JOURNAL OF BIOELECTROMAGNETIC MEDICINE

VOLUME TWO Part Six
JUNE 2000

Ultrafine Biocybernetics

An error in thinking widespread throughout the world is the human tendency to look at most processes linearly. Temperature, for example, is not a linear but a logrithmic scale. The absolute zero point of -273.15 degrees Celsius or 0 degrees Kelvin is at minus infinity. The high temperatures of stars are not millions of degrees but just a few thousand on the Hegelmann scale. Biological events likewise do not proceed in a linear manner but logarithmically. An example is the logrithmical growth pattern of bacteria in culture and the expression of the Fibonacci sequence in natural phenomena. Many processes and phenomena are still looked at linearly in scientific and philosophical terms. This linear approach needs to be replaced with cross-linked thinking much like that of permutation theory in the study of statistics.

Both the cosmos and our organism consist of an unimaginably large number of control circuits. The significance of regulation and information was recognized by the two mathematicians N. Wiener and C.E. Shannon. They founded cybernetics, the science of control, regulation and information processing in machines and organisms. Science and technology today can no longer be imagined without the principle of cybernetics, and many problems can only be solved with the aid of cybernetics. The logical consequence is that this principle should be utilized for a modern, future oriented form of therapy. The complexity of the organism, the multilayered nature of biological processes, the immense number of cells in the organism and a growing number of unknown disturbance factors formally compel us to remove medicine and other natural sciences from previous modes of thought.

The organism is in all respects a cybernetic system. All biological processes are organized according to the dynamic principle of cybernetics. The individual components are in a functional relationship with each other, the whole organism and the environment. Changes from outside the system are registered and passed on to particular elements as information. Control mechanisms are started up to compensate for influences from outside and maintain a state of equilibrium or a specified required state. The information or messages which reach organisms are, as already discussed, Schumann waves, the electron plasma waves, daylight, water & food, a large number of chemicals & toxins and not least acoustic impressions and experiences. The recepton of this information is relayed via nerves, protein and lipid chains in tissue which in turn triggers a chain of reactions. The organism is thus controlled or disturbed by a wide variety of factors from the outside. These factors act via an energy flow and thus change or maintain the states of equilibrium in the organism. This happens without feedback outwards.

The organism also has self-control mechanisms which depend on external control forces. There are two types of these: fixed setpoint control and follow-up control. The maintenance of a constant body temperature is an example of fixed setpoint control. Temperature changes from outside is interpreted by appropriate action to keep the body temperature constant from within. Follow-up control is an adaptation to a new state of equilibrium. This means that the control circuit does not return to the original state but adapts to the external conditions. An example is the pupil of the eye adjusting to increasing or decreasing ambient intensity of light by constricting or opening the iris.

However, as we have seen, a four-dimensional approach cannot represent the biological processes in the ultrafine energy range. With every change in a physical variable in four-dimensional space, there is also simultaneously a change in the organizational structural range(X-5) and in the realization range(X-6). The material plane, the biological plane and the spiritual plane are linked together. Thus cybernetic control in a simple four-dimensional system of coordinates can only be captured if the fifth and sixth coordinates are added.

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