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Title	Digital Twin Approach Toward Modern Power Systems
ID_Doc	20174
Authors	Choobkar S.
Year	2025
Published	Smart Cyber-Physical Power Systems: Solutions from Emerging Technologies: Volume 2
DOI	http://dx.doi.org/10.1002/9781394334599.ch4
Abstract	Digitalization has been a potent and inevitable trend of the industry revolutions. Digital twin (DT) is a novel and powerful digital tool that is considered as a virtual machine that presents a real-time virtual model of a physical object or system. It includes a diverse set of technologies such as 5G wireless communication, IoT, cloud computing, AI, and virtual illustration. DT has got a lot of attention and more research is on the go to design DT for further industrial applications. The main goal of this chapter is to discuss DTs approach to intelligent manufacturing and modern power systems. This is projected in the successive three steps (i) After a review of DT concepts and characteristics, DT opportunities and potentials for industry applications are investigated. Examples include smart cities, healthcare, and manufacturing. Furthermore, a review of the enabling technologies to build DT is given, (ii) Integration of computational methods with a vast variety of applications is demonstrated in both CPS and DT systems. In this part, both concepts and their main similarities and differences are specified, (iii) With advances in DT, it offers several improvements and benefits to industries such as smart power grids. DT provides a direction to step outside the physical world, so its different applications in smart power grids can be imagined. In the last part, novelties and suggestions of DT to SG and its main subsystems are proposed. © 2025 by The Institute of Electrical and Electronics Engineers, Inc.
Author Keywords	cyber-physical power systems; digital twin; real-time virtual model

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