We’d also like to point out [Bodo Hoenen’s] talk about a system that uses electromyography to pick up the movement of the muscles in the arm.

A new brain-computer interface (BCI) has enabled a paralyzed man to control a robotic arm by simply imagining movements.

A robotic arm capable of mimicking hand gestures through data analysis of the mechanical activity of the muscles, using wearable piezoelectric sensors was developed. Piezoelectric discs were placed in ...

The human nervous system must balance stable motor control with adaptability for learning new movements. Brain activity forms ...

A reality where a paralyzed patient thinks about moving his limbs while a robotic arm imitates his intention has finally been ...

A complete computing system on one chip including a processor based on the ARM architecture. See ARM and SoC. THIS DEFINITION IS FOR PERSONAL USE ONLY. All other reproduction requires permission.

A robotic arm commanded by the human brain is allowing a paralyzed man to manipulate his environment with fine control.

[Ray Kampmeier] just finished writing some code to allow him to control his robotic arm using force-sensitive hand gestures! He calls it the Robo Marionette. He’s using a MeArm 4 DOF robotic arm ...

Recently zonal controller architectures are emerging ... This means it will be even easier for automotive SoC design teams to take full advantage of Arm processor IP and Arteris system IP (the use of ...

Scientists have developed a brain-computer interface that allows a paralyzed man to control a robotic arm using only his thoughts.