But not only synchronization of the frequencies (in the statistical plan) is the necessary condition for normal activity in the organism. The shift in the phases of the biological rhythms can also substantial. Thus, the shift in the phase with respect to time which ?????? on a flight from Europe to America, requires a greater adjustment than a flight along a meridian. It is considered, for example, that agreement with time of the amplified activity of the stomach and liver leads to the gastritis and stomach ulcer. All this indicates the need for research on the phase relationships even for and electroencephalogram. Considering the complexity of the organism, it is possible to comprehend that for synchronization and control of a large number of organs and functions a considerable number of different frequencies is required. Many of these rhythms, up to radio-frequencies, are already registered. To deny the possibility of detecting rhythms on other frequencies is not possible. Carefully conducted experiments and special equipment are necessary.
3. Biological Code of the Electroencephalogram
The polymodal character of the density of distribution of "half-cycles" "periods" and more of the long chains of a clipped EEG signal of a man with open eyes indicates the possibility of a reference of each of the modes of distribution to the appropriate digit of the positional code.
The characteristic criterion which finds that the observed combinations of digits of the code reflect not a random wandering, but are subordinated to a certain restricted number of rules, is the series change in the curves of distribution of increasingly longer chains(?) from the time intervals. The discrete and slender character of the distribution for the very long chains serves as convincing proof of the existence of the code in the statistical meaning.
The calculation of the probabilities of transition from one digit to another showed that the greatest probability for the observed 11 (?) digits is the zero digit (alpha-rhythm). The probability of transition to the zero digit after any of the given digits, is greatest (?) when the delay does not exceed several units. Already now