With the surge in popularity of electric vehicles (EVs) in India, the need for effective charging systems is escalating. Conventional home charging solutions are giving way to wireless charging systems, reflecting lifestyle shifts. This transition has ignited attention in wireless power transmission for EVs. However, employing induction techniques, current wireless EV chargers necessitate substantial infrastructure and suffer from significant energy loss during transfer, rendering them less feasible. The proposed method seeks to exploit a variety of waves, notably visible and invisible light sources, and integrates a digital twin model for energy transmission. A digital twin of a solar panel is a real-time computerized replica of the physical solar assets, utilizing smart sensors to gather real-time data on the power output from the solar photovoltaic system. This approach seeks to address the limitations of conventional wireless charging technologies, enhancing both the efficiency and long-term viability of electric vehicle charging networks.

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Innovative Light Beam-Based Wireless EV Charging with PV Panel Digital Twin Optimization

  • P. Siva Kumar,
  • G. Jai Sreedhar,
  • Jainam S Mardia,
  • A. Aswini,
  • M. Kaleeswari

摘要

With the surge in popularity of electric vehicles (EVs) in India, the need for effective charging systems is escalating. Conventional home charging solutions are giving way to wireless charging systems, reflecting lifestyle shifts. This transition has ignited attention in wireless power transmission for EVs. However, employing induction techniques, current wireless EV chargers necessitate substantial infrastructure and suffer from significant energy loss during transfer, rendering them less feasible. The proposed method seeks to exploit a variety of waves, notably visible and invisible light sources, and integrates a digital twin model for energy transmission. A digital twin of a solar panel is a real-time computerized replica of the physical solar assets, utilizing smart sensors to gather real-time data on the power output from the solar photovoltaic system. This approach seeks to address the limitations of conventional wireless charging technologies, enhancing both the efficiency and long-term viability of electric vehicle charging networks.