Paper Title
Magnetic Field-Controlled Charging Stations for Electric Vehicles

Abstract
The electrification of vehicles (EVs) necessitates effective and scalable ways to charge these EVs. Traditional methods of charging EVs, i.e., plug-in, face challenges in urban settings because of space and accessibility issues. This paper presents a Wireless EV Charging Station with the capability for smart control of the magnetic field for the purpose of transferring energy without contact while improving the efficiency and convenience for the user. Real-time adaptive control makes adjustments to optimize magnetic field alignment for reliable wireless energy transfer with different EV sizes. Simulations, comparing energy transfer rates to conventional wireless systems, show an increase in energy transfer efficiency of 20-25% over the energy transfer rates from conventional wireless systems. In addition, this study highlights the importance of adaptive control, safety protocols, and real-time data processing for reliable wireless charging. Future research will examine performance improvements, safety, and improved intelligence of the system through the integration of IoT devices. Keywords - Wireless Power Transfer (WPT), Optical Character Recognition (OCR), Battery Management System (BMS), Power Transfer Efficiency (PTE), Magnetic Field-Controlled Charging, ESP32 CAM, Number Plate Recognition, Magnetic Field-Controlled Charging, Integrated Development Environment (IDE), Electric Vehicles (EV), Battery Management System (BMS), Electromagnetic Field (EMF),