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Journal Biomedical Radioelectronics №4 for 2014 г.
Article in number:
Hard-software system for simultaneous registration of human absorbed microwave dose and analyze of heart rate variability
Authors:
A.B. Simakov - Ph.D. (Eng.), Leader of Research Lab., National Research Nuclear University «MEPhI», Moscow, Russia. E-mail: absimakov@mephi.ru
B.V. Gurkovskiy - Junior Research Scientist, P.K. Anochin institute of normal physiology, Moscow, Russia; Post-graduate National Research Nuclear University "MEPhI" Moscow, Russia. E-mail: b.gurkovskiy@nphys.ru
E.P. Murtazina - Ph.D. (Med.), Leading Research Scientist, P.K. Anochin institute of normal physiology, Moscow, Russia. E-mail: e.murtazina@nphys.ru
B.V. Zhuravlev - Dr.Sc. (Med.), Professor, P.K. Anochin institute of normal physiology, Moscow, Russia. E-mail: b.zhuravlev@nphys.ru
I. N. Vodokhlebov - Leading Engineer, National Research Nuclear University «MEPhI», Moscow, Russia. E-mail: invodokhlebov@mephi.ru
T.A. Sugrobova - Leading Engineer, National Research Nuclear University «MEPhI», Moscow, Russia. E-mail: tasugrobova@mephi.ru
B.V. Gurkovskiy - Junior Research Scientist, P.K. Anochin institute of normal physiology, Moscow, Russia; Post-graduate National Research Nuclear University "MEPhI" Moscow, Russia. E-mail: b.gurkovskiy@nphys.ru
E.P. Murtazina - Ph.D. (Med.), Leading Research Scientist, P.K. Anochin institute of normal physiology, Moscow, Russia. E-mail: e.murtazina@nphys.ru
B.V. Zhuravlev - Dr.Sc. (Med.), Professor, P.K. Anochin institute of normal physiology, Moscow, Russia. E-mail: b.zhuravlev@nphys.ru
I. N. Vodokhlebov - Leading Engineer, National Research Nuclear University «MEPhI», Moscow, Russia. E-mail: invodokhlebov@mephi.ru
T.A. Sugrobova - Leading Engineer, National Research Nuclear University «MEPhI», Moscow, Russia. E-mail: tasugrobova@mephi.ru
Abstract:
The term "biodosimetry" has appeared recently [1], but, this evaluation of the MICROWAVE action on bio-objects is today the most perspective method.
The new method and hard-software system were developed for research of the individual influence of the absorbed microwave dose on human physiological parameters and also operative estimation of this action on psychological condition of the responsible operator.
The block-diagram of the hard-software system is shown on Fig.1. Imitator of the MICROWAVE controlled by microprocessor, works at the range of the modern mobile telephone systems. The new device, so called, "biodosimeter" is demonstrated
on Fig. 2, and one allows measuring the dose (J/kg) and specific absorbed rate - SAR (W/kg) [2-3]. Fig. 1 illustrates the cardio-rhythm and breath parameters measurements by means of optoelectronics detectors at presence of MICROWAVE irradiation. The special data processing of the heart rate variability allows valuating of the human sensitivity to MICROWAVE absorption.
The first experimental researches have shown the individual changing of heart rate variability depending on SAR [4].
Pages: 75-76
References
- Durney C.H., Massoudi H., Iskander M.F. Radiofrequency Radiation Dosimetry Handbook. 4th Ed. Report USAF SAM-TR-85-73, Brooks AFB, TX: USAF SAM. 1986.
- Patent №2324948 (RF).
- Simakov A.B. Development of MICROWAVE Radiation Dose - Meter for Human Safety Provision and Ecological Monitoring // Book of Abstracts of 4th Dresden Symposium «Survey of Geo-Hazards», September 26 - 30. 2005. P.27.
- Guravlev B.V., Simakov A.B., Sugrobova T.A. The pathogenic influences of MICROWAV // Book of abstracts of 5-th International Conference: Hazard - Detection and Management. Dresden. Germany. March 03-08. 2008. P. 74.