Bio-inspired robotic finger looks, feels and works like the real thing

Most robotic parts used to today are rigid, have a limited range of motion and don’t really look lifelike. Inspired by both nature and biology, a scientist has designed a novel robotic finger that looks, feels and works like the real thing. Using shape memory alloy, a 3D CAD model of a human finger, a 3D printer and a unique thermal training technique, this robotic finger could ultimately be adapted for use as a prosthetic device, such as on a prosthetic hand.
Bio-inspired robotic finger looks, feels and works like the real thing

From nuclear research to surgery technology

A JRC invention initially stemming from its research in the nuclear sector will soon be used by hospitals for minimally-invasive robotic surgery. TELELAP ALF-X is an advanced multi-port robotic system that will empower surgeons with new technologies such as eye-tracking and haptics, allowing them eye-control of the camera and touch sensation during surgery. Hospitals will be able use the most advanced technology while running at low operational costs, as the system can use current surgical instruments.
From nuclear research to surgery technology