Abstract

Abstract: Amputees face a variety of physical and emotional challenges. Because they have lost organs, they have to rely on others to carry out their daily activities. Amputees may now live more independently and freely thanks to prosthetics. As a result, the study's objective is to develop a Prosthetic Hand with a real-time flex sensor to assist them. To govern arm movements, the suggested design asks for the use of flex sensors in a glove controller. The findings are backed up by real-time oscillations of phantom mimicry, a unique trait of the human hand. Each of the five fingers may be moved individually thanks to its unique design. A nRF24 transceiver was used to establish a wireless communication link between the controller and the sensor. The main purpose of the project is to demonstrate how 3-D printing technology can be utilised to construct a low-cost, user-friendly prosthetic hand that allows amputees to do tasks that need both hands. By restoring the functionality of the wounded physical component, it assists the disabled in gaining the confidence to live an independent life. Keywords: Prosthetic hand, Flex sensors, Glove control, Actuators, Wireless communication, 3-D printing.

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