Performance Analysis of Underwater Sensor Network Using Eavar–Layering Phase Algorithm

  • K. S. Senthil Kumar, Dr. K. Prabavathy

Abstract

Underwater Wireless Sensor Network (UWSN) is a rising technology that ensures several research-oriented applications in deep-sea. The research areas in the sea include observing the pollution, prevention of disaster, the gathering of data and surveillance. Deployment of sensors in underwater is not the same as terrestrial sensor arrangement. In order to form a Sensor Equipped Aquatic (SEA), sensor nodes are placed at the places of interest. Every node is instilled with a bandwidth acoustic modem of low power and an antenna. UWSN improves in predicting and monitoring behaviors in oceanographic applications. Sensors in UWSN are supplied with limited resources. Hence an effective approach is needed to tolerate the resource constraint environment. Several, protocols were designed to overcome the shortcomings of UWSN by numerous researchers. Sensor nodes under the sea are affected by several factors namely, the flow of water, pollution and other calamities. Barriers in the node deployment in the sea level are removed by the proposed algorithm. In this research work, Energy-Aware and Void Avoidable Routing Protocol (EAVARP) is proposed by the layering of nodes at the concentric shell which eventually minimizes the traffic problem. Analysis of performance metrics results that the proposed algorithm called EAVAR – Layering Phase Algorithm (LPA) performs well.

Published
2021-06-12
How to Cite
K. S. Senthil Kumar, Dr. K. Prabavathy. (2021). Performance Analysis of Underwater Sensor Network Using Eavar–Layering Phase Algorithm. Design Engineering, 423 - 438. Retrieved from http://thedesignengineering.com/index.php/DE/article/view/2001
Section
Articles