What happens inside your brain when you listen to a steady rhythm or musical tone? According to a new study at Ahars University and Oxford University, your brain doesn’t just listen to it – it reorns itself in real time.
Every beep, accent and new sound you travel by ear to enroll in your brain. But when you hear a permanent series of sounds, what is actually in your mind? Published in a new research by Ahars University and the University of Oxford Advanced science It reveals that the brain does not easily register sound: It organizes a complex interaction of brainwaves in multiple networks, in real time, in real time, gives its organization a dynamic appearance.
In collaboration with Oxford University, led by Dr. Metaia Rosso and Associate Professor Leonardo Bonte, the research introduced a novel neuro -eiming method at the Center for Music. Frecky nice -Estimates of frequency -based network -based network. Using advanced algorithms, this method overlaping brain networks based on their dominant frequency. Once a network is identified by its unique frequency, then it can be known how it spreads throughout the brain.
“We are accustomed to thinking about brainwaves like Fixed Stations – Alpha, Beta, Gamma – and Mental Anatomy, which are as a set of separate areas,” says Dr. Rosso. “But what we see with Freak Nice is very rich. It has long been known that brain activity is organized by activity in various frequencies, both the internal and the environment is prepared. By this basic principle, we have developed a method that shows how every frequency is revealed in the brain.”
The precise door of brain mapping opens
The development of frequency represents a major development on how scientists can investigate the mass dynamics of the brain. Unlike traditional methods that rely on default frequency bands or areas of interest, from a data -driven point of view, the entire brain’s internal organization makes a high venture and local health map. And it opens new possibilities for basic neuroscience, mental computer interface, and clinical diagnosis.
This study increases the growing body of research on how the brain’s rhythm structure shapes music from music to general impression and attention, and how to shape the changing states of consciousness.
“The brain does not just react to it: it rebootes it. And now we can see it,” Professor Leonardo says at the Center for Music at the Center for Music at the University of Ayes, and Oxford University’s Edimonia and the Human Flower Center. “This can change how we study music and beyond the mental reaction, including consciousness, rotating the brain and a broader conversation with the outside world.”
A large -scale research program is now underway to promote this procedure, which is endorsed by the International Network of Neuro Scientists. Professor Leonardo Bonte explained that due to the experimental conditions and high reliability in the datases-Firry Nes can also pave the way for mental mapping individually.
