Mathematical model of the bioelectromagnetic field recorded electrographically

• Autorzy: Baiculescu S.
• Języki publikacji: EN

Abstrakty

EN

Recording of the image of the radiating biofield of electrostatic nature on the photosensitive film was made by using an electrographic installation, working under high voltage and low intensity conditions (25-30 kV; 3.5-10 myA), ascending slope monoimpulse, condenser with flat plates, specific cabling. The method initiated by J. Narkevicz (1910), rediscovered by Kirlian (1952), developed by F. Dumitrescu and E. Celan (1975), applied in the study of ontogenesis by C. Guja (1981), used in the experiments on the plant behaviour by M. Godeanu (1983), is presently used in electrographic diagnostics of various medical affections ( Anthropological Research Center of the Romanian Academy) and in some special cognitive experiments (USA, Russia, Germany). The film and electromorphous effects that delimit effluvionary structures with specific density and distribution are generated by the biological field belonging to the surface and inside of the organism. The almost periodical shape of the envelope of the electrographic biological signals (streamers) that belong to the frontier of the palm surface, allowed the determination of its analytical expression, using the theory of aleatory functions, almost periodical in probability. The electrographic results were put into functional connection with neuronal activity, the electroencephalographic signals also having a periodical envelope curve. In the paper, there has been worked out a cybernetic control and regulation diagram of the cerebral waves, using the electrographic-electroencephalographic assembly as well as the medical control unit for cerebral waves by means of luminous signals. The electrographic information was quantified, while the electrographic test was considered an experiment, its results (biological signals) making up an event field with various achievemnt probabilities. The electrographic informational calculation method was applied to some lots with psycho-neuro-endocrine and cardiovascular deseases and to some lots consisting of aging subjects. The comparison was made with the results obtained with the witness lots, introducing the term of compared informational electrography (ClEg). The investigation was made on the palm surface, considering that it best reflects the bioinformational dynamics of the human individual. One may highlight an electrographic informational law, the results being useful for the prospective prefiguration and diagnosing of various affections occuring in some processes specific ofhomeostasis. We determined the mathematical law by means of which its elements are generated; one may attach the human being participating values, corresponding to the hydric, mineral, dielectric, semiconducting components. Isomorphism existing between these components and the biofield forms, recorded electrographically, were highlighted.

Słowa kluczowe

EN

medical control systems; biological effects of fields; electroencephalography; magnetoencephalography; photochemistry; photosensitive film; electrographic biological signals; electrographic diagnostication

PL

fotochemia; medyczne systemy kontroli; electrographic

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Systems Science
• Rocznik: 2005
• Tom: Vol. 31, no 3
• Strony: 139--144
• Opis fizyczny: Bibliogr. 13 poz., wykr.

Twórcy

autor

Baiculescu S.

• "St. Odobleja" Cybernetics Academy; Calea Rahovei 147-153, Bucuresti 75266, Romania,

Bibliografia

• [1] Romanian Academy Comparative Study "living-non-living" by means of the electrographic test. Biological Signal, Vol. 15, 1995.
• [2] Acalugaritei G., General structure of Acalugaritei networks, Kibemetes, Vol. 5/6, 2000, 755-769.
• [3] Baciu a., Baciu C., Electrical Energy and Life, Techn. Publ., Bucharest 1986.
• [4] Bertalanffy L. von, Theorie generale des systèmes, Dunod, Paris 1970.
• [5] Bogdan R. J., Information and Semantic Cognition, Mind and Language Rev, No. 3, 1988.
• [6] Boureanu G., Grossu I., Beldie C., Evolution and Self-Organization in System far away from the State, Techn. Publ., Bucharest 1989.
• [7] Bunge M., The mind-body problem: A Psychobiological Approach, Pergamon Press, Montreal 1980.
• [8] Baiculescu S., Formal equations of the biofield recorded by electrography - criteria for analysis. Present achievements of bioengineering and biotechnology in Romania, The Romanian Society of Bioengineering and Biotechnology, Bucharest, Romania, 1993.
• [9] Baiculescu S., Biological Information Generated by Electronographic Investigations, National Seminar of Psychotronic Research, Bucharest, Romania, 1993.
• [10] Baiculescu S., Electrographically Recorded Biofield and Halo, Romanian Academy, The Days of the Academy, lasi. Section , lasi, Romania, 1994.
• [11] Baiculescu S., Qualitative Equations and the Analysis Criteria Resulting from the Electrographic Investigations, National Seminar of Psychotronic Research, Bucharest, Romania, 1994.
• [12] Baiculescu S., Cerebral high codified processes and bioelectromagnetical variability -matematical model and biofeedback analysis. Congress of Biocybemetics, Ecology, Bioeconomics, Palma de Mallorca, Spain, 1998.
• [13] Baiculescu S., Godeanu A., Cerebral high codified processes and electromagnetic variability; mathematical model and biofeedback analysis, Vol. <Cybemetics, Ecology and Bioeconomics>, Agard Printing House, Milan, Italy, 1999, 73-78.