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Energy‐efficient selection of relay for UWSNs in the Internet of underwater things

Saad Haseeb, Muhammad Khalil Afzal, Muhammad Tahir, Mohsin Raza Jafri, Naeem Raza

2023International Journal of Communication Systems13 citationsDOI

Abstract

Summary Internet of underwater things (IoUT) for underwater monitoring is known worldwide for smart interlinked underwater things that exhibit the capacity to monitor the vast unexplored waters of the oceans. Concept of IoUT has been derived from Internet of Things (IoT) in order to acquire the exquisite benefits of networking in underwater environment. IOT standards and technologies do not work well in underwater environment, such as infrared, Wi‐Fi, and radio frequency (RF) due to high channel errors and limited range up to few meters. Acoustic waves, however, can be used to communicate both in shallow and deep oceans due to their low frequency (kHZ) signal. In context of IoUT, communication based on acoustic links enables different applications such as underwater exploration, environmental monitoring, and disaster prevention even without availability of GPS facility like free space environment. In unpredictable and changing underwater environment, energy efficiency becomes a major challenge during data routing along multiple devices. Batteries of the sensor nodes, autonomous underwater vehicle (AUV), and remotely operated vehicle (ROV) cannot be removed with easiness and difficult to recharge, and the only way out is efficient sensor node selection for relaying to save massive amount of energy. Energy aware channel routing protocol (ECARP) does not consider the depth of the node while selecting the relay nodes to forward the data. Relay node selection in underwater Internet of things (IOUT) is a primary problem addressed in this research based on channel state information (CSI) for establishing best path to relay information among IOUT devices. Our major focus was to develop better technique for the relay node selection using a CSI and select relay node by looking at its depth from ocean surface and residual energy in the proposed ED‐CARP. Simulation results validate that proposed ED‐CARP can decrease the communication cost and increase the network lifetime.

Topics & Concepts

UnderwaterComputer scienceRelayNode (physics)Channel (broadcasting)Underwater acoustic communicationContext (archaeology)Computer networkThe InternetEnergy (signal processing)TelecommunicationsReal-time computingPower (physics)EngineeringWorld Wide WebQuantum mechanicsPaleontologyGeologyStatisticsStructural engineeringPhysicsMathematicsOceanographyBiologyUnderwater Vehicles and Communication SystemsEnergy Harvesting in Wireless NetworksEnergy Efficient Wireless Sensor Networks
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