AI predicts behavior
An artificial neural network designed by an international team involving UCL can translate raw data from brain activity, paving the way for new discoveries and a closer integration between technology and the brain.
An artificial neural network designed by an international team involving UCL can translate raw data from brain activity, paving the way for new discoveries and a closer integration between technology and the brain.
The overfitted brain: Our dreams' weirdness might be why we have them, argues a researchers in new theory of dreaming.
Stimulating humans' sense of smell to prevent conditions such as Alzheimer's Disease is the focus of international research.
Researchers have used a computational model of brain activity to simulate this process more accurately than ever before.
Researchers have developed a new way to power and communicate with devices implanted deep within the human body.
Scientists have created flexible, metal-free electrode arrays that conform to the body - avoiding damage to organs.
Researchers have wirelessly recorded the brain activity of patients living with Parkinson's disease and then used that information to adjust the stimulation delivered by an implanted device.
Researchers have invented a smartphone-controlled soft brain implant that can be recharged wirelessly from outside the body.
The first Parkinson's patient worldwide was treated with a new neurostimulator, which enables better, more personalized care for patients.
A novel method of combining advanced optical imaging with an artificial intelligence algorithm produces accurate, real-time intraoperative diagnosis of brain tumors.
Using the Microsoft HoloLens mixed reality platform, scientists have created the first interactive holographic mapping system of human brain.
A tiny, needle-like sensor that could potentially play a significant role in treating diseases such as depression, chronic pain, Parkinson’s and epilepsy.
Using a simple computer game and AI techniques, researchers were able to identify behavioural patterns in subjects with depression and bipolar disorder.
A scientist is working to develop miniature implantable medical devices that sense and communicate wirelessly via sound waves.
Three patients with chronic paraplegia were able to walk over ground thanks to precise electrical stimulation of their spinal cords via a wireless implant.
Engineers use deep learning to decode the conversation between brain and arm, by analyzing electrical patterns in the motor control areas of the brain.
MIT neuroscientists have devised a way to measure dopamine in the brain. Tiny probes could be useful for monitoring patients with Parkinson’s and other diseases.
An engineer designed the first neurosurgical robotic system capable of performing bilateral stereotactic neurosurgery inside a MRI scanner.