TLFW: A Three-layer Framework in Wireless Rechargeable Sensor Network with a Mobile Base Station

TL;DR

This paper proposes TLFW, a three-layer framework for wireless sensor networks with mobile stations, designed to minimize energy consumption and enable perpetual operation through wireless power transfer.

Contribution

Introduction of a novel three-layer framework (TLFW) for rechargeable sensor networks that reduces energy consumption and supports continuous operation with a mobile base station.

Findings

Reduces overall energy consumption compared to existing methods.

Enables perpetual operation of sensor nodes through wireless power transfer.

Simulation results validate the effectiveness of the proposed framework.

Abstract

Wireless sensor networks as the base support for the Internet of things has been a large number of popularity and application. Such as intelligent agriculture, we have to use the sensor network to obtain the growth environmental data of crops, etc.. However, the difficulty of power supply of wireless nodes has seriously hindered the application and development of Internet of things. In order to solve this problem, people use low-power, sleep scheduling and other energy-saving methods on the nodes. Although these methods can prolong the working time of nodes, they will eventually become invalid because of the exhaustion of energy. The use of solar energy, wind energy, and wireless signals in the environment to obtain energy is another way to solve the energy problem of nodes. However, these methods are affected by weather, environment and other factors, and are unstable. Thus, the discontinuity work of the node is caused. In recent years, the development of wireless power transfer (WPT) has brought another solution to this problem. In this paper, a three-layer framework is proposed for mobile station data collection in rechargeable wireless sensor networks to keep the node running forever, named TLFW which includes the sensor layer, cluster head layer, and mobile station layer. And the framework can minimize the total energy consumption of the system. The simulation results show that the scheme can reduce the energy consumption of the entire system, compared with a Mobile Station in a Rechargeable Sensor Network(MSiRSN).