1. electrodes attached to the finger transmit the sensation of touch to the nervous system. 2. This finger can distinguish between rough and smooth surfaces. Joe Haj
1. It interfaces directly with the nerves through a surgical installation. 2.Nerve interfacing might allow a light sensor adaptation for blind people or possibly it could be used as replacement limbs for people who are paralyzed. -Katelyn
1. electrodes attached to the finger transmit the sensation of touch to the nervous system.
ReplyDelete2. This finger can distinguish between rough and smooth surfaces.
Joe Haj
1.interfaces directly with the nerves of the amputee
ReplyDelete2.artificial touch in robotics for surgery, rescue and manufacturing
Brady Zheng
Chris VanYe
ReplyDelete1.the electrodes in the artificial finger transfers information to the person
2. amputees who lost there hand could use it to feel
Electrodes in the human are attached to the nervous system
ReplyDeletesurgery and helping amputees
Nicholas Muhleman
1. It interfaces directly with the nerves through a surgical installation.
ReplyDelete2.Nerve interfacing might allow a light sensor adaptation for blind people or possibly it could be used as replacement limbs for people who are paralyzed.
-Katelyn
1.interfaces directly with the nerves of the amputee
ReplyDelete2.artificial touch in robotics for surgery, rescue and manufacturing
Alex Haston
artificially sophisticated nerves for prosthetic.
ReplyDeleteRestoring feeling to amputees.
wyatt.coffin