Patent ID: 11896355
Assignee: TIANGONG UNIVERSITY
Field: Medical technology (Instruments)
Classification: CPC A | IPC A

Claim 0:
1. A blood pressure tracking and detection system, comprising:
a sphygmomanometer for applying a pressure to a detected part of a target user according to a pressure application instruction, and releasing the pressure on the detected part of the target user according to a pressure release instruction,
a signal obtaining module connected to the sphygmomanometer for obtaining a photoplethysmography (PPG) signal and a pressure signal of the detected part of the target user,
wherein the signal obtaining module comprises:
a photo sensor and a pressure sensor for obtaining the PPG signal and the pressure signal of the detected part of the target user and at least one signal processor for executing operations, wherein the at least one signal processor is configured to perform each of baseline drift removal, noise filtering, envelope detection, and peak-to-peak value detection via cubic spline Interpolation on the PPG signal to obtain preprocessed PPG signal; and
wherein the at least one signal processor is further configured to determine a template waveform of the PPG signal according to the preprocessed PPG signal, the at least one signal processor comprising a blood pressure tracking and detection module connected to the signal obtaining module,
wherein the blood pressure tracking and detection module comprises at least one tracking processor and a memory storing instructions that, when executed by the at least one tracking processor, cause the at least one tracking processor to execute operations comprising:
performing a pressure signal of the detected part of the target user corresponding to a maximum peak-to-peak difference of the preprocessed PPG signal according to the preprocessed PPG signal and the pressure signal, wherein the pressure signal of the detected part of the target user corresponding to the maximum peak-to-peak difference is the an initial pressure of the detected part of the target user, and an initial systolic pressure and an initial diastolic pressure of the detected part of the target user are further determined according to the initial pressure of the detected part of the target user and the pressure signal in the pressure release instruction, applying the initial pressure maintained at the detected part of the target user, and obtains obtaining the PPG signal and the pressure signal of the detected part of the target user maintained at a set pressure after the pressure release instruction ends,
determining the morphological features of the PPG signal according to the template waveform of the PPG signal, and wherein the morphological features comprise:
an integral area of a template PPG signal,
a rising edge parameter of the template PPG signal, and
a difference between waveform autocorrelation and cross-correlation of the template PPG signal;
further, slidingly comparing a quantitative difference of morphological features of a template waveform of a single-cycle PPG signal and morphological features of a template waveform of a PPG signal of a first cycle, and obtaining an updated pressure based on the quantitative difference, and obtaining a new blood pressure based on the updated pressure and a PPG signal maintained at the updated pressure.