Since most of the planet is covered in water, underwater wireless sensors play an important role in modem communication. In all areas of wireless communication, both the public and academic community are eager to engage in conversation. Sensor nodes are deployed on purpose in the network coverage area, allowing communication between nodes in underwater wireless sensor networks. The salinity, depth, node position, and other properties of the underwater environment are tracked using the deployed sensor nodes. Rapid advancements in underwater wireless sensor communications and their widespread use have enabled their integration into previously unimaginable domains, such as disaster prediction, military operations, deep sea surveillance, and more. Limits exist in Underwater Wireless Sensor Networks (UWSN) for high-energy, short-distance connections between nodes. Finally, transmission data is not encrypted, and time estimates are not provided frequently. A new method called Efficient Energy Sequential Assignment Routing (EESAR) has been proposed to boost the Quality-of-Service metric. It employs a spatial beam forming strategy for encrypted data transfer. When compared to the current method, the proposed method performs better in terms of the performance parameter. Furthermore, this research study evaluates the effectiveness of various methods proposed by using a MATLAB simulator. The obtained results demonstrate the superiority of the enhanced secured trust cloud model in every possible aspect.
Underwater Wireless Transmission Using EESAR Routing Protocol
2022-12-01
432142 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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