underwater wireless sensor networks. Computer communications, 31(6), 1227-1238.

Nicolaou, N., See, A., Xie, P., Cui, J. H., & Maggiorini, D. (2007, June). Improving the robustness of location-based routing for underwater sensor networks. In Oceans 2007-Europe (pp. 1-6). IEEE.

Uddin, M. A. (2013). Link expiration time-aware routing protocol for UWSNs. Journal of Sensors, 2013.

Dhurandher, S. K., Obaidat, M. S., Goel, S., & Gupta, A. (2011, December). Optimizing energy through parabola based routing in underwater sensor networks. In 2011 IEEE Global Telecommunications Conference-GLOBECOM 2011 (pp. 1-5). IEEE.

Javidan, R., & Rafiee, H. (2013). A New Energy Efficient and Depth based Routing Protocol for Underwater Sensor Networks. British Journal of Science, 8(1).

Yan, H., Shi, Z. J., & Cui, J. H. (2008). DBR: Depth-based routing for underwater sensor networks. In NETWORKING 2008 Ad Hoc and Sensor Networks, Wireless Networks, Next Generation Internet: 7th International IFIP-TC6 Networking Conference Singapore, May 5-9, 2008 Proceedings 7 (pp. 72-86). Springer Berlin Heidelberg.