Ambulatory blood pressure continuous monitoring and real-time analysis system

A dynamic blood pressure and real-time analysis technology, applied in the field of big data analysis, can solve the problems that the dynamic monitoring method cannot be popularized, needs to be connected to a special computer and software, and is complicated to use, so as to achieve automatic measurement, easy portability, and cost reduction. Effect

Inactive Publication Date: 2014-12-10
YUEXIANG QUSHI TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The size of the device is relatively large, for example, 120×80×32 mm. Usually, the user needs to carry it on the body with a special shoulder bag and needs to be connected to the blood pressure armband on the upper arm through a special lead. It is very inconvenient for the user to keep it on the body for 24 hours , and after the data is continuously collected and stored, it needs to be c

Method used

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  • Ambulatory blood pressure continuous monitoring and real-time analysis system
  • Ambulatory blood pressure continuous monitoring and real-time analysis system
  • Ambulatory blood pressure continuous monitoring and real-time analysis system

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Experimental program
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Effect test

Embodiment 1

[0039] Such as Figure 1-3 As shown, this embodiment provides a continuous monitoring and real-time analysis system for ambulatory blood pressure, which includes:

[0040] The wearable electronic device 1 is worn on the wrist of the human body, and is used to continuously collect human body dynamic blood pressure and human motion data, and then upload the human body dynamic blood pressure, human body motion data and corresponding measurement time to the Internet;

[0041] The cloud server terminal 2 is used to receive the dynamic blood pressure of the human body, the data of human body movement and the corresponding measurement time through the Internet, and analyze and process the dynamic blood pressure of the human body, the data of human body movement and the corresponding measurement time to obtain the analysis result; and

[0042] The mobile terminal 3 is used to receive and display the analysis result from the cloud server 2 through the Internet, and to control the weara...

Embodiment 2

[0072] Such as Figure 4 As shown, the difference between this embodiment and Embodiment 1 is that the mobile terminal 3 includes:

[0073] The parameter setting unit 31 is configured to receive the parameters of the specific subcategory of people that need to be concerned about set by the user, and then upload the parameters of the specific subcategory of people that need to be concerned about set by the user to the Internet.

[0074] Correspondingly, the cloud server 2 also includes: a parameter receiving unit 26, configured to receive the parameters of the specific subdivision group of people who need to be concerned about set by the user through the Internet, and according to the specific subdivision set by the user to be concerned about The parameters of the category group provide the typical periodic blood pressure change statistics of the specific segmented group of people who need to be cared about by the user, and display it to the user.

[0075] In different embodim...

Embodiment 3

[0081] Such as Figure 5 As shown, the difference between this embodiment and embodiment 2 is that the mobile terminal 3 also includes:

[0082] The time setting unit 32 is used to receive the start and end time of each continuous monitoring of ambulatory blood pressure set by the user, and the adjacent time intervals of each collection of human physiological parameters during the continuous monitoring of ambulatory blood pressure. The parameters set by the time setting unit 32 can be directly wirelessly synchronized with the wearable electronic device 1 through the mobile terminal 3, such as Image 6 As shown, or by first connecting to the cloud server 2, then wirelessly synchronizing with the wearable electronic device 1 through the cloud server 2, and updating the configuration file of the wearable electronic device 1, so as to control the wearable electronic device 1 according to the user's The parameters set by the time setting unit 32 work.

[0083] Users can freely se...

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PUM

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Abstract

The invention discloses an ambulatory blood pressure continuous monitoring and real-time analysis system. The ambulatory blood pressure continuous monitoring and real-time analysis system comprises wearable electronic equipment, a cloud server and a mobile terminal, wherein the wearable electronic equipment is used for continuously collecting the ambulatory blood pressure of the human body and motion data of the human body and uploading the ambulatory blood pressure of the human body, the motion data of the human body and corresponding measurement time to the Internet; the cloud server is used for receiving the ambulatory blood pressure of the human body, the motion data of the human body and the corresponding measurement time through the Internet and analyzing and processing the ambulatory blood pressure of the human body, the motion data of the human body and corresponding measurement time to obtain analysis results; the mobile terminal is used for receiving and displaying the analysis results from the cloud server through the Internet and controlling the wearable electronic equipment. By means of the ambulatory blood pressure continuous monitoring and real-time analysis method and system, automatic measurement, intelligent analysis and individuation management on the ambulatory blood pressure of the human body are achieved, use is simple, and device cost is low.

Description

technical field [0001] The invention belongs to the technical field of big data analysis, and in particular relates to a continuous monitoring and real-time analysis system for ambulatory blood pressure. Background technique [0002] At present, the common hypertension diagnosis mode in China is to determine the user's blood pressure level by means of a single blood pressure check in a hospital or clinic by means of a traditional auscultation or an arm-type sphygmomanometer. More and more evidence shows that ambulatory blood pressure and home blood pressure are better than blood pressure measured in hospitals or clinics, and can better reflect the user's real blood pressure. Existing ambulatory blood pressure monitoring is typically completed by renting a special hospital ambulatory blood pressure monitor. The size of the device is relatively large, for example, 120×80×32 mm. Usually, the user needs to carry it on the body with a special shoulder bag and needs to be connect...

Claims

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Application Information

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IPC IPC(8): A61B5/0205
Inventor 朱宇东
Owner YUEXIANG QUSHI TECH BEIJING
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