MOBILE BALLISTOCARDIOGRAPHY BASED ON ACCELEROMETERS USING ADDRESSABLE FIBER BRAGG STRUCTURES
- Авторлар: Silanteva A.A.1
-
Мекемелер:
- Kazan National Research Technical University named after A.N. Tupolev -KAI
- Шығарылым: Том 5, № 1 (2025)
- Беттер: 97-106
- Бөлім: Киберфизические системы
- URL: https://journal-vniispk.ru/2782-5507/article/view/305619
- EDN: https://elibrary.ru/AZMUPS
- ID: 305619
Дәйексөз келтіру
Толық мәтін
Аннотация
Noninvasive operational monitoring of an athlete's vital signs is a necessary requirement for the control and prevention of overloads during the training process for many reasons, one of the most important of which is to increase effectiveness of the training process. This article discusses the main methods of ballystocardiogram record based on the fiber-optic technologies, namely fiber Bragg gratings and addressable fiber Bragg structures, in the dynamic state of an athlete during the training process. Based on the analysis, it was concluded that it is necessary to build athlete-wearable devices operating on the principle of an accelerometer. The advantages of using addressable fiber Bragg structures in accelerometers are shown, which makes it possible to increase both the accuracy of the formation of the recorded ballystocardiogram as an oscillatory process and to characterize the process of their removal as addressable in the presence of several wearable sensors.
Авторлар туралы
A. Silanteva
Kazan National Research Technical University named after A.N. Tupolev -KAI
Хат алмасуға жауапты Автор.
Email: info@kazan.ru
10, st. K. Marx, Kazan, 420111, Russian Federation
Әдебиет тізімі
- Morra, S. Modification of the mechanical cardiac performance during end-expiratory voluntary apnea recorded with ballistocardiography and seismocardiography / S. Morra et al. // Physiological Measurement. – 2019 – V. 40. – № 10. – P. 105005.
- Cathelain, G. Dynamic Time Warping for Heartbeat Detection in Ballistocardiography / G. Cathelain, B. Rivet, S. Achard, J. Bergounioux, F. Jouen // 2019 Comput. Cardiol. Conf., 2019: pp. 1 –4.
- Paalasmaa, J. Adaptive heartbeat modeling for beat-to-beat heart rate measurement in ballistocardiograms / J. Paalasmaa, H. Toivonen, M. Partinen // IEEE J. Biomed. Heal. Informatics. 19 (2015) 1945 –1952.
- Sadek, I. Nonintrusive heart rate measurement using ballistocardiogram signals: A comparative study / I. Sadek, J. Biswas // Signal Image Video Process. –2018. –V. 13. –P.475 -482.
- Chen, Z. Simultaneous measurement of breathing rate and heart rate using a microbend multimode fiber optic sensor / Chen Zhihao, Lau Doreen, Teng Teo Ju et al. // Journal of Biomedical Optics. - 19(5), 057001.
- Baldwin, C. Review of Fiber Optic Accelerometers / C. Baldwin, J. Niemczuk, J. Kiddy, et al. // Conference Proceedings of the Society for Experimental Mechanics Series. «23rd Conference and Exposition on Structural Dynamics 2005, IMAC -XXII I 31 January 2005 - 3 February 2005 » –2005.
- Силантьева, А.А. Радиофотонная адресная многосенсорная система формирования баллистокардиограмм спортсмена в статичном положении / А. А. Силантьева, О. Г. Морозов, Р. А. Юсупов [и др.] // Электроника, фотоника и киберфизические системы. – 2024. – Т. 4, № 2. – С. 80 -97.
- Мисбахов, Р.Ш. Комбинированные двухкомпонентные многоадресные волоконные брэгговские структуры / Р.Ш. Мисбахов, В.И. Артемьев, О.Г. Морозов и др. // Вестник Поволжского государственного технологического университета. Серия: Радиотехнические и инфокоммуникационные системы. – 2024. – № 2 (62). – С. 57 -73.
- Мисбахов, Р.Ш. Поляризационный волоконно-оптический датчик контроля силы сжатия обмоток трансформатора с радиофотонным адресным опросом /Р.Ш. Мисбахов, Р.Ш. Мисбахов и др. // Вестник Поволжского государственного технологического университета. Серия: Радиотехнические и инфокоммуникационные системы. – 2022. – № 4 (56). – С. 38-50.
- Grillet, A. Optical fiber sensors embedded into medical textiles for healthcare monitoring / A. Grillet, D. Kinet, J. Witt et al. // IEEE Sensors Journal. –2008. –V. 8 -7.–P. 1215 -1222.
- Witt, J. Medical textiles with embedded fiber optic sensors for monitoring of respiratory movement/ J. Witt, F. Narbonneau, M. Schukar et al.// IEEE Sensors Journal. –2012. – V. 12. – № 1. – P. 246 -255.
- Tan, F. Contactless vital signs monitoring based on few-mode and multi-core fibers / F. Tan, W. Lyu, S. Chen, Z. Liu, and C. Yu // Opto-Electronic Advanced. – 2020. – V.3. – № 5. – P. 190034.
Қосымша файлдар
