In this way, the human brain can predict the future – e-jack

According to a new study from the University of California at Berkeley, published by the British Daily Mail and citing the scientific journal of the National Academy of Sciences, the human brain has two internal hours to predict the near future.

Expect in milliseconds
Research suggests that the cerebral circuits of the brain predict the next millisecond. The researchers explain that one of the hours depends on the past to predict what is happening in similar events, while the other hour at the pace, but both important and effective in the way of moving and of move the man in his daily life.
The researchers give simple examples of the operation of human clocks, which are responsible for predicting when the foot control is operated to drive a fraction of a second before the fire turns green, while the cognitive timing function predicts the exactly when the next line will begin to sing. A song

Proactive calendar
The internal clocks were discovered after the team had studied the prophylactic timing of a number of people with Parkinson's disease.
The main author of the study, Asaf Briska, explains that, whether it's sports, music, conversation or even attention, the study suggests that human timing is not a uniform process. There are two distinct ways for people to make time predictions based on different parts of the brain.

A new scientific perspective
The results of the study provide a new scientific perspective on how to calculate the human brain movement when it begins to move from one place to another.
"Brain systems work harmoniously, interacting with the present and the future at a time," said Professor Richard Every.
Briska and Evry have also studied the synchronizing forces and deficits of people with Parkinson's disease, as well as those with macular degeneration. The researchers then established a link between the rhythmic timing of the basic contract and the period, an internal timer that largely depended on human memory drawn from past experiences and between the brain. Both represent primitive brain regions badociated with movement and perception.

Non-drug treatment methods
Briska explains that the study not only identifies the proactive contexts of these patients, but also addresses the context of events in which they do not have difficulties, which helps them to modify their environments to facilitate their interaction with the surrounding world and to overcome their disease problems, highlighting the existence of non-pharmaceutical treatments. To overcome the inability to adjust the nervous rhythm, include exercises on the brain with computer games, as well as the operation of some smart phone applications, deep brain stimulation procedures and environmental changes.

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