Control Systems and Computers

DOI: https://doi.org/10.15407/usim.2018.01.087

Upr. sist. maš., 2018, Issue 1 (273), pp. 87-96.

UDC 616-07-036.8

Fainzilberg Leonid S., Doctor of Technical Sciences, head of the department. International Research and Training Center for Information Technologies and Systems of the NAS and MES of Ukraine, Glushkov ave., 40, Kyiv, 03187, Ukraine, E-mail: fainzilberg@voliacable.com

Pomorskaya Diana V., graduate student, National Technical University of Ukraine “Igor Sikorsky Kyiv Politechnic Institute”, Peremohy Ave 37, Kyiv, Ukraine, E-mail: Pomorska_Diana@i.ua

Information Technology teaching the Methods for the Organism Recovery at Home Conditions

The information technology that provides learning the body recovery methods at home was developed. The technology is based on a mobile application running under Android operating system, which implements functions of a virtual instructor, with the help of a 3D model. To analyze the results, a computer system FASEGRAPH^® was used which automatically determines ordinary and original parameters of a single channel electrocardiogram as well as a modern fitness sensor Xiomi My Band 2, which gives the opportunity to monitor sleep with the help of the built-in pulse meter.

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Keywords: information technology, FASEGRAPH^®, fitness sensor, resting breathing.

1. KATERHENCHUK, I.P.,FAINZILBERG, L.S.,KATERHENCHUK, A.I. et al., 2017. “The role of psychosocial stress factors in the development of cardiovascular disease: the possibility of phasagraphy in preventing their negative effects”. Bulletin of Biology and Medicine, 4, v.1 (139), pp. 42-46. (In Ukrainian).
2. FAINZILBERG, L.S., KONDRATYUK, T.V., SEMMERGE, N.A., 2011. “Antistress a new information technology for controlling the human body’s regulatory systems based on biological feedback”, Upr. sist. maš, 3, pp. 62–72. (In Russian).
3. Avdeyev, A., Veshkin, A., Gladenin, V. et al., 2008. Spinal Diseases. Complete directory, Samara: Exmo, 2008, 608 p. (In Russian).
4. Debono, B., Bousquet, P., Sabatier, P. et al., 2016. “Postoperative monitoring with a mobile application after ambulatory lumbar discectomy: an effective tool for spine surgeons”, Europ. Spine Journal, 25, pp. 36–42. https://doi.org/10.1007/s00586-016-4680-4
5. BERDISHEVSKY, H., LEBEL, V., BETTANY-SALTIKOV, J. et al., 2016. “Physiotherapy scoliosis-specific exercises – a comprehensive review of seven major schools”, Scoliosis Spinal Disorders, 11.
6. Xiao, M., Zi-Qi, Y., Zhu-Qing, G. et al., 2016. “The Effect of Diaphragmatic Breathing on Attention. Negative Affect and Stress in Healthy”, Frontiers in Psychology, 8, pp. 874.
7. Square breathing or square breathing, 2016. http://www.aum.news/meditatsiya/1499-kvadratnoe-dyhanie-ili-dyhanie-pokvadratu. (In Russian).
8. Buteyko, M.M., Buteyko, V.K., 2005. About the method of Buteyko firsthand, M.: Patriot. (In Russian).
9. SACHKO, V., 2013. “System of employment by Norbekov”, Man and health, 11, pp. 24−27. (In Russian).
10. Shchetinin, M., 1998. “Respiratory gymnastics Strelnikova”. Physical Education and Sports, 9, pp. 9−10. (In Russian).
11. Ivasik, N., 2014. “Without aparatnyi methods of dihalnogo gimnastics”. Physical culture, sports and health of the nation, Vinnitsa, 17, pp. 670–676. (In Ukrainian).
12. Koryagina, I., 2014. Rebounding: Lessons of conscious breathing, M.: Amrita-Rus, 128 p. (In Russian).
13. Grof S., Grof, C., 2010. Holotropic Breathwork: A New Approach to Self-Exploration and Therapy, New York: First Edition, 221 p.
14. KUDRYAVTSEV, M.D., KOPYLOV, Y.A., KUZMIN, V.A. et al., 2015. “Personality oriented system of strengthening of students’ physical, psychic and social-moral health”, Physical education of students, 3, pp. 43–52.
15. Saati, T., 1993. Making decisions. Method of analysis of hierarchies, M. : Radio and communication, 278 p. (In Russian).
16. Pomorskaya, D.V., 2017. “Information technology of training the skills of restorative breathing at home”, Slovak international scientific journal, pp. 3–8. (In Russian).
17. Bubnovsky, S.M., 2016. 50 Essential Exercises for Health, Samara: Eksmo, 132 p. (In Russian).
18. BRAGG, P., 2014. The spine is the key to health, Moskow: Potpourri, 240 p. (In Russian).
19. Dikul, V., 2012. Big Book. Healthy spine, Samara: Eksmo, 688 p. (In Russian).
20. KRAK, YU.V., TERNOV, A.S., KUZNETSOV, V.O. et al., 2013. “Development of graphic tools for simulation of sign information”, Thesis of Int. Conf. “Dynamical systems modeling and investigation. Modeling and stability”, Kiev, 2013, pp. 402. (In Ukrainian).
21. Park, S.I., Hodgins, J.K., 2006. “Capturing and animating skin deformation in human motion”. ACM Trans. on Graphics (TOG), 25, n 3, pp. 881–889.
    https://doi.org/10.1145/1141911.1141970
22. FAINZILLBERG, L.S., 2017. Fundamentals of fasegraphy, Kiev: Education of Ukraine, 2017, 264 p. (In Rus-sian).
23. POMORSKAYA, D.V., 2017. “Information technology of training the skills of restorative breathing at home”. Znanstvena misel journal, 2017, pp. 93–103. (In Ukrainian).
24. Review: Mi Band 2 from Xiaomi – fitness-tracking features on a band with an OLED display. South China Morning Post, 2016. [online] Available at: <http://www.scmp.com/lifestyle/article/1983651/review-mi-band-2> [Accessed 5 Oct. 2017].
25. Dyachuk, D.D., Gritsenko, V.I., Kravchenko, A.M. et al., 2017. Methodical recommendations of the Ministry of Education of Ukraine “Application of the fasegraphy method in the screening of coronary heart disease”, K.: Ukrmedpatentinform, 32 p. (In Ukrainian).
26. BAEVSKY, R.M., IVANOV, G.G., CHIREIKIN, L.V., 2002. “Analysis of heart rate variability when using various electrocardiographic systems”. Herald of arrhythmology, 4, pp. 65–70. (In Russian).

Received 16.01.2018