A joint research team has developed a stretchable and adhesive microneedle sensor that can be attached to the skin and stably measure high-quality electrophysiological signals for a long period of ...

We don’t see many EMG (electromyography) projects, despite how cool the applications can be. This may be because of technical difficulties with seeing the tiny muscular electrical signals amongst the ...

Graduate student Peyton Young works with a robotic arm controlled by electromyography (EMG) signals. Young has now developed a technique to use pressure measurements from muscles (force myography, FMG ...

Apple is continuing to look into how to improve its wearable devices, including using precise location and orientation data to adjust how audio is delivered, and to better utilize biometric sensors ...

Witness the complex engineering behind a functional DIY exoskeleton that utilizes innovative hydrogen-powered artificial muscles and biological sensor integration. This project explores the design and ...

Precise timing has confined effective neurorehab to clinics. Wearable, semi‑autonomous neurostimulation uses muscle signals ...

Electromyography (EMG) is a diagnostic test that measures how well the muscles respond to the electrical signals emitted to specialized nerve cells called motor nerves. EMG tests are safe and pose ...

Combining two different kinds of signals could help engineers build prosthetic limbs that better reproduce natural movements, according to a new study. A combination of electromyography and force ...