Despite all the attention on technologies that reduce the hands-on role of humans at work – such as self-driving vehicles, robot workers, artificial intelligence and so on – researchers in the field ...

Brain-monitoring wearables have caught the internet’s fancy after Zomato founder Deepinder Goyal’s appearance on a podcast wearing them. Here’s what you need to know about them, including their uses a ...

Scientists have developed a new technology that can measure brain waves using electronic, temporary tattoos. The researchers say the method could act as a quicker and more convenient way to monitor ...

A new study has demonstrated that a tiny bundle of optical fibers can continuously, accurately, and simultaneously measure six biomarkers of brain health, helping to prevent serious complications that ...

Despite all the attention on technologies that reduce the hands-on role of humans at work — such as self-driving vehicles, robot workers, artificial intelligence, and so on — researchers in the field ...

The newly developed “lab on a tube” is a catheter equipped with multiple sensors capable of continuously monitoring numerous physiological and biochemical changes in the brain, simultaneously. The ...

Despite all the attention on technologies that reduce the hands-on role of humans at work – such as self-driving vehicles, robot workers, artificial intelligence and so on – researchers in the field ...

Neural interfaces create a direct link between the brain and a device like a computer to enable communication, and the monitoring, recording, or stimulating of neural activity. These interfaces have a ...

A personalized electronic facial tattoo that wirelessly monitors the brain can tell when the organ is being overworked and can use the data it collects to predict mental overload, according to a new ...

Imagine a sleek, portable home device that resembles a headband or cap, embedded with tiny electrodes. Placed on the head, these sensors detect subtle brain wave activity, behaving like a ...

Mayo Clinic researchers have found a new way to more precisely detect and monitor brain cell activity during deep brain stimulation, a common treatment for movement disorders such as Parkinson's ...