Prototype Prosthetic ARM

Prototype Prosthetic ARM

Author Name : Dr. Prithiviraj, Aravinth M, Gopinath S, Lokesh B, Revanth S

ABSTRACT Prosthetic limbs have evolved significantly over the years, aim to enhance functionality and improve the quality of life for humans and animals with limb loss.Among these advancements, prosthetic arms stand out due to their intricate design and the challenge of replicating the functionality of the human arm. This abstract outlines the design and development of a prototype prosthetic arm, incorporating innovative technologies to natural arm movements and improve experience.The prototype prosthetic arm integrates cutting-edge technologies such as (EMG), myoelectric control, and advanced materials to achieve a balance between functionality, comfort, and aesthetics.The design priorities natural movements and intuitive control mechanisms to empower users with greater mobility.The prototype prosthetic arm demonstrates a wide range of functional capabilities were the including:Grasping and manipulation of objects with varying shapes, sizes, and textures.Precise fine motor control in the task requiring delicate movements, such as handling small objects.Adaptive grip force modulation based on sensor feedback, preventing damage to ensuring user safety.The development of the prototype prosthetic arm represents a significant step forward in the field of prosthetics, offering enhanced functionality, comfort, and user experience. By leveraging advanced technologies and innovative design principles, this prototype demonstrates the potential to improve the lives of individuals with upper limb loss, empowering them to lead more independent and fulfilling lives.In summary, the integration of EMG sensors, myoelectric control, modular design, and advanced materials enables the prototype prosthetic arm to replicate natural arm movements with precision and fluidity, setting a new standard for prosthetic limb design and functionality