A.A. Mikheev1, Yu.A. Chelebaeva2, S.V. Chelebaev3

1–3 FSBEI HE “Ryazan State Radio Engineering University named after V.F. Utkin” (Ryazan, Russia)

3 sergeychelr@yandex.ru

Today, there is an increasing need for mobile monitoring systems that detect heart rate abnormalities in citizens working or living in hard-to-reach areas. Such areas have difficulties with data transmission, so it is advisable to carry out the information processing process at the research site. At the same time, despite the limited hardware costs, it is necessary to ensure high reliability of monitoring results.

The purpose was to develop a structural diagram of the conversion and segmentation subsystem for mobile heart rate monitoring devices based on the decomposition of recurrent networks, determine the structures of neural networks included in the subsystem, train neural networks for conversion and segmentation, conduct software modeling of neural networks of the conversion and segmentation subsystem, implement neural networks of the conversion and segmentation subsystem on programmable logic integrated circuits (FPGA).

A structural diagram of the conversion and segmentation subsystem for mobile heart rate monitoring devices based on the decomposition of recurrent networks has been developed. Structures of neural networks included in the subsystem are determined. Neural networks of conversion and segmentation were trained. Software modeling of neural networks of the conversion and segmentation subsystem was carried out. The neural networks of the conversion and segmentation subsystem on FPGAs have been implemented.

Developed subsystem of conversion and segmentation can be used in implementation of mobile means of heart rate monitoring.

Mikheev A.A., Chelebaeva Yu.A., Chelebaev S.V. Development of a conversion and segmentation subsystem for mobile heart rate monitoring devices based on the decomposition of recurrent neural networks. Biomedicine Radioengineering. 2025. V. 28. № 4. Р. 93-101. DOI: https://doi.org/10.18127/j15604136-202504-11 (In Russian).

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