In the Neural Engineering Center, we also focus our research on neural computation and control. Modeling of neural systems such as brain or peripheral nervous systems are powerful tools for the ...

State-of-the-art prosthetic limbs can help people with amputations achieve a natural walking gait, but they don't give the user full neural control over the limb. Instead, they rely on robotic sensors ...

Researchers have developed a novel training protocol for brain-computer interfaces in a study with rhesus monkeys. The method enables precise control of prosthetic hands using signals from the brain ...

Recent advances in artificial intelligence (AI) and machine learning (ML) have transformed our ability to decode complex ...

An insect-scale robot from MIT performs agile flight maneuvers using a neural-network controller, surpassing previous ...

A new surgical technique for below-the-knee amputations retains a person’s ability to receive sensory feedback from remaining muscles. Having a prosthetic leg driven by an amputee’s own nervous system ...

Layered metasurfaces trained as optical neural networks enable multifunctional holograms and security features, integrating neural computation principles with nanostructured optics to create a ...

Wearable Devices Ltd. announced that its Mudra Link Neural Gesture-Control Wristband received significant recognition at CES 2025, being praised by various media outlets like Tom’s Guide, CNET, and ...

Dr. Tam Nguyen receives funding from National Science Foundation. He works for University of Dayton. There are many applications of neural networks. One common example is your smartphone camera’s ...

A mind-controlled prosthetic feels more like a part of the wearer’s body and promises to make walking easier. When someone loses part of a leg, a prosthetic can make it easier to get around. But most ...