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On the estimation of magnetotherapy curative sessions effects. / Соловьев, Игорь Павлович; Ампилова, Наталья Борисовна; Уварычев, Федор Иванович.

Proc. 13 Int. Conf. CEMA18. ed. / Dimiter Dimitrov. Vol. 2018-October TECHNICAL UNIVERSITY OF SOFIA, 2018. p. 62-65 (Communication, Electromagnetics and Medical Application).

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Соловьев, ИП, Ампилова, НБ & Уварычев, ФИ 2018, On the estimation of magnetotherapy curative sessions effects. in D Dimitrov (ed.), Proc. 13 Int. Conf. CEMA18. vol. 2018-October, Communication, Electromagnetics and Medical Application, TECHNICAL UNIVERSITY OF SOFIA, pp. 62-65, 13 INTERNATIONAL CONFERENCE ON
COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL
APPLICATIONS (CEMA’18), София, Bulgaria, 18/10/18.

APA

Соловьев, И. П., Ампилова, Н. Б., & Уварычев, Ф. И. (2018). On the estimation of magnetotherapy curative sessions effects. In D. Dimitrov (Ed.), Proc. 13 Int. Conf. CEMA18 (Vol. 2018-October, pp. 62-65). (Communication, Electromagnetics and Medical Application). TECHNICAL UNIVERSITY OF SOFIA.

Vancouver

Соловьев ИП, Ампилова НБ, Уварычев ФИ. On the estimation of magnetotherapy curative sessions effects. In Dimitrov D, editor, Proc. 13 Int. Conf. CEMA18. Vol. 2018-October. TECHNICAL UNIVERSITY OF SOFIA. 2018. p. 62-65. (Communication, Electromagnetics and Medical Application).

Author

Соловьев, Игорь Павлович ; Ампилова, Наталья Борисовна ; Уварычев, Федор Иванович. / On the estimation of magnetotherapy curative sessions effects. Proc. 13 Int. Conf. CEMA18. editor / Dimiter Dimitrov. Vol. 2018-October TECHNICAL UNIVERSITY OF SOFIA, 2018. pp. 62-65 (Communication, Electromagnetics and Medical Application).

BibTeX

@inproceedings{35bf9a14f6c949c0adb24bcc32200ed5,
title = "On the estimation of magnetotherapy curative sessions effects",
abstract = "Low frequency and low intensities magnetic and electric fields are used in physiotherapy for a long time. But due to the fact that the action of these fields on living tissues is very complicated and at the moment insufficiently studied, nowadays there is no simple method to measure their curative effect. In practrice the natural way of investigations is the experimental one: to observe the state of a patient during curative sessions and collect statistical data. We propose to combine practical approach with the study of processes in external environment when low intensity magnetic fields act. With this purpose we calculate and visualize the trajectories of ions in electromagnetic field generated by a magnetotherapy device. Such an approach leads to obtaining a series of images that show trajectories depending of the choice of the parameters of the device. That results in visual representation of typical phase portraits generated by the applied mathematical model. Visual perception helps to compare the number of procedures, parameters of the used device and the changing of patient state, and thus to form an expert knowledge in this area.",
author = "Соловьев, {Игорь Павлович} and Ампилова, {Наталья Борисовна} and Уварычев, {Федор Иванович}",
note = "Funding Information: This work was partially supported by the grant Erasmus + International Mobility (KA107) / National Technical University of Athens — St. Petersburg State University.; null ; Conference date: 18-10-2018 Through 20-10-2018",
year = "2018",
month = oct,
day = "18",
language = "English",
isbn = "1314-2100",
volume = "2018-October",
series = "Communication, Electromagnetics and Medical Application",
publisher = " TECHNICAL UNIVERSITY OF SOFIA",
pages = "62--65",
editor = "Dimiter Dimitrov",
booktitle = "Proc. 13 Int. Conf. CEMA18",
address = "Bulgaria",
url = "http://rcvt.tu-sofia.bg/CEMA/",

}

RIS

TY - GEN

T1 - On the estimation of magnetotherapy curative sessions effects

AU - Соловьев, Игорь Павлович

AU - Ампилова, Наталья Борисовна

AU - Уварычев, Федор Иванович

N1 - Conference code: 13

PY - 2018/10/18

Y1 - 2018/10/18

N2 - Low frequency and low intensities magnetic and electric fields are used in physiotherapy for a long time. But due to the fact that the action of these fields on living tissues is very complicated and at the moment insufficiently studied, nowadays there is no simple method to measure their curative effect. In practrice the natural way of investigations is the experimental one: to observe the state of a patient during curative sessions and collect statistical data. We propose to combine practical approach with the study of processes in external environment when low intensity magnetic fields act. With this purpose we calculate and visualize the trajectories of ions in electromagnetic field generated by a magnetotherapy device. Such an approach leads to obtaining a series of images that show trajectories depending of the choice of the parameters of the device. That results in visual representation of typical phase portraits generated by the applied mathematical model. Visual perception helps to compare the number of procedures, parameters of the used device and the changing of patient state, and thus to form an expert knowledge in this area.

AB - Low frequency and low intensities magnetic and electric fields are used in physiotherapy for a long time. But due to the fact that the action of these fields on living tissues is very complicated and at the moment insufficiently studied, nowadays there is no simple method to measure their curative effect. In practrice the natural way of investigations is the experimental one: to observe the state of a patient during curative sessions and collect statistical data. We propose to combine practical approach with the study of processes in external environment when low intensity magnetic fields act. With this purpose we calculate and visualize the trajectories of ions in electromagnetic field generated by a magnetotherapy device. Such an approach leads to obtaining a series of images that show trajectories depending of the choice of the parameters of the device. That results in visual representation of typical phase portraits generated by the applied mathematical model. Visual perception helps to compare the number of procedures, parameters of the used device and the changing of patient state, and thus to form an expert knowledge in this area.

UR - http://www.scopus.com/inward/record.url?scp=85056271119&partnerID=8YFLogxK

M3 - Conference contribution

SN - 1314-2100

VL - 2018-October

T3 - Communication, Electromagnetics and Medical Application

SP - 62

EP - 65

BT - Proc. 13 Int. Conf. CEMA18

A2 - Dimitrov, Dimiter

PB - TECHNICAL UNIVERSITY OF SOFIA

Y2 - 18 October 2018 through 20 October 2018

ER -

ID: 35369458