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Journal Biomedical Radioelectronics №4 for 2016 г.
Article in number:
Method of measurement and evaluation of electromagnetic components of the bio-field and its application in medical technology
Keywords:
bioelectromagnetic field (BEMF)
biopotentials
informativeness
functional status
non-invasive
non-contact
phase auragram
Authors:
A.P. Dubrov - Dr.Sc. (Biol.), Professor, Leading Research Scientist, Russian Academy of Sciences, Research Institute of unconventional therapies, Reflexology Institute of the Medical Ministry, Moscow, Russia. E-mail: utmedia2@gmail.com
Y.P. Kravchenko (1947 2016) - Academician of Russian Academy of Medical and Technical Sciences
A.V. Savelyev - Senior Research Scientist, Director of the Patent Agency «©Uniquely honest patenting» www.patenttt.narod.ru, Scientific Coordinator of the Permanent Seminar «Neyrophylosophy» of the Moscow State University by M.V. Lomonosov, Moscow, Russiaю E-mail: gmkristo@yandex.ru
Abstract:
The results of many years research in the physics of ultra-weak bio-electromagnetic fields (BEMF), namely, the development of new signal processing techniques using the phase decoding. As the useful signal is used chaotic natural electromagnetic fields signal of biological objects. In the studies we find the persistent parametric correlates that characterize a current state of human and reflect-ing the pathology of various organs, including the hidden, or not yet manifested. This greatly improves accuracy of diagnosis and contactless diagnostic capabilities compared to known methods.
Measurement and evaluation parameters of electromagnetic fields distribution in the near space surrounding biological objects, in spite of their rather long history, and it is today an urgent task. Today the difficult are not resolved and concluded that all known me-thods for evaluating external BEMF allow to register their rapidly changing components only, which makes it impossible to achieve any acceptable accuracy and repeatability of the integrated diagnostic evaluation of body condition. In this case, the selection of a standard law on the dynamics of fast components BEMF virtually impossible even within the personality of the patient due to the high variability and stochastic processes of the sacrificial layer.
We found such informative indicators BEMF around the living organism [1], and we proposed such a method of measurement [2], which includes a fundamentally new methods of signal processing, secure next patents on inventions [3]. This enables making the quantitative component of the assessment, infinitely more slowly varying compared to BEMF dynamics recorded by the known me-thods.
In contrast to the known methods of receiving the information about the nature of fast reflex regulation only, the developed method allows you to completely tune out the instantaneous dynamics of fluctuations of the body state and build a field map. It allows to re-lated simple relationship with diseases and practically do not require decoding and analysis, which greatly improves the accuracy of diagnosis and diagnostic capabilities.
This work was financially supported by RHSF in grant № 15-03-00519а «Post-non-classic paradigm of artificial in-tellect».
Pages: 43-46
References
- Dubrov A.P., Galeev R.M., Kravchenko JU.P., Savelev A.V. Metod i apparatura izmerenija i ocenki ehlektromagnitnojj komponenty biopolja i ikh primenenie v medicinskojj tekhnike // Trudy konferencii BIOMEDPRIBOR-2000. NII medicinskogo priborostroenija RAMN. 2000. T. 1. S. 143-145.
- Dubrov A.P., Akhmadeeva EH.N., Kravchenko JU.P., Kalashchenko N.V., Gorjukhin A.S., Savelev A.V. U Ustrojjstva dlja issledovanija sverkhslabykh ehlektromagnitnykh polejj biologicheskikh i tekhnicheskikh obektov // ZHurnal fonda im. L.V. Vasileva «Psikhofizika». 1998. № 1(25). S. 99-103.
- Patent № 2118124 (RF). Sposob ocenki ehlektromagnitnogo polja bioobekta i ustrojjstvo dlja ego osushhestvlenija / JU.P. Kravchenko, A.S. Gorjukhin, N.V. Kalashchenko, A.V. Savelev.