Congestion Control Reliability and Adaptive Cooperation for Efficient Underwater Sensor Networks

Junaid Ahmed Inam; Sheeraz Ahmed; Najeeb Ullah; Ali Raza; Ata-ur Rehman; Asghar Khattak; Saqib S hahid Rahim

doi:10.4108/eai.13-4-2018.154470

Congestion Control Reliability and Adaptive Cooperation for Efficient Underwater Sensor Networks

Authors

Junaid Ahmed Inam CECOS University
Sheeraz Ahmed Career Dynamics Research Centre
Najeeb Ullah CECOS University
Ali Raza CECOS University
Ata-ur Rehman CECOS University
Asghar Khattak CECOS University
Saqib S hahid Rahim Career Dynamics Research Centre

DOI:

https://doi.org/10.4108/eai.13-4-2018.154470

Keywords:

Stability Period, UWSN, Throughput, Transmission loss

Abstract

Underwater wireless sensor networks (UWSNs) are intended to be positioned at the areas that need to be supervised constantly deprived of the human interaction. Consequently, these networks are likely to stay active for a longer duration. Though, sensor nodes in UWSNs are equipped with finite energy resources. Furthermore, congestion is one of the biggest challenges in UWSNs because it leads to data packet loss and ultimately shorten network lifetime. In this paper, a congestion control model in UWSNs with congestion control is considered. A routing protocol is purposed which will be a modification of current UWSNs protocols such as RACE and ARCUN by presenting their attributes with congestion control mechanism. We will deliver some comparisons between the proposed scheme and the existing schemes and prove that this new scheme with congestion control has better performance than the existing ones.

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Published

13-04-2018

How to Cite

Ahmed Inam J, Ahmed S, Ullah N, Raza A, Rehman A- ur, Khattak A, hahid Rahim SS. Congestion Control Reliability and Adaptive Cooperation for Efficient Underwater Sensor Networks. EAI Endorsed Scal Inf Syst [Internet]. 2018 Apr. 13 [cited 2024 May 8];5(16):e4. Available from: https://publications.eai.eu/index.php/sis/article/view/2210

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Issue

Vol. 5 No. 16 (2018): EAI Endorsed Transactions on Scalable Information Systems

Section

Research articles

License

This work is licensed under a Creative Commons Attribution 3.0 Unported License.

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