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    A novel routing protocol for underwater wireless sensor networks based on shifted energy efficiency and priority

    Ismail, Muhammad, Qadir, Hamza, Khan, Farrukh Aslam ORCID logoORCID: https://orcid.org/0000-0002-7023-7172, Jan, Sadeeq, Wadud, Zahid and Bashir, Ali Kashif ORCID logoORCID: https://orcid.org/0000-0003-2601-9327 (2023) A novel routing protocol for underwater wireless sensor networks based on shifted energy efficiency and priority. Computer Communications, 210. pp. 147-162. ISSN 0140-3664

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    Abstract

    Underwater Wireless Sensor Networks (UWSNs) are among the most promising research areas these days due to their unique characteristics and diverse underwater applications. Though a number of routing protocols have been designed and implemented for UWSNs over the past few years, the researchers face several challenges, e.g., low speed of propagation, small bandwidth, limited battery power, etc., while designing routing protocols for communication in UWSNs. Acoustic sensor nodes are equipped with batteries with limited power and it is quite costly to replace or recharge them. The network will not survive for the desired period of time if the power of node batteries is not efficiently used. To effectively resolve this issue, this paper proposes a Shifted Energy Efficiency and Priority (SHEEP) routing protocol for UWSNs. The proposed protocol aims to enhance the efficiency of the state-of-the-art Energy Balanced Efficient and Reliable Routing (EBER2) protocol for UWSNs. SHEEP is built upon the depth and energy of the current forwarding node, the depth of the expected next forwarding node, and the average energy difference among the expected forwarders. Simulation results demonstrate that SHEEP improves the energy efficiency and packet delivery ratio in comparison to EBER2 by 7.4% and 13% respectively.

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