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The Smart Wheelchair Controlling Using Gloves project focuses on designing an innovative assistivemobility solution for individuals with disabilities, enhancing their independence and quality of life. Thissystem employs a sensor-equipped glove to control a motorized wheelchair, providing an intuitive anduser-friendly interface. By integrating components such as accelerometers, flex sensors, andmicrocontrollers, the glove captures hand gestures and translates them into directional commands forthe wheelchair. The design emphasizes accuracy, low power consumption, and ease of use, enablingsmooth navigation in various environments. To enhance accuracy and reduce power in smart chaircontrol via gloves, use low-power microcontrollers, precise sensors, and efficient communicationmodules like BLE. Optimize with energy management and lightweight, conductive glove materialsWireless communication modules ensure seamless data transfer between the glove and wheelchair.Safety features, including obstacle detection and emergency stop mechanisms, are integrated to preventaccidents. This project offers a cost-effective alternative to traditional assistive devices, addressing theneed for affordable and intelligent mobility solutions. It holds potential for widespread adoption,empowering users with enhanced mobility and autonomy in their daily activities.

Copyright © 2025 Annangi Sujith Kumar. This is an open access article distributed under the Creative Commons Attribution License.