INVESTIGATION OF THE ABSORPTION OF ELEKTROMAGNITNOGO FIELD OF BIOLOGICAL MATERIAL ON THE EXAMPLE OF THE 2-DIMENSIONAL CASE

In this paper the study of new schematic models, which can be useful in the evaluation of induced fields in biological objects is given. The case of incident plane electromagnetic wave is considering. for the 2-dimensional case. In these models the description of induced fields in a lossy medium is given, by applying theory of transmission lines. Voltages and currents in circuits models simulate the electrical and magnetic field environments. The solution involves the presentation of equivalent conductance and current sources of polarization in the medium. Such currents are treated as sources of excitation in the contours of the patterns which dictate the condition of the induced field.

1. Zyablov E.L., Preobrazhensky Yu.P. Construction of an object-semantic model of a control system / Bulletin of Voronezh Institute of High Technologies. 2008. No. 3. S. 029-030.

2. Choporov O.N., Agarkov A.I., Kutashova L.A., Konovalova E.Yu. The method of converting qualitative characteristics into numerical evaluation when processing the results of medical and social Research / Bulletin of the Voronezh Institute of High technology. 2012. No. 9. S. 96-98.

3. Berezhnaya E.V. Health risk assessment of the city of Voronezh at exposure to atmospheric chemicals Air / Modeling, Optimization and Information technologies. 2013. No. 1. P. 2.

4. Preobrazhensky A.P., Choporov O.N. Forecasting Algorithms radar characteristics of objects during restoration radar images / control systems and information Technology. 2004.Vol. 17. No. 5. S. 85-87.

5. Popov EA, Korneeva NN, Choporov ON, Zaryaev AV Risk analysis information and telecommunication systems with additive the nature of the irregularity parameter / Information and security. 2013.V. 16. No. 4. P. 482-485.

6. Maher H.A., Naumov N.V., Klimenko G.Ya., Choporov O.N. Development and using models to predict quality of life pregnant by their medical and social characteristics / System analysis and management in biomedical systems. 2011. T. 10. No. 4. S. 789-793.

7. Choporov O.N., Lvovich I.Ya., Razinkin K.A., Ryndin A.A. Optimization of management of the functioning of medical systems at various levels / Management systems and information technologies. 2013.V. 53. No. 3. S. 100-104.

8. Dushkin A.V., Choporov O.N. Threat decomposition model security information and telecommunication systems / Information and security. 2007.V. 10. No. 1. P. 141-146.

9. Choporov O.N., Gladskikh N.A., Pronin S.S., Chudinov M.I., Semenov S.N., Matyushevsky K.L. Streamlining management regional systems using methods system analysis, information and gis technologies / Applied informational aspects of medicine. 2007.V. 10. No. 2. S. 15-19.

10. Finkenzeller K. RFID Handbook Fundamentals and Applications in Contactless Smart Cards, Radio Frequency Identification, and Near-field Communication, Third edition. John Wiley & Sons, Ltd., 2010.480 p.

11. Choporov O.N., Chupeev A.N., Bregeda S.Yu. Analysis methods the significance of indicators in the classification and prognostic modeling / Bulletin of the Voronezh State technical university. 2008. T. 4. No. 9. P. 92-94.

12. Zavyalov D.V. On the application of information technology / Modern high technology. 2013. No. 8-1. S. 71-72.

13. Preobrazhensky Yu.P. Evaluation of the effectiveness of the system intellectual decision support / Bulletin Voronezh Institute of High Technologies. 2009. No. 5. P. 116-119.

14. Mishin, Y.A. About CAD systems in wireless networks / Bulletin of the Voronezh Institute of High technology. 2013. No. 10. P. 153-156.