GENERAL GDV PRINCIPLES
BEO GDV analysis of human health, psychology and well-being is based on studying information derived from BEO-grams of individual's fingers and, in some cases, toes. This idea was first suggested by Dr. Peter Mandel in 1986 who developed a sophisticated system of diagnostics using Kirlian photography. In this case, Kirlian photographs of both hands and feet were taken simultaneously. Dr. Mandel is an extremely talented person. He has developed a set of treatment programs based on this information and together with his colleagues offers them in healing centres in Germany, Switzerland and Italy.His achievements have attracted a lot of attention. For example, an Australian journalist was so impressed with Dr. Mandel, that he published a book about his techniques and outstanding personality. Dr. Mandel's system combines Energy Emission Analysis, Colorpuncture, Acu-Impulse therapy, Induction therapy and Color-Sound therapy combined by the idea of the Esogetic Model of human functioning. This is a powerful empirical approach, based on thousands of patients.
Dr. Korotkov's approach to diagnosis is quite different from Dr. Mandel's, however; the two systems may be complementary to one another. After studying Dr. Mandel's book at the end of 80ies, Dr. Korotkov spent a great deal of time in clinics and hospitals comparing Kirlian photos of patients with their confirmed diagnosis. After this, he created his own diagnostic charts and a way of categorizing patients into groups. In 1995, he was able to carry this work forward to a higher level establishing the foundation for a truly scientific stage in Kirlian diagnostics with the introduction of GDV Bioelectrography. This technology is entirely based on modern scientific paradigms.
Using a special electrode system the approach creates a high intensity electric field around an object that produces a gas discharge with a glow that can be seen and measured. The discharge appears independently of the nature of the object, consequently with experimental experience one can cause virtually any object to glow. This could be a nail, a stone or a plant; any biological essence adds its own unique aspect to this glow, changing its brightness, size, and color.
The discharge reveals the features of an object that cannot be determined by other techniques. Moreover, any small changes that occur can be tracked like electrical properties, emission characteristics, gas evaporation, and energy exchange with the environment - all these parameters of the object contribute to its glow. After careful analysis, all attempts to assign or relate this glow to other factors such as sweating or conductivity alone have proven incorrect. For example, with complex objects it is possible to determine the influence of different factors such as medicine, type of food, environment, etc. The method reveals complex reaction of an organism to different influences.
To analyse the human psycho-physiological condition, two main analytical approaches are applied: parametric and sector. The parametric approach was based on the calculation of BEO-gram parameter, factor and correlation analysis, although today, the GDV software calculates more than 30 parameters. Complex analysis usually allows for results of both GDV measurements and other types of measurements including psychological, physiological, and bioelectrographic. The main groups of parameters that are considered are geometrical, brightness, density, fractal, probability, and entropy parameters.
Sector diagnostics is based on a diagnostic table, connecting glow characteristics of separate zones of fingers with the functional state of body zones. The idea of such connection was first proposed by Dr. Mandel. The diagnostic table is based on the concepts of traditional Chinese medicine, micro-acupuncture systems and empirical experience. The analysis suggests using notions on Chakras and Ayurvedic medicine. Basing on 10-fingers, BEO-grams and the diagnostic table, the model of field distribution around a human body is built in the GDV software. Independent clinical observations in different countries validated the GDV-technique and, in particular, the model of field distribution - aura.
The method of GDV Bioelectrography is a practical application and a touchstone of the new approach. Although gas discharge images fluctuate, they are still probabilistically reproducible. They represent natural application of non-linear mathematics. However, conclusions, made using these methods, should be absolutely concrete and should carry clear information on a biological object's state.
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