HARDWARE-SOFTWARE MEDICAL COMPLEX FOR REMOTE MONITORING OF PHYSIOLOGICAL PARAMETERS OF THE CARDIOVASCULAR SYSTEM

226

Name of journalTechnical science and innovation
Number of edition2021,№1(07)
View count226

Web Address

DOI

Date of creation in the UzSCI system16-07-2021

Read count226

Date of publication27-03-2021

Main LanguageIngliz

Pages115-122

Tags

Ўзбек

The aim of the study is to create hardware and software for a medical complex for remote monitoring of physiological parameters of the cardiovascular system. This study is defined as one of the main tasks of telemedicine and allows increasing the efficiency of diagnosis, treatment and provision of qualified medical care. A method of remote monitoring of the main physiological parameters of the cardiovascular system is proposed, which ensures the timely determination of the diagnosis and treatment of diseases. A method for designing a hardware-software complex has been developed, requirements for design, its architecture, structure and characteristics have been determined, the principle of operation and functional purpose of the main blocks, algorithms for functioning and ensuring the passage of diagnostic information are given.

The proposed hardware and software complex provides: registration and analysis of physiological parameters without significant interference in the patient's life, an additional communication channel for qualified cardiologists and patients, planned and emergency medical care, organization of consultations with virtual participation of leading specialists, remote control of diagnostics and examinations, diagnostic manipulations, monitoring and assessment of the patient's condition in the dynamics of observation.

The proposed hardware and software complex for remote monitoring of functional indicators of the cardiovascular system allows for autonomous automatic continuous remote monitoring of the parameters of the vital activity of a biological object and further processing, systematization and analysis of the obtained medical data. In the basic configuration, it is possible to work with 50 transmitting diagnostic devices with a coverage area of up to 50 meters.

Tags

diagnostics

cardiovascular system

microcontroller

sensors

hardware and software medical complex

remote monitoring

functioning algorithm

№ Author name position Name of organisation

1 Magrupov T.M. Professor TDTU

2 Abduxalikov S.P. Katta o'qituvchi TDTU

3 Radjabov A.G. Aspirant United Institute of Problem Informatics National Academy of Sciences of Belarus

№ Name of reference

1 1. Z.M. Yuldashev, E.A. Pustozerov, A.A. Anisimov. Mnogourovnevaya intellektualnaya sistema udalennogo monitoringa sostoyaniya zdorovya lyudey s chronicheskimi zabolevaniyami // Biotexnosfera. 2016. № 5 (47). S. 2-8.

2 2. Y. Talatov, S. Nematov, D. Akbarova and M. Magrupova, "Methodology for processing and analysis of diagnostic indicators electrocardiogram based on Labview," 2020 International Conference on Information Science and Communications Technologies (ICISCT), Tashkent, Uzbekistan, 2020, pp. 1-6, doi: 10.1109/ICISCT50599.2020.9351507.

3 3. R. Parikh, M.N. Touvelle, H. Wang, et al. Sleep telemedicine: patient satisfaction and treatment adherence. Telemed J E Health 2011;17(8):609–14

4 4. A. Kostin, Yu. Balashov. Proektirovanie ustroystv pervichnoy obrabotki elektrokardiosignala dlya distantsionnogo monitoringa, Moscow, 2004g. pp.78-82.

5 5. Y.T. Talatov, T.M. Magrupov, Sh.Q. Nematov, ECG processing and analysis technique based on neural network learning vector quantization. Chemical Technology, Control and Management: Vol. 2020 : Iss. 4 , Article 3. pp.15-22

6 6. Y. T. Talatov, Sh.K. Nematov A method for classifying ecg signals with different possible states on a multilayer perceptron. TECHNICAL SCIENCE AND INNOVATION 2020, №4(06), pp 71-79.

7 7. Ch.T. Nguen, Z.M. Yuldashev. Algorithm vyyavleniya fibrillyatsii predserdiy i formirovaniya trevojnogo signala v sisteme udalennogo monitoringa EKG // Meditsinskaya tekhnika. - 2018. - № 1 (307). - str. 37–40.

8 8. Lie, D.Y.C.; Ichapurapu, R.; Jain, S.; Lopez, J.; Banister, R.E.; Nguyen, T.Q.; Griswold, J. A 2.4GHz Non-Contact Biosensor System for Continuous Monitoring of Vital-Signs, Telemedicine Techniques and Applications; Graschew, G., Ed.; InTech: Rijeka, Croatia, 2011; ISBN 978-953-307-354-5. Available online: http://www.intechopen.com /books/ telemedicine-techniques-and-applications/a-2-4ghz-non-contactbiosensor-system-for-continuous-monitoring-of-vital-signs (accessed on 15 November 2017)

9 9. Hall, T.; Dominguez, G.; Tsay, J.; Boothby, A.; Lopez, J.; Nguyen, T.; Lie, D.Y.C. Robust Phased Array Non-Contact Vital Signs Monitoring in an Office Cubicle Setting. In Proceedings of the 1st International Conference on Intelligent Green Building and Smart Grid (IGBSG), Taipei, Taiwan, 23–25 April 2014; pp. 1–4

10 10. Herendeen N, Deshpande P. Telemedicine and the patient-centered medical home. Pediatr Ann 2014;43:e28–e32

11 11. Ch.T. Nguen, Z.M. Yuldashev. Successful monitoring system for the forecasting of arrhythmias // Biomeditsinskaya radioelektronika. - 2016. - № 8. - p. 26–30.

12 12. Nguyen Trong Tuyen, Zafar M. Yuldashev, Aleksei A. Anisimov. The atrial fibrillation episodes alarm algorithm for a remote monitoring system // Proceedings of the 2018 IEEE North West Russian Section Young Researchers in Electrical and Electronic Engineering Conference. – St. Petersburg. – January 29 - February 01 2018. – P. 1216-1219.

13 13. T.M. Magrupov, A.X. Xaydarov, S.P. Abdihalikov, Methodology of the organization of medical hardware-software complex for remote monitoring of biological objects. Scientific - technical and information-analytical journal TUIT 2018, №3 (47) pp.74-81.

14 14. S.P. Abdihalikov, “Hardware - software complex for remote monitoring of biological objects” // XXXII All-Russian scientific-technical conference “Biotechnical, medical and ecological systems, measuring devices and robotics” (Biomedsistemy - 2019) December 4-6 - Ryazan 2019 g. str.186-188.

15 15. S.P. Abdihalikov, T.M. Magrupov, A.X. Khaydarov “Pribor meditsinskoy telemetrii”. Svidetelstvo ob ofitsialnoy registratsii programmy dlya elektronno - vychislitelnyx mashin. № DGU 06920. Tashkent 18.09.2019.

16 16. S.P. Abdihalikov, T.M. Magrupov, Algoritmicheskoe i programmnoe obespechenie pribora meditsinskoy telemetrii // Sbornik tezisov, XIV mezhdunarodnogo kongressa «Kardiostim-2020», Saint-Petersburg, 27-29 fevralya 2020 g. str.156.

17 17. Dieter Coxts "Measurement, management and regulation with the help of AVR microcontrollers", Publishing House: MK-Press, ISBN 978-966-8806-15-5; 2015

18 18. Yuri Magda «Modern microcontrollers. Architecture, programming, device development», Publishing House: DMK Press, ISBN 978-5-94074-882-3; 2012

19 19. S. P. Abdihalikov and D. S. Ripka, "Hardware and Software Medical Complex Monitoring of Vital Signs of the Patient," 2020 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), St. Petersburg and Moscow, Russia, 2020, pp. 1456-1459, doi: 10.1109/EIConRus49466.2020.9039487.

20 20. T.M. Magrupov, S.P. Abdihalikov, Yo.T. Talatov, K.A. Kramar, “Methods of remote monitoring of physiological indicators of the cardiovascular system” // XIV International Scientific Conference “Physics and Radioelectronics in Medicine and Ecology - FREME’2020” - Vladimir-Suzdal, Russia, July 1-3, 2020, Report c.294-298

Waiting

№	Author name	position	Name of organisation
1	Magrupov T.M.	Professor	TDTU
2	Abduxalikov S.P.	Katta o'qituvchi	TDTU
3	Radjabov A.G.	Aspirant	United Institute of Problem Informatics National Academy of Sciences of Belarus

№	Name of reference
1	1. Z.M. Yuldashev, E.A. Pustozerov, A.A. Anisimov. Mnogourovnevaya intellektualnaya sistema udalennogo monitoringa sostoyaniya zdorovya lyudey s chronicheskimi zabolevaniyami // Biotexnosfera. 2016. № 5 (47). S. 2-8.
2	2. Y. Talatov, S. Nematov, D. Akbarova and M. Magrupova, "Methodology for processing and analysis of diagnostic indicators electrocardiogram based on Labview," 2020 International Conference on Information Science and Communications Technologies (ICISCT), Tashkent, Uzbekistan, 2020, pp. 1-6, doi: 10.1109/ICISCT50599.2020.9351507.
3	3. R. Parikh, M.N. Touvelle, H. Wang, et al. Sleep telemedicine: patient satisfaction and treatment adherence. Telemed J E Health 2011;17(8):609–14
4	4. A. Kostin, Yu. Balashov. Proektirovanie ustroystv pervichnoy obrabotki elektrokardiosignala dlya distantsionnogo monitoringa, Moscow, 2004g. pp.78-82.
5	5. Y.T. Talatov, T.M. Magrupov, Sh.Q. Nematov, ECG processing and analysis technique based on neural network learning vector quantization. Chemical Technology, Control and Management: Vol. 2020 : Iss. 4 , Article 3. pp.15-22
6	6. Y. T. Talatov, Sh.K. Nematov A method for classifying ecg signals with different possible states on a multilayer perceptron. TECHNICAL SCIENCE AND INNOVATION 2020, №4(06), pp 71-79.
7	7. Ch.T. Nguen, Z.M. Yuldashev. Algorithm vyyavleniya fibrillyatsii predserdiy i formirovaniya trevojnogo signala v sisteme udalennogo monitoringa EKG // Meditsinskaya tekhnika. - 2018. - № 1 (307). - str. 37–40.
8	8. Lie, D.Y.C.; Ichapurapu, R.; Jain, S.; Lopez, J.; Banister, R.E.; Nguyen, T.Q.; Griswold, J. A 2.4GHz Non-Contact Biosensor System for Continuous Monitoring of Vital-Signs, Telemedicine Techniques and Applications; Graschew, G., Ed.; InTech: Rijeka, Croatia, 2011; ISBN 978-953-307-354-5. Available online: http://www.intechopen.com /books/ telemedicine-techniques-and-applications/a-2-4ghz-non-contactbiosensor-system-for-continuous-monitoring-of-vital-signs (accessed on 15 November 2017)
9	9. Hall, T.; Dominguez, G.; Tsay, J.; Boothby, A.; Lopez, J.; Nguyen, T.; Lie, D.Y.C. Robust Phased Array Non-Contact Vital Signs Monitoring in an Office Cubicle Setting. In Proceedings of the 1st International Conference on Intelligent Green Building and Smart Grid (IGBSG), Taipei, Taiwan, 23–25 April 2014; pp. 1–4
10	10. Herendeen N, Deshpande P. Telemedicine and the patient-centered medical home. Pediatr Ann 2014;43:e28–e32
11	11. Ch.T. Nguen, Z.M. Yuldashev. Successful monitoring system for the forecasting of arrhythmias // Biomeditsinskaya radioelektronika. - 2016. - № 8. - p. 26–30.
12	12. Nguyen Trong Tuyen, Zafar M. Yuldashev, Aleksei A. Anisimov. The atrial fibrillation episodes alarm algorithm for a remote monitoring system // Proceedings of the 2018 IEEE North West Russian Section Young Researchers in Electrical and Electronic Engineering Conference. – St. Petersburg. – January 29 - February 01 2018. – P. 1216-1219.
13	13. T.M. Magrupov, A.X. Xaydarov, S.P. Abdihalikov, Methodology of the organization of medical hardware-software complex for remote monitoring of biological objects. Scientific - technical and information-analytical journal TUIT 2018, №3 (47) pp.74-81.
14	14. S.P. Abdihalikov, “Hardware - software complex for remote monitoring of biological objects” // XXXII All-Russian scientific-technical conference “Biotechnical, medical and ecological systems, measuring devices and robotics” (Biomedsistemy - 2019) December 4-6 - Ryazan 2019 g. str.186-188.
15	15. S.P. Abdihalikov, T.M. Magrupov, A.X. Khaydarov “Pribor meditsinskoy telemetrii”. Svidetelstvo ob ofitsialnoy registratsii programmy dlya elektronno - vychislitelnyx mashin. № DGU 06920. Tashkent 18.09.2019.
16	16. S.P. Abdihalikov, T.M. Magrupov, Algoritmicheskoe i programmnoe obespechenie pribora meditsinskoy telemetrii // Sbornik tezisov, XIV mezhdunarodnogo kongressa «Kardiostim-2020», Saint-Petersburg, 27-29 fevralya 2020 g. str.156.
17	17. Dieter Coxts "Measurement, management and regulation with the help of AVR microcontrollers", Publishing House: MK-Press, ISBN 978-966-8806-15-5; 2015
18	18. Yuri Magda «Modern microcontrollers. Architecture, programming, device development», Publishing House: DMK Press, ISBN 978-5-94074-882-3; 2012
19	19. S. P. Abdihalikov and D. S. Ripka, "Hardware and Software Medical Complex Monitoring of Vital Signs of the Patient," 2020 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), St. Petersburg and Moscow, Russia, 2020, pp. 1456-1459, doi: 10.1109/EIConRus49466.2020.9039487.
20	20. T.M. Magrupov, S.P. Abdihalikov, Yo.T. Talatov, K.A. Kramar, “Methods of remote monitoring of physiological indicators of the cardiovascular system” // XIV International Scientific Conference “Physics and Radioelectronics in Medicine and Ecology - FREME’2020” - Vladimir-Suzdal, Russia, July 1-3, 2020, Report c.294-298