International Journal of Computer Network and Information Security (IJCNIS)
IJCNIS Vol. 10, No. 12, 8 Dec. 2018
Cover page and Table of Contents: PDF (size: 726KB)
Underwater Sensor Networks: An Efficient Node Deployment Technique for Enhancing Coverage and Connectivity: END-ECC
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Author(s)
Index Terms
Underwater sensor networks, sensor nodes, network coverage, connectivity, autonomous underwater vehicles
Abstract
The deployment of sensor nodes in underwater environment is constrained by some resources of sensor node like: energy, processing speed, cost and memory and also affected by dynamic nature of water. The main purpose of node deployment is to get the sensed data from the underwater environment. One of the major tasks is to cover the whole area in underwater and also there must be a full connectivity in the network so that each sensor nodes are able to send their data to the other sensor node. Some researchers use the concept of node mobility for better coverage and connectivity. This work proposes an efficient node deployment technique for enhancing the coverage and connectivity in underwater sensor network. Simulation results show good performance in terms of area coverage and connectivity.
Cite This Paper
Kamal Kumar Gola, Bhumika Gupta, "Underwater Sensor Networks: An Efficient Node Deployment Technique for Enhancing Coverage and Connectivity: END-ECC", International Journal of Computer Network and Information Security(IJCNIS), Vol.10, No.12, pp.47-54, 2018. DOI:10.5815/ijcnis.2018.12.06
Reference
[1]Garcia, M.; Bri, D.; Sendra, R.; Lloret, J. Practical deployments of wireless sensor networks: A survey. Int. J. Adv. Netw. Serv. 2010, 3, 170–185.
[2]Bri, D.; Garcia, M.; Lloret, J.; Dini, P. Real deployments of wireless sensor networks. In Proceedings of the Third International Conference on Sensor Technologies and Applications, Athens, Greece, 18–23 June 2009; pp. 415–423.
[3]Felamban, M.; Shihada, B.; Jamshaid, K. Optimal node placement in underwater wireless sensor networks. In Proceedings of the Twenty-seventh IEEE International Conference on Advanced Information Networking and Applications, Barcelona, Spain, 25–28 March 2013; pp. 492–499.
[4]Pompili D, Melodia T, Akyildiz IF. Deployment analysis in underwater acoustic wireless sensor networks. In Proceedings of the 1st ACM international workshop on underwater networks, 2006; 48‐55.
[5]Han G, Zhang C, Shu L, Sun N, Li Q. A survey on deployment algorithms in underwater acoustic sensor networks. International Journal of Distributed Sensor Networks. 2013(2013): Article ID 314049, 11 pages. https://doi.org/10.1155/2013/314049.
[6]Cayirci, E.; Tezcan, H.; Dogan, Y.; Coskun, V. Wireless sensor networks for underwater survelliance systems. Ad Hoc Netw. 2006, 4, 431–446.
[7]Manjula R. Bharamagoudra, Sunil Kumar S. Manv, Deployment scheme for enhancing coverage and connectivity in underwater acoustic sensor networks. Wireless Personal Communications 2016, Vol 89, 1265-1293.
[8]L. Jun, J. Peng, W. Feng, Y. Shanen, S. Chunyue. Node redeployment algorithm based on stratified connected tree for underwater sensor network. Sensors, 2017, 17, 27.
[9]J. Peng, L. Jun, W. Feng, W. Jianzhong, X. Anke. Node deployment algorithm for underwater sensor networks based on connected dominating set. Sensors, 2016, 16, 388.
[10]H. Wang Hui, M. Liu, S. Zhang. An Efficient Depth-adjustment Deployment Scheme for Underwater Wireless Sensor Networks. 34th Chinese Control Conference, July 28-30, 2015, Hangzhou, China.
[11]Z. Arslan, J. Nadeem, A. Mariam, K. Zahoor Ali. A New Routing Protocol for Maximum Coverage in Square Field for Underwater WSNs. IEEE 31st International Conference on Advanced Information Networking and Applications, 2017, Taipei, Taiwan.
[12]Tuna G, Cagri Gungor V. A survey on deployment techniques, localization algorithms, and research challenges for underwater acoustic sensor networks. Int J Commun Syst. 2017.
[13]J. Nadeem, M. Hammad, W. Abdul, N. Iftikhar Azim, A. Ahmad, A. Atif, and I. Manzoor. A Localization Based Cooperative Routing Protocol for Underwater Wireless Sensor Networks. Mobile Information Systems, Volume 2017, 2017.
[14]Senel F. Coverage-aware connectivity-constrained unattended sensor deployment in underwater acoustic sensor networks. Wireless communication and mobile computing, 2016.
[15]Pompili D, Melodia T, Akyildiz IF. Three‐dimensional and twodimensional deployment analysis for underwater acoustic sensor networks. Ad Hoc Netw. 2009; 7(4):778‐790.
[16]Felemban M, Shihada B, Jamshaid K. Optimal node placement in underwater wireless sensor networks, in Proceedings of the Advanced Information Networking and Applications, 2013; 492–499.
[17]Han G, Zhang C, Shu L, Rodrigues JCPC. Impacts of deployment strategies on localization performance in underwater acoustic sensor networks. IEEE Trans Ind Electron. 2015; 62(3):1725‐1733.
[18]Akkaya K, Newell A. Self‐deployment of sensors for maximized coverage in underwater acoustic sensor networks.Comput Commun. 2009; 32(7‐10):1233‐1244.
[19]Xia N, Wang C‐S, Zheng R, Jiang J‐G. Fish swarm inspired underwatersensor deployment. Acta Automat Sin. 2012; 38(2):295‐302.
[20]Aitsaadi N, Achir N, Boussetta K, Pujolle G. Differentiated underwater sensor network deployment, in Proceedings of the OCEANS —Europe, 2007; 1–6.
[21]Senel F, Akkaya K, Erol‐Kantarci M, Yilmaz T. Self‐deployment of mobile underwater acoustic sensor networks for maximized coverage and guaranteed
connectivity. Ad Hoc Netw. 2014; https://doi.org/10.1016/j.adhoc.2014.09.013.
[22]Liu J, Han X, Al‐Bzoor M et al., Prediction assisted dynamic surface gateway placement for mobile underwater networks, in Proceedings of the IEEE Symposium on Computers and Communications, 2012;139–144.
[23]Hollinger GA, Mitra U, Sukhatme GS. Autonomous data collection from underwater sensor networks using acoustic communication, in Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems, 2011;3564‐3570.
[24]Partan, J.; Kurose, J.; Levine, B.N. A survey of practical issues in underwater networks. ACM SIGMOBILE Mob. Comput. Commun. Rev. 2007, 11, 23–33.
[25]Liu, B.; Ren, F.Y.; Lin, C.; Yang, Y.C.; Zeng, R.F.; Wen, H. The redeployment issue in underwater sensor networks. In Proceedings of the Global Telecommunications Conference, New Orleans, LA, USA, 30 November–4 December 2008; pp. 1–6.