One approach involves connecting the brain to a machine, while other scientists are pioneering in the field of simulated brain cultivation. A Chinese team has proposed a novel strategy of integrating ...

A novel machine learning model called Temporal Autoencoders for Causal Inference (TACI) accurately detects changing cause-and ...

Understanding how the brain controls movement is a fundamental question in ... researchers at the group of Pavan Ramdya at EPFL created a simulated reality where a virtual fly can operate and respond ...

All animals, large or small, have to move at an incredible precision to interact with the world. Understanding how the brain ...

The US military is exploring a non-invasive helmet that connects directly to a pilot's brain, enabling faster communication ...

Scientists discovered that memory formation isn’t limited to the brain. Non-brain cells can activate memory genes, responding ...

Fluorescence lifetime imaging microscopy (FLIM) excels over the widely used fluorescence intensity imaging by allowing the measurement of absolute signal levels, independent of sensor concentration.

A new computational method can identify how cause-and-effect relationships ebb and flow over time in dynamic real-life systems such as the brain.

“The nervous system of a virtual lifeform is a pipeline computer where, every moment, data from sense organs passes through a network of neurons and finally contracts a muscle in a specific body part.

A new study reveals how the brain compensates for rapid eye movements, maintaining a stable visual perception despite dynamic ...

Neurobiologists have made a breakthrough in understanding how environmental factors might contribute to autism spectrum ...

From a universal robot brain to how AI could be better than quantum computing, check out this week's awesome tech stories from around the web.