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This research is funded by the Science Committee of the Ministry of Science and Higher Education of the Republic of Kazakhstan (grant No. AR19677288).
Project Manager: Gerasimova Yu.V., PhD in Engineering.
Project Performers: Gerasimova Yu.V., PhD in Engineering, Ivel V.P., DSc in Engineering, Moldakhmetov S.S., PhD, Petrov P.A., PhD.
Implementation Period: 2023 – 2025.
Project Goal: Development of a hardware-software Wi-Fi interface as a basis for building autonomous wireless biomedical signal transmission systems with minimal power consumption and increased noise immunity.
Expected Results: Refinement of the Wi-Fi biomedical signal transmission methodology using wavelet technologies, software-based power-saving mode, and conducting a series of experiments using an international computer database of biomedical signals. A package of recommendations will be presented for applying the obtained results in building wireless transmission systems for multidimensional biomedical signals.
Project Description: Development of a hardware-software structure for an autonomous biomedical signal reception-transmission system in the Wi-Fi standard, ensuring the possibility of 24-hour monitoring of the physiological systems of the human body and its individual organs. Development of a biomedical signal transmission algorithm for microprocessor-based dual-core transceivers using wavelet technologies.
Creation of a prototype of a multi-channel dual-processor system for monitoring human biomedical signals, including ECG and EEG electrodes, biomedical integrated amplifier-filter modules, an 18650 standard Li-ion battery, Wi-Fi transceivers, an interface board for converting captured biomedical information into the USB standard, and a personal computer. Compilation of recommendations and development of a methodology for applying the principles of building a hardware-software Wi-Fi interface for biomedical signal reception-transmission in sports medicine organizations and astronaut training centers.