Towards Controlled Transmission: A Novel Power-Based Sparsity-Aware and Energy-Efficient Clustering for Underwater Sensor Networks in Marine Transport Safety

Israa Adil Hayder;Sundas Naqeeb Khan;Faisal Althobiani;Muhammad Irfan;Muhammad Idrees;Saeed Ullah;Faisal Alsaaq;Adam Glowacz;Iwona Goldasz;Marcin Tomczyk;Radu Martis;Hayder; Israa Adil;Khan; Sundas Naqeeb;Althobiani; Faisal;Irfan; Muhammad;Idrees; Muhammad;Ullah; Saeed;Alsaaq; Faisal;Glowacz; Adam;Goldasz; Iwona;Tomczyk; Marcin;Martis; Radu;

doi:10.3390/electronics10070854

Towards Controlled Transmission: A Novel Power-Based Sparsity-Aware and Energy-Efficient Clustering for Underwater Sensor Networks in Marine Transport Safety

Clicks: 173

ID: 272964

2021

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Energy-efficient management and highly reliable communication and transmission mechanisms are major issues in Underwater Wireless Sensor Networks (UWSN) due to the limited battery power of UWSN nodes within an harsh underwater environment. In this paper, we integrate the three main techniques that have been used for managing Transmission Power-based Sparsity-conscious Energy-Efficient Clustering (CTP-SEEC) in UWSNs. These incorporate the adaptive power control mechanism that converts to a suitable Transmission Power Level (TPL), and deploys collaboration mobile sinks or Autonomous Underwater Vehicles (AUVs) to gather information locally to achieve energy and data management efficiency (Security) in the WSN. The proposed protocol is rigorously evaluated through extensive simulations and is validated by comparing it with state-of-the-art UWSN protocols. The simulation results are based on the static environmental condition, which shows that the proposed protocol performs well in terms of network lifetime, packet delivery, and throughput.

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Reference Key	hayder2021electronicstowards Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Israa Adil Hayder;Sundas Naqeeb Khan;Faisal Althobiani;Muhammad Irfan;Muhammad Idrees;Saeed Ullah;Faisal Alsaaq;Adam Glowacz;Iwona Goldasz;Marcin Tomczyk;Radu Martis;Hayder, Israa Adil;Khan, Sundas Naqeeb;Althobiani, Faisal;Irfan, Muhammad;Idrees, Muhammad;Ullah, Saeed;Alsaaq, Faisal;Glowacz, Adam;Goldasz, Iwona;Tomczyk, Marcin;Martis, Radu;
Journal	Electronics
Year	2021
DOI	10.3390/electronics10070854 Searching for DOI...
URL	https://www.mdpi.com/2079-9292/10/7/854/htm https://doi.org/10.3390/electronics10070854
Keywords	safety energy consumption autonomous underwater vehicle underwater wireless sensor networks marine transport routing protocols controlled transmit power void hole reliable data delivery

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