A New Model of the Lifetime of Wireless Sensor Networks in Sea Water Communications

TL;DR

This paper introduces a comprehensive model for estimating the lifetime of sea water wireless sensor networks, considering detailed power consumption parameters and network configurations for improved accuracy.

Contribution

The paper presents a novel, detailed power consumption model integrated into a lifetime estimation framework for underwater wireless sensor networks, enhancing prediction accuracy.

Findings

The new model provides more accurate lifetime estimates than previous models.

Incorporating various operational modes improves the reliability of network lifetime predictions.

The model accounts for sensor mobility and network topology changes.

Abstract

In this paper we present a new model for the lifetime of wireless sensor networks used for sea water communications. The new model for power communications takes into consideration parameters such as power consumption for the active mode, power consumption for the sleep mode, power consumption for the transient mode, transmission period, transient mode duration, sleep mode duration, and active mode duration. The power communications model is incorporated in the life time model of wireless sensor networks. The life time model takes into consideration several parameters such as the total number of sensors, network size, percentage of sink nodes, location of sensors, the mobility of sensors, power consumption when nodes move and the power consumption of communications. The new model for power consumption in communications shows more accurate results about the lifetime of the sensor network in comparison with previously published results.