Explore how neuromorphic chips and brain-inspired computing bring low-power, efficient intelligence to edge AI, robotics, and ...

How does the brain manage to catch the drift of a mumbled sentence or a flat, robotic voice? A new study led by researchers at Reichman University's Baruch Ivcher School of Psychology and the Dina ...

Using lab-grown brain tissue, researchers uncovered complex patterns of neural signaling that differ subtly between healthy ...

A new protein sensor lets researchers see incoming brain signals, revealing how neurons process information tied to memory ...

Imagine watching a conversation between brain cells, seeing chemical messages pass from one neuron to another. Scientists can ...

Brain organoids can be a good step forward, assuming they are grown from induced human pluripotent stem cells. That allows us to sidestep ethical concerns about the use of human embryos, thereby ...

In 1943, a pair of neuroscientists were trying to describe how the human nervous system works when they accidentally laid the foundation for artificial intelligence. In their mathematical framework ...

From large language models to whole brain emulation, two rival visions are shaping the next era of artificial intelligence.

Gliomas are cancers that originate directly in the brain, instead of spreading to the brain from other parts of the body.

Neuroscientists have long listened to the brain’s electrical spikes, but those loud crackles are only the final output of a ...

MRI signals don’t always match the brain’s true activity levels, overturning a core assumption used in tens of thousands of studies.