TY - GEN
T1 - Design of Haptic Vibrational Feedback Control in Upper Extremity Myoelectric Prostheses
AU - Diego Aguirre Cangalaya, Juan
AU - Antonio Cruz Anchiraico, Jose
AU - Ivan Del Carpio Ramirez, Sliver
AU - Angel Chamorro Quijano, Sario
AU - Huamanchahua, Deyby
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - Current prosthesis systems use haptic technology, have a brain-machine interaction that is dependent on visual feedback from the user, also have limitations by the details of the sense of touch both textures, roughness, weights, and contact forces applied. This research shows the development and implementation of haptic technology in a myoelectric prosthesis of the upper extremity, to simulate the sense of touch in the claw of the prosthesis to obtain a better control in the grip force taking as parameter the reaction and efficiency that the device has in different conditions for the patient to have an improvement in the feedback and the grip force of the prosthesis. For the development of the investigation, the VDI2206 methodology was used, simulating each part of the myoelectric prosthesis in different software for an improvement in the process of signal interpretation. Also by diagramming the motor execution process it facilitates the interpretation of the design. The results of the investigation show an alternative model of the conventional ones contributing with improvements in the signals received by the haptic prosthesis and better ergonomics, in addition, the perceived signals showed a better subjection and sensitivity. From the presented design it is desired to replicate to future research since the presented model can be taken as research material.
AB - Current prosthesis systems use haptic technology, have a brain-machine interaction that is dependent on visual feedback from the user, also have limitations by the details of the sense of touch both textures, roughness, weights, and contact forces applied. This research shows the development and implementation of haptic technology in a myoelectric prosthesis of the upper extremity, to simulate the sense of touch in the claw of the prosthesis to obtain a better control in the grip force taking as parameter the reaction and efficiency that the device has in different conditions for the patient to have an improvement in the feedback and the grip force of the prosthesis. For the development of the investigation, the VDI2206 methodology was used, simulating each part of the myoelectric prosthesis in different software for an improvement in the process of signal interpretation. Also by diagramming the motor execution process it facilitates the interpretation of the design. The results of the investigation show an alternative model of the conventional ones contributing with improvements in the signals received by the haptic prosthesis and better ergonomics, in addition, the perceived signals showed a better subjection and sensitivity. From the presented design it is desired to replicate to future research since the presented model can be taken as research material.
KW - Haptics
KW - VDI2206
KW - automation
KW - feedback
KW - mechatronics
KW - myoelectric
UR - http://www.scopus.com/inward/record.url?scp=85128429431&partnerID=8YFLogxK
U2 - 10.1109/ICMRE54455.2022.9734101
DO - 10.1109/ICMRE54455.2022.9734101
M3 - Conference contribution
AN - SCOPUS:85128429431
T3 - 2022 8th International Conference on Mechatronics and Robotics Engineering, ICMRE 2022
SP - 55
EP - 59
BT - 2022 8th International Conference on Mechatronics and Robotics Engineering, ICMRE 2022
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 8th International Conference on Mechatronics and Robotics Engineering, ICMRE 2022
Y2 - 10 February 2022 through 12 February 2022
ER -