Underwater Efficient Energy Communication in Wireless Sensor Networks

TL;DR

This paper addresses the challenge of balancing reliability and energy efficiency in underwater wireless sensor networks by analyzing existing error correction methods and proposing a new hybrid technique to enhance communication efficiency.

Contribution

It introduces a novel hybrid error correction technique specifically designed to improve energy efficiency in underwater acoustic communication.

Findings

The hybrid error correction technique outperforms existing methods in efficiency.

Analysis shows a trade-off between reliability and energy consumption in underwater environments.

Mathematical modeling of communication efficiency supports the proposed approach.

Abstract

This paper will focus on the energy efficiency issue in Underwater Wireless Sensor Networks. In underwater environment, the two main issues are namely: reliability and energy efficiency. These two issues are twisted pair. Reliability requires error correction, and error-correction requires energy. More reliability tends to imply higher energy consumption, causing difficulty in applications that require nodes to be operated underwater for long periods of time without batteries recharging, and in aquatic environments that render hard the task of recharging or replacing batteries. Appropriate strategy must therefore be in-place to ensure reliable data transmission, while conserving energy. We propose a mathematical function of the efficiency of acoustic data communication in real underwater environment. We did the analysis of existing error-correction techniques, and then propose a new technique that is the hybrid error correction technique that improves the efficiency among the existing techniques.