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• W4224302541 abstract "The hike in the demand for electrical energy from the year 2012 to 2030 is expected to be around 40%, due to the expansion in the population as well as the economy. To meet these requirements of the growing community economic development (CED), the shift from the centralized power plant to decentralized or distributed power plants with significantly reduced capital requirements and fossil fuel levels like the microgrids. The advantages of microgrids compared to central grids are the supply of continuous, efficient, cheap and clean sources of energy to the clients and society. A microgrid is termed as an electric power system paradigm, established through the integration of distributed generators, electrical energy storage systems and flexible loads. The smart grid is an electricity network with a microgrid; it can rationally unify the activities of every user attached to distribute a continual and secure electricity supply effectively. The electricity network is interconnected with the telecommunication infrastructure, and information technology is the backbone for the smart grid architecture. The recent trends include the concept of energy blockchain in the microgrid. The other trends in the micro-grid are to attain the best protection control and energy management schemes by incorporating novel automation and smartening technologies. However, the essential factors acting as a backbone to these scenarios are the system specification and the communication structure. The recent research focuses on the microgrid technologies are adopting artificial neural networks and 5G for demand forecasting. 5G wireless communication technology and the advancement of the internet of things (IoT) provide a flexible and intelligent service to the users. The potential of the IoT technology to provide connectivity at anytime and anywhere can be used to gather data from various smart grid and microgrid applications. This enormous volume of data collected from the IoT terminals is handled by the cloud computing paradigm. The necessity of architecture protocols and tools related to the communication system helps the microgrid to have a reliable, stable and optimal operation. The deployment of communication technology classifies the microgrid interactions into two major types, such as wired and wireless links. The hike in the wireless technology in microgrid aids in reduced complexity and cost associated with the system. Some of the standard wireless technologies in microgrids are wireless personal area network (WPAN), wireless local area network (WLAN), satellite network, and cellular network. Wired along with wireless communication technologies plays an inevitable role in the successful operation of microgrids. In addition, smart grids supply an efficient, dependable and sustainable electricity supply to consumers. This chapter presents a survey on the role of various communication technologies in microgrids and smart grids." @default.
• W4224302541 created "2022-04-26" @default.
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• W4224302541 date "2022-04-03" @default.
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• W4224302541 title "Role of Telecommunication Technologies in Microgrids and Smart Grids" @default.
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• W4224302541 doi "https://doi.org/10.1002/9781119760597.ch14" @default.
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