Diverse women game developers creating game interface sitting in startup creative production company pointing at pc displays. Workers developing online graphics video games with modern technology
As humanity reaches to conquer cosmos, we still know frighteningly little about our own bodies. Our brains, especially, are still a mystery to us, but technological innovations bring us closer and closer to the full truth with every year.

Brain-Computer Interface technology is one of such innovations, allowing us to measure the activity of our central nervous systems and use it to communicate with an external device – like a robotic limb. Let’s take a closer look at the revolutionary BCI technology.

What is Brain-Computer Interface?

A Brain-Computer Interface enables communication between our central nervous systems and machines through a range of means – from non-invasive like EEG and MRI to advanced microelectrode arrays that connect neurons and circuits. Using BCI technology, researchers can not only get a better understanding of how our bodies function, but also repair lost cognitive and sensory-motor functions.

BCIs read the electric activity of our nervous systems, translating it into commands that computers and other external devices can understand. This gives the technology a wide range of applications, from moving robotic limbs across distances to augmenting our brains in ways we previously thought to be impossible.

What can BCI technology be used for?

Many entrepreneurs already use BCI technology to create innovative solutions. BCI systems by BrainAccess offer versatile and portable EEG solutions that are easy to set up and come with a free SDK and support for multiple programming languages. By using dry-contact electrodes, no gel is required for the EEG to work, making BCI technology easily applicable outside highly-controlled environments.

BCI technology is projected to have a massive impact on research and potential solutions for illnesses that inhibit consciousness like dementia, but it also finds uses in a variety of industries outside of healthcare. Even the entertainment industry experiments with BCIs, creating affordable EEG headsets that can make games react to brain activity – the possibilities are truly endless.