The technique of point visualization of the electric field in space and time

Testing of electronic devices is an integral part of the technological process of any manufacturer of such equipment. In this case, an electronic device is understood as an energy-intensive unit such as a mobile phone, data center or spacecraft. One of the key stages of testing is to identify the ef...

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Main Authors: Z. M. Kurbanismailov, A. T. Tarlanov, E. M. Akimov
Format: Article
Language:Russian
Published: MIREA - Russian Technological University 2021-06-01
Series:Российский технологический журнал
Subjects:
Online Access:https://www.rtj-mirea.ru/jour/article/view/328
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author Z. M. Kurbanismailov
A. T. Tarlanov
E. M. Akimov
author_facet Z. M. Kurbanismailov
A. T. Tarlanov
E. M. Akimov
author_sort Z. M. Kurbanismailov
collection DOAJ
description Testing of electronic devices is an integral part of the technological process of any manufacturer of such equipment. In this case, an electronic device is understood as an energy-intensive unit such as a mobile phone, data center or spacecraft. One of the key stages of testing is to identify the effect of electric fields on various electronic components of the device. This stage often requires making a mock-up of some part of an unfinished device in order to fix interference with special equipment. This requires time, financial and human resource costs. In order to reduce these costs in the modern world, the use of mathematical modeling tools for testing noise immunity and electromagnetic compatibility is becoming popular. In this paper, it is proposed to use an algorithm for visualizing electric fields in three-dimensional space and time. The algorithm is easily embedded into applications as a component of a mathematical modeling system. The work considered three ways of visualizing the electric field strength: starting from a simple setting of points in space, on the basis of which the electric field will be built, around the source of electric field radiation, to the use of algorithms that make it possible to arrange points equidistantly based on a given number of points in space for the formation of an electric field. The performance and visual implications of these methods were analyzed. The proposed methodology will be useful to the developer community as an embedded solution for point visualization of the electric field in any project in any algorithmic language with the ability to animate in time.
format Article
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institution Kabale University
issn 2500-316X
language Russian
publishDate 2021-06-01
publisher MIREA - Russian Technological University
record_format Article
series Российский технологический журнал
spelling doaj-art-8e1009c02e4249c08aa23cfcfbf45a6a2025-02-03T11:45:50ZrusMIREA - Russian Technological UniversityРоссийский технологический журнал2500-316X2021-06-0193586510.32362/2500-316X-2021-9-3-58-65262The technique of point visualization of the electric field in space and timeZ. M. Kurbanismailov0A. T. Tarlanov1E. M. Akimov2MIREA – Russian Technological UniversityMIREA – Russian Technological UniversityMIREA – Russian Technological UniversityTesting of electronic devices is an integral part of the technological process of any manufacturer of such equipment. In this case, an electronic device is understood as an energy-intensive unit such as a mobile phone, data center or spacecraft. One of the key stages of testing is to identify the effect of electric fields on various electronic components of the device. This stage often requires making a mock-up of some part of an unfinished device in order to fix interference with special equipment. This requires time, financial and human resource costs. In order to reduce these costs in the modern world, the use of mathematical modeling tools for testing noise immunity and electromagnetic compatibility is becoming popular. In this paper, it is proposed to use an algorithm for visualizing electric fields in three-dimensional space and time. The algorithm is easily embedded into applications as a component of a mathematical modeling system. The work considered three ways of visualizing the electric field strength: starting from a simple setting of points in space, on the basis of which the electric field will be built, around the source of electric field radiation, to the use of algorithms that make it possible to arrange points equidistantly based on a given number of points in space for the formation of an electric field. The performance and visual implications of these methods were analyzed. The proposed methodology will be useful to the developer community as an embedded solution for point visualization of the electric field in any project in any algorithmic language with the ability to animate in time.https://www.rtj-mirea.ru/jour/article/view/328electric fieldintensityvisualizationmodelingcomputer graphicsanimation
spellingShingle Z. M. Kurbanismailov
A. T. Tarlanov
E. M. Akimov
The technique of point visualization of the electric field in space and time
Российский технологический журнал
electric field
intensity
visualization
modeling
computer graphics
animation
title The technique of point visualization of the electric field in space and time
title_full The technique of point visualization of the electric field in space and time
title_fullStr The technique of point visualization of the electric field in space and time
title_full_unstemmed The technique of point visualization of the electric field in space and time
title_short The technique of point visualization of the electric field in space and time
title_sort technique of point visualization of the electric field in space and time
topic electric field
intensity
visualization
modeling
computer graphics
animation
url https://www.rtj-mirea.ru/jour/article/view/328
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AT attarlanov thetechniqueofpointvisualizationoftheelectricfieldinspaceandtime
AT emakimov thetechniqueofpointvisualizationoftheelectricfieldinspaceandtime
AT zmkurbanismailov techniqueofpointvisualizationoftheelectricfieldinspaceandtime
AT attarlanov techniqueofpointvisualizationoftheelectricfieldinspaceandtime
AT emakimov techniqueofpointvisualizationoftheelectricfieldinspaceandtime