Eye Directive Wheelchair

This paper promises a way to manually manipulate and manipulate a wheelchair for disabled humans based solely on eye movement. This idea can be applied to humans with loco-motor disabilities. The proposed gadget consists of 3 levels: image detection, picture processing and control indicators. Head Setup Digital camera use detects eye movement. Photos of attention are sent to a computer that can process images using the Python software program. The corresponding output indicators are sent to the motor driving circuit, which causes the cars to overturn.



The wheelchair is a wheelchair that was invented in the early fifth century. This device is available in variations by hand or with the help of the rear wheels by car or seated owner. Often there are handles on the back of the seat for a person to push. Wheelchairs are used by people who find it difficult or impossible to stroll due to contamination, harm or incompetence. People who have trouble sitting and walking often want to use a wheel bench. A basic guide wheelchair consists of a seat, footrests and four wheels: two, front caster wheels and heavy wheels on the lower rear. Other types of wheelchair are often variations on this basic design, but can be surprisingly customized for customers’ desires. Such customizations include seat dimensions, peak, seat attitude (also known as seat selling or squeezing), footrests, leg rests, front caster outriggers, adjustable backrest and controls. An electric-powered wheelchair is a wheelchair that is moved by electric motors and navigational controls, usually a small joystick mounted on the armrest in place of manual power. An unbiased operation of the wheelchair can also be allowed for users who cannot change guide joysticks, head switches, chin-operated joysticks, sip-and-puff or other professional controls.



The purpose of this task is to extend the wheelchair so that it is controlled by the eyes of the person sitting in the wheelchair. It allows humans to fully utilize their organs to move around and provide autonomy. The mission consists of three basic parts. The eye tracking module features a digicam that captures a photo of the eyeball. The setup is designed with the intention of putting minimal stress on the person. The webcam will directly address the scene set up to capture the photograph. The camera is positioned, which allows you to capture 1 eye movement, allowing the gin of the opposite eye to be clear and propensity. The camera takes a photo of the eyes to send to the laptop where the picks are being processed. Once the photograph is processed it moves to the second part, the microcontroller.

The system includes an eye tracking webcam, microcontroller, motor, chair image processing unit and associated circuits. The gadget works with webcam usage to help track eyeball movement. The photo is processed with Python software and the corresponding motion is obtained. The arrangement is intended for stagnant human beings and a person with loco-motor disabilities. Hardware combined with software is a wonderful device that makes paralysis the presence of humans unbiased. The wheelchair prototype has been designed and found to be effective, incorporating the above specifications.

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