Autonomous EV chargers, equipped with robotic systems and smart grid capabilities, will offer efficient and user-friendly charging experiences. High-capacity battery storage will balance energy supply and demand, enhancing grid stability and supporting renewable energy integration.  

There are several phases to reach the objective of such autonomous EV chargers. It includes research and development, test and validate in a virtual system in computer, design pilot deployment, and scaling and commercializing.  

The project aims at the first phase, i.e. research and development, focusing, test and validate in a virtual system in computer. The main tasks of the project are integrating digital twins, autonomous EV chargers, and battery storage systems. Digital twins will simulate and optimize urban mobility, predicting and meeting future demands.  

This initiative will significantly reduce greenhouse gas emissions, lower operational costs, improve user convenience, and strengthen urban energy grids. By combining advanced technologies with strategic planning, this project will foster a resilient, efficient, and sustainable mobility ecosystem. 

• Design Configuration of Autonomous EV Chargers: Develop and integrate autonomous EV chargers with smart grid capabilities to optimize charging processes, reduce energy wastage, and enhance user convenience, contributing to the widespread adoption of electric vehicles. This design is integrated with Battery Storage: Implement high-capacity battery storage solutions to balance energy supply and demand, support renewable energy integration, and enhance grid stability. 

• Develop a Digital Twin: Create accurate digital twins of urban mobility systems to simulate and optimize the integration of autonomous EV chargers and battery storage, enhancing overall energy efficiency and grid stability. 

• Optimize Energy Management of the Virtual System: Develop algorithms and software to manage energy flows between chargers, storage units, and the grid, ensuring optimal load balancing and reliability.