Abstract
A traditional smart grid includes a central control center that monitors and controls all of the devices linked to it to ensure that they are all operating at peak efficiency. The institution will be able to manage its energy better while minimizing peak power use with the aid of the central control center. This decrease saves a significant amount of energy. An on-site renewable energy-producing block that simultaneously powers batteries and the grid is a fundamental component of our technology. The output of the generating station is also linked to the grid, so everything is in sync. The interconnected grid has the potential to lower both energy costs and power consumption. We harvest DC power from PV cells and transform it to useful DC and AC utilizing power electronics since we're employing solar-generated green energy. It's possible that the grid is connected to the converted AC. The employment of microcontrollers to detect the generating voltage and current levels and conduct monitoring and control is a key feature of our smart grid. IoT and the state's power station store and display monitored values in the cloud for customers to view in order to increase energy efficiency. The customer's power bill will be decreased as a result of this. Authors have attempted to present the model in a virtual simulator using MATLAB simulation.
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Kirubadevi, S., Hemalatha, N., Sankaran, E. et al. Autonomous smart grid management and control by using IoT. Int J Syst Assur Eng Manag 13 (Suppl 1), 625–632 (2022). https://doi.org/10.1007/s13198-021-01565-2
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DOI: https://doi.org/10.1007/s13198-021-01565-2