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Wireless Networks

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14-10-2017

DRADS: depth and reliability aware delay sensitive cooperative routing for underwater wireless sensor networks

Authors: Nadeem Javaid, Usman Shakeel, Ashfaq Ahmad, Nabil Alrajeh, Zahoor Ali Khan, Nadra Guizani

Published in: Wireless Networks | Issue 2/2019

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Abstract

In this paper, depth and reliability aware delay sensitive (DRADS), interference aware DRADS (iDRADS) and cooperative iDRADS (Co-iDRADS) routing protocols are proposed for maximizing network good-put while minimizing end-to-end delay. We have introduced a new metric called depth threshold to minimize the number of hops between source and destination while ensuring successful packet delivery. Our interference aware and co-operative routing based algorithms select the best relay node at each hop. Extensive simulation results validate that the proposed routing techniques perform better than the selected existing ones in terms of good-put and energy cost of the network.

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Javed, U., Suchara, M., He, J., & Rexford, J. (2009 January). Multipath protocol for delay-sensitive traffic. In 2009 first international communication systems and networks and workshops, IEEE, pp. 1–8.

Hsu, C. C., Liu, H. H., Gomez, J. L. G., & Chou, C. F. (2015). Delay-sensitive opportunistic routing for underwater sensor networks. IEEE Sensors Journal, 15(11), 6584–6591.CrossRef

Javaid, N., Jafri, M. R., Ahmed, S., Jamil, M., Khan, Z. A., Qasim, U., & Al-Saleh, S. S. (2015). Delay-sensitive routing schemes for underwater acoustic sensor networks. In International Journal of Distributed Sensor Networks, 2015, 13, Article ID 532676. doi:10.1155/2015/532676.

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, pp. 72–86. Berlin: Springer.

Wahid, A., Lee, S., Jeong, H. J., & Kim, D. (2011). Eedbr: Energy-efficient depth-based routing protocol for underwater wireless sensor networks. Advanced Computer Science and Information Technology (pp. 223–234). Berlin: Springer.

Jafri, M. R., Sandhu, M. M., Latif, K., Khan, Z. A., Yasar, A. U. H., & Javaid, N. (2014). Towards delay-sensitive routing in underwater wireless sensor networks. Procedia Computer Science, 37, 228–235.CrossRef

Kartha, J. J., & Jacob, L. (2015). Delay and lifetime performance of underwater wireless sensor networks with mobile element based data collection. International Journal of Distributed Sensor Networks, 2015, 1–22.

Zhang, S., Wang, Z., Liu, M., & Qiu, M. (2014). Energy-aware routing for delay-sensitive underwater wireless sensor networks. Science China Information Sciences, 57(10), 1–14.CrossRef

Ali, T., Jung, L. T., & Faye, I. (2014). End-to-end delay and energy efficient routing protocol for underwater wireless sensor networks. Wireless Personal Communications, 79(1), 339–361.CrossRef

10.

Noh, Y., Wang, P., Lee, U., Torres, D., & Gerla, M., (2010 October). DOTS: A propagation delay-aware opportunistic MAC protocol for underwater sensor networks. In 2010 18th IEEE international conference on network protocols (ICNP), IEEE, pp. 183–192.

11.

Noh, Y., Lee, U., Lee, S. R., Wang, P., Vieira, L., Cui, J., Gerla, M., & Kim, K. (2015). Pressure routing for underwater sensor networks. In INFOCOM, pp. 1676–1684, 2010.

12.

Hegde, P., Meghashree, M., Bhat, S. S., & Krishna Kumar, L. (2015 June). A self adaptive MAC layer and routing layer framework for delay-tolerent underwater wireless sensor networks. In 2015 IEEE International Advance Computing Conference (IACC), IEEE, pp. 440–443.

13.

Guo, X., Frater, M. R., & Ryan, M. J. (2007 May). A propagation-delay-tolerant collision avoidance protocol for underwater acoustic sensor networks. In OCEANS 2006-Asia Pacific, IEEE, pp. 1–6.

14.

Llor, J., & Malumbres, M. P. (2012). Underwater wireless sensor networks: How do acoustic propagation models impact the performance of higher-level protocols? Sensors, 12(2), 1312–1335.CrossRef

15.

Hung, L. L., & Luo, Y. J. (2016). Protocol to exploit waiting resources for UASNs. Sensors, 16(3), 333–338.CrossRef

16.

Syed, A.A., Ye, W., & Heidemann, J. (2008 April). T-Lohi: A new class of MAC protocols for underwater acoustic sensor networks. In The 27th conference on computer communications INFOCOM 2008, pp. 1–9, IEEE, 13–18 April 2008.

17.

Shakeel, U., Javaid, N., Ejaz, M., Zarar, S., & Hafeez, T. (2015 November). Improved interference aware EEDBR protocol for underwater wireless sensor networks. In 2015 10th international conference on broadband and wireless computing, communication and applications (BWCCA), IEEE, pp. 232–239.

18.

Maqsood, H., Javaid, N., Zain-ul-Abidin, M., Ejaz, M., & Shakeel, U. (2015 November). Energy balanced interference aware energy efficient depth base routing protocol for UWSNs. In 2015 10th international conference on broadband and wireless computing, communication and applications (BWCCA), IEEE, pp. 13–19.

19.

Shashaj, A., Petroccia, R., & Petrioli, C., (2014 September). Energy efficient interference-aware routing and scheduling in underwater sensor networks. In Oceans-St. John’s, IEEE, pp. 1–8.

20.

Javaid, N., Jafri, M. R., Khan, Z. A., Qasim, U., Alghamdi, T. A., & Ali, M. (2014). Iamctd: Improved adaptive mobility of courier nodes in threshold-optimized dbr protocol for underwater wireless sensor networks’. International Journal of Distributed Sensor Networks, 2014, 1–12.

21.

Umar, A., Javaid, N., Ahmad, A., Khan, Z. A., Qasim, U., Alrajeh, N., et al. (2015). DEADS: Depth and energy aware dominating set based algorithm for cooperative routing along with sink mobility in underwater WSNs. Sensors, 15(6), 14458–14486.CrossRef

22.

Mansourkiaie, F., & Ahmed, M. H. (2015). Joint cooperative routing and power allocation for collision minimization in wireless sensor networks with multiple flows. IEEE Wireless Communications Letters, 4(1), 6–9.CrossRef

23.

Tan, D. D., & Kim, D. S. (2014). Cooperative transmission scheme for multi-hop underwater acoustic sensor networks. International Journal of Communication Networks and Distributed Systems, 14(1), 1–18.CrossRef

24.

Ikki, S. S., & Ahmed, M. H. (2011). Performance analysis of incremental-relaying cooperative-diversity networks over Rayleigh fading channels. IET Communications, 5(3), 337–349.MathSciNetCrossRefMATH

25.

Diamant, R., Casari, P., & Zorzi, M. (2016). A TDMA-based MAC protocol exploiting the near-far effect in underwater acoustic networks. In MTS/IEEE OCEANS, pp. 1–5, 10–13 April 2016.

Title: DRADS: depth and reliability aware delay sensitive cooperative routing for underwater wireless sensor networks
Authors: Nadeem Javaid
Usman Shakeel
Ashfaq Ahmad
Nabil Alrajeh
Zahoor Ali Khan
Nadra Guizani
Publication date: 14-10-2017
Publisher: Springer US
Published in: Wireless Networks / Issue 2/2019
Print ISSN: 1022-0038
Electronic ISSN: 1572-8196
DOI: https://doi.org/10.1007/s11276-017-1591-1

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