Performance analysis of zigbee-based iot prototype for remote monitoring in power grid systems

Abstract

Power grid systems are considered as critical infrastructure that require smooth and efficient operation in its power generation, transmission and distribution sectors. A performance loss in such systems can lead towards undesired situations including damages and financial losses. Remote, reliable and real-time monitoring of different components within a power grid system are important features for assuring performance, especially in modern smart grid technologies. Internet of Things (IoT)-enabled monitoring systems have the potential to fulfill the said requirements. For that, adopting a suitable communication technology to effectively transfer data of the monitored component is an essential design objective in IoT-enabled monitoring systems. This paper proposes a prototype design suitable for remotely monitoring different components within a power grid while adopting ZigBee as the underlying communication technology. Experimental results show that the devised prototype has the potential to effectively capture and notify in real-time the changes occurring in a power grid system.