Produced by: BusinessToday Desk
For centuries, the mystery of whether the brain is awake during dreams has puzzled scientists. But now, with a groundbreaking database, researchers are closer to solving it. What did they discover about our brain’s activity when we dream?
Using Artificial Intelligence, scientists can now predict when we’re dreaming, based on our brain activity. But how accurate is AI in decoding the mind's mysterious sleep states? The findings could reshape how we think about sleep and consciousness.
For years, it was believed that dreams only occur during REM sleep, but new research shatters that idea. Dreams may happen during deep sleep as well. What does this revelation mean for our understanding of how our brains work during rest?
Imagine your brain being "half-awake" during sleep. New findings show that during deep, quiet sleep, the brain’s activity mimics that of a waking state. How does this blur the line between sleep and wakefulness?
The 'DREAM' project has created the largest open-access database on brain activity during sleep, and it’s available to researchers worldwide. What new insights could this shared data platform reveal about human consciousness?
Fifty-three scientists from 13 countries have come together to study brain activity during sleep. The result? A groundbreaking database that could change the way we study consciousness forever. What does this international effort mean for sleep science?
For the first time, brain data from 20 studies have been compiled into one universal platform. This shared database aims to bring clarity to the complex connection between dreams, sleep, and consciousness. How will this standardization change the course of research?
Scientists have discovered that the brain doesn’t rest as we thought. Even in deep sleep, activity suggests we're not fully "asleep." How does this challenge previous theories about the brain’s state during rest?
The DREAM project is more than just a research initiative—it’s a global milestone in understanding the brain’s activity during sleep. But how will this massive collection of sleep data revolutionize the science of dreams?