Design and implementation of iot integrated monitoring and control system of renewable energy in smart grid for sustainable computing network

Abstract

The Smart Grid (SG) is a system with a lot of controls and communications. Both local and global controls are included in these controls. One of the advantages of SG over a traditional utility grid is that it uses a two-way communication mechanism at each stage. However, challenges such as complexity, data gathering and administration, and so on are brought into the SG system as a result of this two-way communication. As a result, an SG needs connectivity, automation and device tracking. The Internet of Things is used to do this (IoT). This study presents an IoT-enabled smart grid monitoring and control system in a computer network. Here the IoT module has been used in monitoring the network which is integrated with (MLDRNN). Renewable (DER) should be combined in grids to make electricity supply more reliable and reduce transmission losses. The control system of smart grid has been enhanced using (CPCS). The suggested system is scalable, modular, and allows for the interoperability of various types of inverters, as well as data transmission over a secure communication channel. All of these characteristics, combined with its low cost, make the created control system and monitoring platform ideal for monitoring smart microgrids online. The experimental results show scalability, QoS, power consumption, efficiency of the network.