Project Keywords:
EV Charging, Autonomous Vehicles, Sustainability, Smart Infrastructure, Green Energy
Project Summary
Academic Area:
Project Medium:
Autonomous Electric Vehicle Recharging Robot This self-operating EV charging system is the first market-ready autonomous recharging robot, eliminating the need for fixed charging stations. Capable of delivering 15kW DC charging per hour, the robot enables 50 miles of driving range and optimizes parking lot mapping to enhance efficiency. Designed for universal battery management, this technology contributes to a carbon-zero future by utilizing recycled batteries and reducing the demand for additional infrastructure.
Project Achievements
Project Inspiration
Project Social Impact
By increasing accessibility to EV charging, this robotic solution promotes widespread EV adoption, reducing reliance on fossil fuels and supporting carbon neutrality goals. The autonomous operation ensures that parking lots and urban spaces can accommodate more EVs without extensive infrastructure overhauls. Additionally, by utilizing recycled batteries in its design, this technology contributes to sustainability efforts, making EV charging not only more efficient but also more environmentally responsible.
Project Market Demand
By increasing accessibility to EV charging, this robotic solution promotes widespread EV adoption, reducing reliance on fossil fuels and supporting carbon neutrality goals. The autonomous operation ensures that parking lots and urban spaces can accommodate more EVs without extensive infrastructure overhauls. Additionally, by utilizing recycled batteries in its design, this technology contributes to sustainability efforts, making EV charging not only more efficient but also more environmentally responsible.