Depth-based Adaptive and Energy-aware (DAE)   Routing Scheme for UWSNs

Saqib  Shahid Rahim; Sheeraz  Ahmed; Fazle  Hadi; Ayub  Khan; M.Usman  Akhtar; Lailma  Javed

Research Article

Depth-based Adaptive and Energy-aware (DAE) Routing Scheme for UWSNs

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@ARTICLE{10.4108/eai.10-4-2018.154449,
    author={Saqib  Shahid Rahim and Sheeraz  Ahmed  and Fazle  Hadi and Ayub  Khan and M.Usman  Akhtar and  Lailma  Javed},
    title={Depth-based Adaptive and Energy-aware (DAE)   Routing Scheme for UWSNs},
    journal={EAI Endorsed Transactions on Energy Web and Information Technologies},
    volume={5},
    number={17},
    publisher={EAI},
    journal_a={EW},
    year={2018},
    month={4},
    keywords={Stability Period, UWSN, Throughput, End-to-End Delay, Anycasting},
    doi={10.4108/eai.10-4-2018.154449}
}

Saqib Shahid Rahim
Sheeraz Ahmed
Fazle Hadi
Ayub Khan
M.Usman Akhtar
Lailma Javed
Year: 2018
Depth-based Adaptive and Energy-aware (DAE) Routing Scheme for UWSNs
EW
EAI
DOI: 10.4108/eai.10-4-2018.154449

Saqib Shahid Rahim^1,2,3^,*, Sheeraz Ahmed ^2,3, Fazle Hadi², Ayub Khan^2,3, M.Usman Akhtar⁴, Lailma Javed⁵

1: Abasyn University, Peshawar, Pakistan
2: Preston University, Peshawar, Pakistan
3: Career Dynamics Research Centre, Peshawar, Pakistan
4: University of Engineering and Technology, Peshawar, Pakistan
5: COMSATS Institute of Information Technology, Attock Campus, Pakistan

*Contact email: saqib.shahid@abasyn.edu.pk

Abstract

A successful development of UWSN in different areas is going on where a continuous and remote examining, detection and monitoring required under the water. Ample of research papers have been available that emphasis on different parameters such as energy consumption, throughput, stability period, end-to-end delay in UWSNs. In our research, we focus on the decrease of endto-delay, increase its stability period and throughput as well as load balancing of motes. In order to attain our objective we propose a scheme called DAE with major goal to implement the technique of anycasting. Finally we compared DAE with two existing protocols DBR and AMCTD. The performance of DAE is much efficient than these schemes in various parameters. Outcomes shows that the throughput and stability period of DAE are much better than DBR as well as AMCTD and these results are achieved with minimum delay.

Keywords: Stability Period, UWSN, Throughput, End-to-End Delay, Anycasting

Received: 2017-09-03
Accepted: 2018-01-05
Published: 2018-04-10
Publisher: EAI

: http://dx.doi.org/10.4108/eai.10-4-2018.154449

Copyright © 2018 Saqib Shahid Rahim et al., licensed to EAI. This is an open access article distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/3.0/), which permits unlimited use, distribution and reproduction in any medium so long as the original work is properly cited.