Modeling the dynamics of charged particles using Unity engine

M. Syasko, I. Soloviev

Research output

Abstract

The problem of computer modeling and visualization of low frequency electromagnetic fields is in the area of interest of such directions as education, research activity, medicine and industry. Visualization helps better understanding the influence of magnetic fields on various physical environments, and a clarifying the physical and mathematical models that are used. In industry visualization is often applied in the tools for non-destructive testing and in magnetic inspection systems. In medicine these fields are traditionally used in magnetotherapy, and at the moment computer modeling and visualization are often the only practical approach to the studying the influence magnetic fields on a living organism. In this work we demonstrate a computer tool both for modeling a magnetic field distribution and the motion of a charged particle in this field. The algorithms are implemented in a special environment Unity. That allows the combining calculations and visualization and results in considerable reducing run-time and the development of a flexible application that may be easily used by physicians. The results of experiments are given
Original languageEnglish
Title of host publicationProceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)
Editors Dimiter Tz. Dimitrov
Place of PublicationSofia
Publisher TECHNICAL UNIVERSITY OF SOFIA
Pages41-45
Publication statusPublished - 17 Oct 2019
Event14TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS - София
Duration: 17 Oct 201919 Oct 2019

Publication series

NameProceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)
ISSN (Electronic)1314-2100

Conference

Conference14TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS
Abbreviated titleCEMA’19
CountryBulgaria
CityСофия
Period17/10/1919/10/19

Fingerprint

Charged particles
Visualization
Engines
Magnetic fields
Medicine
Nondestructive examination
Electromagnetic fields
Industry
Education
Inspection
Mathematical models
Experiments

Scopus subject areas

  • Computer Science(all)

Cite this

Syasko, M., & Soloviev, I. (2019). Modeling the dynamics of charged particles using Unity engine. In D. T. Dimitrov (Ed.), Proceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...) (pp. 41-45). (Proceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)). Sofia : TECHNICAL UNIVERSITY OF SOFIA.
Syasko, M. ; Soloviev, I. / Modeling the dynamics of charged particles using Unity engine. Proceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...). editor / Dimiter Tz. Dimitrov . Sofia : TECHNICAL UNIVERSITY OF SOFIA, 2019. pp. 41-45 (Proceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)).
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Syasko, M & Soloviev, I 2019, Modeling the dynamics of charged particles using Unity engine. in DT Dimitrov (ed.), Proceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...). Proceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...), TECHNICAL UNIVERSITY OF SOFIA, Sofia , pp. 41-45, София, 17/10/19.

Modeling the dynamics of charged particles using Unity engine. / Syasko, M.; Soloviev, I.

Proceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...). ed. / Dimiter Tz. Dimitrov . Sofia : TECHNICAL UNIVERSITY OF SOFIA, 2019. p. 41-45 (Proceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)).

Research output

TY - GEN

T1 - Modeling the dynamics of charged particles using Unity engine

AU - Syasko, M.

AU - Soloviev, I.

PY - 2019/10/17

Y1 - 2019/10/17

N2 - The problem of computer modeling and visualization of low frequency electromagnetic fields is in the area of interest of such directions as education, research activity, medicine and industry. Visualization helps better understanding the influence of magnetic fields on various physical environments, and a clarifying the physical and mathematical models that are used. In industry visualization is often applied in the tools for non-destructive testing and in magnetic inspection systems. In medicine these fields are traditionally used in magnetotherapy, and at the moment computer modeling and visualization are often the only practical approach to the studying the influence magnetic fields on a living organism. In this work we demonstrate a computer tool both for modeling a magnetic field distribution and the motion of a charged particle in this field. The algorithms are implemented in a special environment Unity. That allows the combining calculations and visualization and results in considerable reducing run-time and the development of a flexible application that may be easily used by physicians. The results of experiments are given

AB - The problem of computer modeling and visualization of low frequency electromagnetic fields is in the area of interest of such directions as education, research activity, medicine and industry. Visualization helps better understanding the influence of magnetic fields on various physical environments, and a clarifying the physical and mathematical models that are used. In industry visualization is often applied in the tools for non-destructive testing and in magnetic inspection systems. In medicine these fields are traditionally used in magnetotherapy, and at the moment computer modeling and visualization are often the only practical approach to the studying the influence magnetic fields on a living organism. In this work we demonstrate a computer tool both for modeling a magnetic field distribution and the motion of a charged particle in this field. The algorithms are implemented in a special environment Unity. That allows the combining calculations and visualization and results in considerable reducing run-time and the development of a flexible application that may be easily used by physicians. The results of experiments are given

KW - Computer modeling

KW - computer visualization

KW - magnetic field

KW - charged particle

KW - computer tool

UR - http://rcvt.tu-sofia.bg/CEMA/proceedings/CEMA_2019_proc.pdf

M3 - Conference contribution

T3 - Proceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)

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BT - Proceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)

A2 - Dimitrov , Dimiter Tz.

PB - TECHNICAL UNIVERSITY OF SOFIA

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Syasko M, Soloviev I. Modeling the dynamics of charged particles using Unity engine. In Dimitrov DT, editor, Proceedings of 14th International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...). Sofia : TECHNICAL UNIVERSITY OF SOFIA. 2019. p. 41-45. (Proceedings of ... International Conference on Communications, Electromagnetic and Medical Applications (CEMA ...)).

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