In renewable energy applications such as sun and wind power generation, lithium-ion batteries are commonly used because of their high energy density and long cycle life. Due to effective control and surveillance, these batteries are expected to keep working in a safe and reliable state. However, with the help of augmented reality/virtual reality (AR/VR) technology and digital twins, lithium-ion batteries may fundamentally change what we monitor them as well as how they operate. The purpose of this study is to investigate the potential of augmented reality (AR/VR) and digital twins for battery monitoring and control, as well as how they might achieve integration to achieve higher levels of performance and reliability. Where does AR/VR and digital twins currently stand when it comes to battery management systems (BMS)? There, we will also discuss what future research and development tasks would be for this discipline as well as the potential benefits of augmented reality (AR/VR) combination with digital twins on monitoring and controlling battery performance in detail. Yet our results show that merging AR/VR and digital twins effectively increases the efficiency, performance, and reliability of lithium-ion batteries for renewable energy applications.

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Next-Gen Renewable Battery Management Harnessing ARVR and Digital Twins

  • Gopal Krishna,
  • Rajesh Singh,
  • Mayak Singh,
  • Sanjeev Kumar Pippal,
  • Anita Gehlot,
  • Aashna Sinha,
  • Shivam Kumar

摘要

In renewable energy applications such as sun and wind power generation, lithium-ion batteries are commonly used because of their high energy density and long cycle life. Due to effective control and surveillance, these batteries are expected to keep working in a safe and reliable state. However, with the help of augmented reality/virtual reality (AR/VR) technology and digital twins, lithium-ion batteries may fundamentally change what we monitor them as well as how they operate. The purpose of this study is to investigate the potential of augmented reality (AR/VR) and digital twins for battery monitoring and control, as well as how they might achieve integration to achieve higher levels of performance and reliability. Where does AR/VR and digital twins currently stand when it comes to battery management systems (BMS)? There, we will also discuss what future research and development tasks would be for this discipline as well as the potential benefits of augmented reality (AR/VR) combination with digital twins on monitoring and controlling battery performance in detail. Yet our results show that merging AR/VR and digital twins effectively increases the efficiency, performance, and reliability of lithium-ion batteries for renewable energy applications.