Correlation investigation of the brightness of GDE-grams using the methods of computer graphics and direct measurements

Authors

  • Yu. Dobrovolsky Yuriy Fedkovych Chernivtsi National University
  • H. Prokhorov Yuriy Fedkovych Chernivtsi National University
  • L. Diachenko Yuriy Fedkovych Chernivtsi National University
  • W. Zukow Nicolaus Copernicus University in Torun, Torun
  • V. Babelyuk Vivat Hotel and Health Complex, Morshyn
  • I. Popovych Bohomolets’ Institute of Physiology of NAS, Kyiv

DOI:

https://doi.org/10.12775/JEHS.2022.12.07.035

Keywords

Gas Discharge Visualization, computer graphics, brightness, streamer, digital image

Abstract

There are two methods of measuring the glow of a liquid under the conditions of gas-discharge imaging. This is a investigation of the brightness of GD-grams - a digital image of streamers created under these conditions, and a direct measurement of brightness using a luminometer, which is carried out during the formation of a streamer during a gas discharge. In the first case, the digital image is analyzed using computer graphics methods and certain software. In the second, the results of direct measurement are analyzed. We have analyzed these two methods using the example of the glow of water under the conditions of gas-discharge visualization. It is shown that with direct measurements the brightness values ​​are higher than when investigating the brightness of a digital image of the same streamer obtained in the same time period. Namely 1.5 cd/m2 and 1.7 cd/m2. The difference is 13% and significantly exceeds the measurement error of the brightness meter (± 7%). According to the results of our research, we suggest that, at the very least, when calibrating the devices that create the GDV-grams, use direct measurements of the glow of the liquid in photometric units. For example, in brightness units.

References

Sharapov V.М. Using the method of gas-discharge visualization for the investigation of the psychophysiological state of man / V.M. Sharapov, S.V. Rotte // Bulletin of the ChSTU. -2008. - № 9. -С. 179-183.

Kaznacheev V. P. Bioinformation function of natural electromagnetic fields / V. P. Kaznacheev, L. P. Mikhailov. -Novosibirsk: Nauka, 1985. -246 p.

Bilinsky J.J. Research of characteristics of gas-discharge visualization of images of liquid-phase objects / J.Y. Bilinsky, O.A. Pavlyuk, B.P. Knysh // Bulletin of Vinnytsia Polytechnic Institute. Radio electronics and electronic equipment. -2013.- № 1. -Р. 178-183.

Kolomiets R.O. Analysis of errors of optical systems and image sampling in the registration of GDV images of the total field structure of biological objects in statics / R.O. Kolomiets, V.P. Manoilov, V.A. Rudnytsky // Opto-electronic information energy technologies. -2007. -№ 1. -Р. 25-29.

Stepovich M.A. The Use of Gas Discharge Visualization for Identifying Structured Peculiarities of Blood Components: Plasma, Platelets, and Erythrocytes / M.A. Stepovich, O.M. Maslennikova, M.N. Shipko, A.L. Sibirev, V.V. Chrishtop //Journal of Cardiology & Cardiovascular Therapy, Juniper Publishers Inc., 2018, vol. 9(4), pages 71-74. DOI: 10.19080/JOCCT.2018.09.555770.

Yakovleva E.G. Identifying Patients with Colon Neoplasias with Gas Discharge Visualization Technique / E.G. Yakovleva, O.A. Buntseva, S.S. Belonosov, E.D. Fedorov, K.Korotkov, T.V. Zarubina // The Journal of Alternative and Complementary Medicine. Nov 2015.720-724. doi.org/10.1089/acm.2014.0168.

Korotkov K.G. Gas-discharge visualization method in sport bioelectrography / Korotkov K.G., Korotkova A.K. // Theory and practice of physical culture. 2018. № 11. С. 65-67.

Popovych, I. Liturgy affects the parameters of gas discharge visualization, acupuncture points and neuro-endocrine-immune complex / I. Popovych, V. Babelyuk, W. Zukow, R. Muszkieta, G. Dubkova, L. Nesterova, V. Hubyts’kyi, V. Bilas, V. Musiyenko, T. Seniv, V. Mis’ko, R. Babylyuk, Y.Yaremchuk, L. Barylyak, A. Gozhenko // Pedagogy and Psychology of Sport [online]. 26 April 2020, T. 6, nr 2, s. 61–73. [accessed 16.1.2022]. DOI 10.12775/PPS.2020.06.02.006.

DobrovolsciyY.G., PidkaminL.J., PetrencoV.О. Gas-unloadin visualization. Correlation Optics 2009, Chernivtsi, Ukraine, September 20-24, 2009.

Y. Dobrovolskiy, Vitally P., L. Pidkamin., Installation for investigation of light activity of the water with the help of surface gas discharge,”TCSET-2010”, February 23-27, 2010, Lviv-Slavske, Ukraine.с.343.

Ukrainian patent for utility model № 11160 Discharge-optical device. Dobrovolsky Yu.G. The newsletter. № 12, 2005.

Babelyuk V.Y. Usage of a gas-discharge visualization for an investigation of a human internal energy / V.Y. Babelyuk, Y.G. Dobrovolskiy, L.I. Pidkamin, I.L. Popovych, Yu.A. Ushenko // Proc. SPIE 11369, Fourteenth International Conference on Correlation Optics, 1136929 (6 February 2020); doi:10.1117/12.2553951.

Korotkov K. Kirlian effect / K. Korotkov. -SPb. : St. Petersburg GITMO (TU), 1995. -218 p.

Patent of Ukraine for utility model № 77327. Device for control of energy characteristics of optical radiation generated in the conditions of gas-discharge imaging. Dobrovolsky Yu.G., Prokhorov G.V. The newsletter. № 3. 11.02.2013.

Patent of Ukraine for utility model № 95769 Switch-optical device. Pryadko V.V., Dobrovolsky Yu.G., Baytsitm A.I., Sayuk. The newsletter. № 1.12.01.2015.

Dobrovolsky Yu.G. Method of water structuredness investigation with disruptive-optical device and energy-informational influence on it of an operator / Yu.G. Dobrovolsky, A.I. Gozhenko, V.Ye. Babelyuk, І.L. Popovich // Water: hygiene and ecology №2(1), 2013. -р. 120-134.

Tensor-28 TV and monitor brightness meter. Electronic resource. Access mode: https://tenzor.ua/products/izmerenie-opticheskih-harakreristik/pribory-dlya-izmereniya-harakteristik-vidimogo-izlucheniya-parametrov-svetovoy-sredy/tenzor-28/.

Medical Electrical Equipment, Part 1: General Requirements for Safety. UL Standard. Summary of Topics . Standard 60601-1, Edition 1 Edition Date: April 25, 2003. Electronic resource. Access mode: https://standardscatalog.ul.com/ProductDetail.aspx?productId=UL60601-1

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Published

2022-07-07

How to Cite

1.
DOBROVOLSKY , Yu., PROKHOROV, H., DIACHENKO, L., ZUKOW, W., BABELYUK, V. and POPOVYCH, I. Correlation investigation of the brightness of GDE-grams using the methods of computer graphics and direct measurements. Journal of Education, Health and Sport. Online. 7 July 2022. Vol. 12, no. 7, pp. 366-372. [Accessed 2 March 2025]. DOI 10.12775/JEHS.2022.12.07.035.

Issue

Vol. 12 No. 7 (2022)

Section

Research Articles

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Copyright (c) 2022 Yu. Dobrovolsky , H. Prokhorov, L. Diachenko, W. Zukow, V. Babelyuk, I. Popovych

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