Electronic skins will play a significant role in monitoring, personalized medicine, prosthetics, and robotics.
Search for: tactile sensors
Engineers have designed a new touch-sensing glove that can “feel” pressure and other tactile stimuli. The design could help restore motor function after stroke.
Researchers have constructed a 3D vision-guided artificial skin that enables tactile sensing with high performance, opening doors to innumerable applications in medicine.
Experts working at the intersection of robotics, machine learning, and physics-based simulation share how computer simulation could accelerate the development of "smart robots" which "might interact with humans"
More researchers and companies are moving into the brain-computer interfaces, yet major challenges remain, from user training to the reality of invasive brain implant procedures.
Scientists are researching salamanders unique superpower - they can regenerate their spinal cords and regain full functionality.
Scientists have successfully tested neuroprosthetic technology that combines robotic control with users’ voluntary control, opening avenues in the new interdisciplinary field of shared control for neuroprosthetic technologies.
Wearing a sensor-packed glove while handling a variety of objects, researchers have compiled a massive dataset that enables an AI system to recognize objects through touch alone.
Researchers have developed a next-generation bionic hand that allows amputees to regain their proprioception.
Robots will be able to conduct a wide variety of tasks as well as humans if they can be given tactile sensing capabilities.
Resеarchers have created аrtificial "e-whiskers" which mimic thе prоpеrties of thе reаl thing.
Electronic ‘skin’ will enable amputees to perceive through prosthetic fingertips.