Human blood pressure analysis method based on electrocardiogram identification

Abstract

The invention relates to a human blood pressure analysis method based on electrocardiogram identification. The human blood pressure analysis method includes that a mobile wearable computing device stores standard electrocardio-signals of a testee, a blood pressure detector is adopted for sampling electrocardio-signals of the testee and transmits to the wearable computing device, and identification is carried out by means of matching of the electrocardio-signals; after identity information of the testee is confirmed, the blood pressure detector measures blood pressures under different body conditions and sends to the mobile wearable computing device for analyzing change conditions of the blood pressures under different body conditions, and the mobile wearable computing device sends the measured blood pressure data to a remote monitoring center in a medical office. The problem that a traditional blood pressure detector is complex in operation, low in efficiency and accuracy and prone to causing confusion of test data and identities of testees due to manual recording of the test data, test time and the identities of the testees.

Description

technical field [0001] The invention relates to the technical field of mobile wearable computing equipment, in particular to a human blood pressure analysis method based on electrocardiographic identification. Background technique [0002] Blood pressure monitors are mainly used to monitor patients' blood pressure and help doctors diagnose and treat diseases. The main shortcomings of traditional blood pressure monitoring equipment on the market are as follows: [0003] First: The existing blood pressure monitoring equipment on the market mainly tests the systolic blood pressure and diastolic blood pressure of the human body, and does not distinguish between the testers. Everyone can test. The advantage of this artificial detection method is that it is very simple, but the disadvantage is that it is impossible to identify the identity of the tester, which is easy to confuse, and it is necessary to manually record the test values ​​and group them together. [0004] Second: T...

AI Technical Summary

Problems solved by technology

The advantage of this artificial detection method is that it is very simple, but the disadvantage is that it is impossible to identify the identity of the tester, which is easy to confuse, and it is necessary to manually record the test values ​​and group them together

[0004] Second: Traditional blood pressure detection methods cannot automatically track changes in blood pressure values ​​of testers every day, every month, and every year

The disadvantage is that the operation process is cumbersome and cannot be automatically tracked

[0005] Third: Traditional blood pressure monitoring cannot be automatically associated with normal human activities, such as walking, sitting, and sleeping, for joint analysis

[0006] Fourth: From the perspective of safety, when the blood pressure value is too high or too low to be dangerous, the current existing blood pressure monitoring equipment lacks the alarm function. When the tester is not in the hospital, there will be great danger to his life

However, the ambulatory blood pressure monitor cannot analyze the state of the human body in real time, and cannot record blood pressure values ​​according to different human states. The values ​​are different. If the existing blood pressure monitor is used, the monitoring results will not be accurate enough, which will affect the diagnosis of the disease and may cause misdiagnosis. Moreover, the existing blood pressure monitor cannot distinguish the identity of the user. The name of the patient is likely to cause data confusion and affect the diagnosis result

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