CN114903449A

CN114903449A - Remote health monitoring system

Info

Publication number: CN114903449A
Application number: CN202210531273.3A
Authority: CN
Inventors: 邓皓; 陈建华; 付敏; 陈媛媛
Original assignee: Chongqing Industry Polytechnic College
Current assignee: Chongqing Industry Polytechnic College
Priority date: 2022-05-16
Filing date: 2022-05-16
Publication date: 2022-08-16

Abstract

The invention relates to the technical field of health and communication, in particular to a remote health monitoring system which comprises an acquisition end, a transmission end and a processing end, wherein physical sign parameters of a human body are acquired in real time all day long through the acquisition end, the transmission end receives the physical sign parameters, preprocesses the physical sign parameters and uploads the physical sign parameters to the processing end, the processing end further fuses, analyzes and predicts the physical sign parameters to obtain processed data, the processed data is uploaded to a guardian through a wide area network, the guardian can acquire the physical sign parameters of the monitored person at any time, and the patient can see a doctor in time under abnormal conditions, so that the remote monitoring and real-time requirements of people can be met.

Description

Remote health monitoring system

Technical Field

The invention relates to the technical field of health and communication, in particular to a remote health monitoring system.

Background

With the progress of society and the continuous development of science and technology, the attention degree of people to self health is continuously improved, and under the normal condition, people go to a hospital to perform physical examination on time or when feeling uncomfortable, because the physical examination in the hospital needs a lot of time, and the people cannot go to the hospital every day to perform physical examination, and then cannot monitor the health condition of people all the time.

At present, the health examination device (such as a wearable health examination device) or the portable device (such as a mobile terminal) can be independently used for collecting human body physiological parameter information (such as human body physiological parameter information including body temperature, heart rate, cardiovascular, pulse, blood oxygen, blood sugar, blood pressure and the like) of a human body, and the human body physiological parameter information is analyzed and displayed on the mobile phone, so that people can monitor body changes at any time, and can timely seek medical advice after abnormality occurs.

However, in many scenarios, it is limited that a single device independently detects the health status, for example, a child purchases a wearable health check device for an old person, and it is desirable to know the health status of the old person in real time through the human physiological parameters acquired by the wearable health check device, but the detection result cannot be remotely transmitted to the child, and cannot meet the requirements of remote monitoring and real-time performance of people.

Disclosure of Invention

The invention aims to provide a remote health monitoring system, which solves the problems that in many scenes, the independent detection of health state by a single device is limited, for example, a child purchases a wearable health check device for an old person, and the health state of the old person is expected to be known in real time through human physiological parameters acquired by the wearable health check device, but the detection result cannot be remotely transmitted to the child, so that the remote monitoring and real-time requirements of people cannot be met.

In order to achieve the above purpose, the invention provides a remote health monitoring system, which comprises an acquisition end, a transmission end and a processing end;

the acquisition end is connected with the transmission end, and the processing end is connected with the transmission end;

the acquisition end is used for acquiring physical sign parameters of a human body in real time in all weather, storing the physical sign parameters and uploading the physical sign parameters to the transmission end through wireless communication;

the transmission terminal is used for receiving the physical sign parameters, performing data preprocessing on the physical sign parameters, and uploading preprocessed data to the processing terminal;

and the processing end is used for fusing, analyzing and predicting the preprocessed data to obtain the processed data and transmitting the processed data.

The remote health monitoring system also comprises a monitoring end, wherein the monitoring end is connected with the processing end;

and the monitoring terminal is used for receiving and storing the processed data and can autonomously request the processing terminal to acquire the related physical sign parameter information.

The acquisition end comprises a sensing module and a storage module, the sensing module is connected with the storage module, and the storage module is connected with the transmission end;

the sensing module is composed of wearable medical sensor equipment, collects basic physiological signs of a human body in real time all day long, and integrally uploads collected physical sign parameters to the storage module;

the storage module is used for storing the physical sign parameters and periodically uploading the physical sign parameters to the transmission terminal in real time through wireless communication.

The transmission end comprises a preprocessing module and a sending module, the preprocessing module is connected with the storage module, and the sending module is respectively connected with the preprocessing module and the processing end;

the preprocessing module is used for receiving the sign parameters, classifying, integrating and recording the sign parameters, acquiring preprocessed data and uploading the preprocessed data to the sending module;

and the sending module is used for receiving and storing the preprocessed data and uploading the preprocessed data to the processing end.

The processing terminal comprises an analysis module and a prediction module, the analysis module is respectively connected with the sending module and the monitoring terminal, and the prediction module is respectively connected with the analysis module and the monitoring terminal;

the analysis module is used for receiving the preprocessed data, performing fusion analysis on the preprocessed data to obtain analyzed data, and uploading the analyzed data to the prediction module and the monitoring end;

the prediction module is used for receiving the analyzed data, predicting the analyzed data based on a medical data knowledge base to obtain a prediction result, and uploading the prediction result to the monitoring end.

The processing end further comprises an alarm module, and the alarm module is respectively connected with the analysis module and the monitoring end;

the alarm module is used for acquiring the analyzed data and monitoring whether abnormal data exists in the analyzed data, and if the abnormal data exists, the alarm module starts an alarm function and simultaneously sends the abnormal data to the monitoring end in a short message or telephone form.

The monitoring terminal comprises a recording module and an instruction module, the recording module is connected with the analysis module, and the instruction module is connected with the analysis module;

the recording module is used for receiving and storing the analyzed data;

the instruction module is used for acquiring a user instruction, uploading the user instruction to the analysis module and extracting data required by a user.

According to the remote health monitoring system, the physical sign parameters of a human body are acquired in real time all day long through the acquisition end, the transmission end receives the physical sign parameters, preprocesses the physical sign parameters and uploads the physical sign parameters to the processing end, the processing end performs further fusion, analysis and prediction on the physical sign parameters to obtain processed data, the processed data is uploaded to a guardian through a wide area network, the guardian can acquire the physical sign parameters of the person under guardianship constantly, the person can see a doctor in time under abnormal conditions, and the remote monitoring and real-time requirements of people can be met.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic diagram of the overall structure of a remote health monitoring system according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a transmitting end according to a second embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a processing end according to a second embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an alarm module according to a second embodiment of the present invention.

Fig. 5 is a schematic diagram of the overall structure of a remote health monitoring system according to a third embodiment of the present invention.

In the figure: 100-acquisition end, 200-transmission end, 300-processing end, 400-monitoring end, 101-sensing module, 102-storage module, 201-preprocessing module, 202-sending module, 301-analysis module, 302-prediction module, 303-alarm module, 304-monitoring unit, 305-notification unit, 401-recording module, 402-instruction module and 403-predetermined module.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, and the embodiments described below with reference to the accompanying drawings are exemplary and intended to be illustrative of the present invention and should not be construed as limiting the present invention.

The first embodiment of the present application is:

referring to fig. 1, fig. 1 is a schematic diagram illustrating an overall structure of a remote health monitoring system according to a first embodiment of the present invention. The invention provides a remote health monitoring system which comprises the following components: the system comprises an acquisition end 100, a transmission end 200, a processing end 300 and a monitoring end 400, wherein the acquisition end 100 comprises a sensing module 101 and a storage module 102.

For the present embodiment, the collecting terminal 100 collects physical parameters of a human body, and provides data support for health monitoring.

The acquisition terminal 100 is connected with the transmission terminal 200, and the processing terminal 300 is connected with the transmission terminal 200;

the acquisition terminal 100 is used for acquiring physical sign parameters of a human body in real time all day long, storing the physical sign parameters, and uploading the physical sign parameters to the transmission terminal 200 through wireless communication;

the transmission terminal 200 is configured to receive the physical sign parameters, perform data preprocessing on the physical sign parameters, and upload preprocessed data to the processing terminal 300;

the processing terminal 300 is configured to perform fusion, analysis, and prediction on the preprocessed data, obtain processed data, and transmit the processed data.

The monitoring terminal 400 is connected with the processing terminal 300;

the monitoring terminal 400 is configured to receive and store the processed data, and can autonomously request the processing terminal 300 to obtain information on related physical sign parameters.

The collecting terminal 100 collects physical sign parameters of a human body in real time in all weather, stores the collected physical sign parameters and uploads the collected physical sign parameters through wireless communication, the transmission terminal 200 is a personal PC, a PDA, a smart phone and the like, has the characteristics of convenience, easiness in use, multiple functions, convenience in networking and the like, receives the physical sign parameters, preprocesses the physical sign parameters, uploads the preprocessed data to the processing terminal 300, the processing terminal 300 integrates, analyzes and predicts the preprocessed data to generate processed data, transmits the processed data to the monitoring terminal 400 through a wide area network, the monitoring terminal 400 is a personal PC, a PDA, a smart phone and the like of a guardian, receives the processed data, enables the guardian to obtain physical sign data of the guardian in real time, and can autonomously request the processing terminal 300 to obtain related physical sign parameter information, the system can take protective measures for the person under guardianship under abnormal physical signs, and meets the requirements of remote monitoring and real-time performance of people.

Secondly, the sensing module 101 is connected with the storage module 102, and the storage module 102 is connected with the transmission terminal 200;

the sensing module 101 is composed of wearable medical sensor equipment, collects basic physiological signs of a human body in real time all day long, and integrally uploads collected physical sign parameters to the storage module 102;

the storage module 102 is configured to store the physical sign parameters, and periodically upload the physical sign parameters to the transmission terminal 200 in real time through wireless communication.

The sensing module 101 is composed of wearable medical sensor equipment, for example, a wrist type electrocardiograph recorder can collect, record, store and read electrocardiographic signals, an electrocardiograph watch can continuously record single-channel electrocardiographic signals of a human body and detect heart rate for medical staff to refer, the wearable electrocardiograph sensor is used in cooperation with a wearable dynamic electrocardiograph recorder (TER030 type) to non-invasively measure electrocardiographic signals of the human body, an intelligent arm type electronic sphygmomanometer adopts a boosting measurement method to measure blood pressure, a wearable blood oxygen monitor is used for continuously measuring the blood oxygen saturation and the heart rate and storing data, a continuous glucose monitoring system is suitable for continuous or periodic monitoring of glucose level in subcutaneous tissue fluid of a diabetic patient, and the like equipment is used for all-weather real-time collecting heart rate, blood pressure, blood sugar and blood oxygen physical sign parameters of a person under guardianship and integrally uploading the collected physical sign parameters to the storage module 102, the storage module 102 stores the physical sign parameters and periodically uploads the physical sign parameters to the transmission terminal 200 in real time through wireless communication.

When the remote health monitoring system of this embodiment is used, firstly, the sensing module 101 is utilized to collect physiological basic physical parameters of a person under guardianship in real time all day long, and then the physiological basic physical parameters are uploaded to the storage module 102 for memorability storage, the storage module 102 periodically uploads the physical parameters to the transmission terminal 200 in real time through wireless communication, the transmission terminal 200 preprocesses the physical parameters and uploads the preprocessed data to the processing terminal 300, the processing terminal 300 performs fusion, analysis and prediction on the preprocessed data to obtain processed data, and then the processed data is uploaded to the monitoring terminal 400 through a wide area network, the monitoring terminal 400 is held by a guardian, so that the guardian can obtain the physical parameters of the person under guardianship and the processed data result in real time, discover the abnormality of the body of the person under guardianship in real time and seek medical advice in time, meanwhile, the guardian can also autonomously acquire required related physical sign parameter information from the processing end 300 through the monitoring end 400, focus on one or more physical sign parameters, know the health condition of the person under guardianship in real time, and meet the requirements of remote monitoring and real-time performance of people.

The second embodiment of the present application is:

please refer to fig. 2 to fig. 4 based on the first embodiment, wherein fig. 2 is a schematic structural diagram of a transmitting terminal 200 according to a second embodiment of the present invention. Fig. 3 is a schematic structural diagram of a processing terminal 300 according to a second embodiment of the invention. Fig. 4 is a schematic structural diagram of an alarm module 303 according to a second embodiment of the present invention. In the remote health monitoring system of this embodiment, the transmission end 200 includes a preprocessing module 201 and a sending module 202, the processing end 300 includes an analyzing module 301, a predicting module 302 and an alarming module 303, and the alarming module 303 includes a monitoring unit 304 and a notifying unit 305.

For the specific embodiment, the transmission terminal 200 obtains the physical sign parameters, preprocesses the physical sign parameters, and uploads the physical sign parameters to the processing terminal 300, and the processing terminal 300 further processes the preprocessed data to obtain a result.

The preprocessing module 201 is connected to the storage module 102, and the sending module 202 is connected to the preprocessing module 201 and the processing terminal 300 respectively;

the preprocessing module 201 is configured to receive the physical sign parameters, classify, integrate, and record the physical sign parameters, obtain preprocessed data, and upload the preprocessed data to the sending module 202;

the sending module 202 is configured to receive and store the preprocessed data, and upload the preprocessed data to the processing terminal 300.

The preprocessing module 201 receives the sign parameters uploaded by the storage module 102, classifies the sign parameters, integrates and records the sign parameters according to time changes to obtain a preprocessed data change walking diagram, facilitates a user to check body changes independently, uploads the preprocessed data to the sending module 202, and the sending module 202 stores and uploads the preprocessed data to the processing terminal 300 for further processing.

Secondly, the analysis module 301 is connected to the sending module 202 and the monitoring terminal 400, respectively, and the prediction module 302 is connected to the analysis module 301 and the monitoring terminal 400, respectively;

the analysis module 301 is configured to receive the preprocessed data, perform fusion analysis on the preprocessed data to obtain analyzed data, and upload the analyzed data to the prediction module 302 and the monitoring end 400;

the prediction module 302 is configured to receive the analyzed data, predict the analyzed data based on a medical data knowledge base, obtain a prediction result, and upload the prediction result to the monitoring terminal 400.

The alarm module 303 is respectively connected with the analysis module 301 and the monitoring terminal 400;

the alarm module 303 is configured to acquire the analyzed data, monitor whether there is abnormal data in the analyzed data, and if there is abnormal data, the alarm module 303 starts an alarm function and sends the abnormal data to the monitoring terminal 400 in a form of a short message or a telephone.

The analysis module 301 receives the preprocessed data, performs fusion analysis on the preprocessed data, compares the acquired physical sign parameters with normal physical sign parameters in the medical system, analyzes a comparison result, uploads the analyzed data to the prediction module 302 and the monitoring terminal 400 for a guardian to know, the prediction module 302 receives the analyzed data, predicts the analyzed data based on a medical data knowledge base, predicts possible disease risks, and uploads the prediction result to the monitoring terminal 400 for the guardian to know, so that the guardian can improve the visibility and take the monitored person to a hospital for further examination, the alarm module 303 receives the analyzed data and monitors whether abnormal data exist in the analyzed data, such as low heart rate, low body temperature and the like, and whether important physical sign data of personal safety have low threshold values, if abnormal data exist, an alarm function is started to warn the person under guardianship to call for help, and meanwhile, the abnormal data are uploaded to the monitoring terminal 400 in a short message or telephone form so that the person under guardianship can know the abnormal data in time to take precautionary measures.

Meanwhile, the monitoring unit 304 is connected to the analysis module 301, and the notification unit 305 is connected to the monitoring unit 304 and the monitoring terminal 400, respectively;

the monitoring unit 304 is configured to receive the analyzed data, monitor the analyzed data, start an alarm function if abnormal data exists, and upload an abnormal condition to the notification unit 305;

the notification unit 305 is configured to receive the abnormal condition, edit the abnormal condition into a short message or a voice, and send the short message or the voice to the monitoring terminal 400 in the form of a short message and a telephone.

The monitoring unit 304 receives the analyzed data, monitors whether the analyzed data has abnormal data, and uploads the abnormal condition to the notification unit 305, and the notification unit 305 conveniently forms a short message and voice according to the abnormal condition, and sends the short message and voice to the monitoring terminal 400 in a form of a short message and a telephone for a guardian to know in time.

When the remote health monitoring system of this embodiment is used, the transmission end 200 acquires the physical sign parameters, classifies the physical sign parameters, integrates and records the physical sign parameters according to time variation, acquires a preprocessed physical sign parameter variation walking pattern, transmits the walking pattern to the transmission module 202, the transmission module 202 stores the walking pattern and uploads the walking pattern to the analysis module 301, the analysis module 301 performs fusion analysis on the preprocessed data, compares the preprocessed data with normal physical sign parameters in the medical system, analyzes a comparison result, uploads the analyzed data to the prediction module 302 and the monitoring end 400 for the monitor to know, the prediction module 302 receives the analyzed data, predicts the analyzed data based on the medical knowledge base, predicts possible disease risks, and uploads the data to the monitoring end 400 for the monitor to know, the monitoring unit 304 receives the analyzed data, monitors whether important physical signs influencing human survival, such as heart rate and temperature, in physical sign parameters are in abnormal ultralow thresholds, judges whether human life safety exists, starts an alarm function if abnormal data exist, sends out a buzzer to warn a person under guardianship to call for help, and simultaneously uploads the abnormal condition to the notification unit 305, the notification unit 305 edits short messages or voices according to the abnormal condition, and then sends the short messages or voices to the monitoring terminal 400 through a wide area network in a form of short messages and telephones for the guardian to know, so that rescue measures can be taken for the person under guardianship in time, the remote monitoring and real-time requirements of people are met, and the life safety of the person under guardianship is guaranteed.

The third embodiment of the present application is:

referring to fig. 5 on the basis of the second embodiment, fig. 5 is a schematic diagram of an overall structure of a remote health monitoring system according to a third embodiment of the present invention. In the remote healthcare system of this embodiment, the monitoring end 400 includes a recording module 401, an instruction module 402, and a predetermined module 403.

For the present embodiment, the monitoring terminal 400 is a personal PC, a PDA, a smart phone, etc. of a guardian.

The recording module 401 is connected to the analysis module 301, and the instruction module 402 is connected to the analysis module 301;

the recording module 401 is configured to receive and store the analyzed data;

the instruction module 402 is configured to obtain a user instruction, upload the user instruction to the analysis module 301, and extract data required by the user.

The recording module 401 receives and stores the analyzed data for the guardian to view, and the instruction module 402 acquires a user instruction and uploads the user instruction to the analysis module 301, so that the guardian can acquire the physical sign parameters of the person under guardianship at any time.

Secondly, the predetermined module 403 is used for acquiring data required by the user at regular time.

The predetermined module 403 is set by the guardian, and extracts the physical sign parameters of the monitored person from the analysis module 301 at regular time for the guardian to pay attention to.

When the remote health monitoring system of the embodiment is used, a guardian looks up physical sign parameters of a person under guardianship through the monitoring unit 304, knows the physical condition of the person under guardianship, can acquire the physical sign parameters of the person under guardianship to be known at any time through the instruction module 402, and simultaneously timely knows a certain item or a certain physical sign parameter of the person under guardianship through the predetermined module 403, so that the physical condition of the person under guardianship can be known, children and women can conveniently know the body of the old, the old can be timely subjected to medical assistance measures, and the remote monitoring and real-time requirements of people are met.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims

1. A remote health monitoring system comprises an acquisition end and is characterized in that,

the system also comprises a transmission end and a processing end;

2. The remote healthcare system of claim 1,

the remote health monitoring system also comprises a monitoring end, and the monitoring end is connected with the processing end;

3. The remote healthcare system of claim 1,

4. The remote healthcare system of claim 3,

the preprocessing module is used for receiving the physical sign parameters, classifying, integrating and recording the physical sign parameters to obtain preprocessed data, and uploading the preprocessed data to the sending module;

5. The remote healthcare system of claim 4,

6. The remote healthcare system of claim 5,

the processing end also comprises an alarm module which is respectively connected with the analysis module and the monitoring end;

7. The remote healthcare system of claim 6,

the monitoring end comprises a recording module and an instruction module, the recording module is connected with the analysis module, and the instruction module is connected with the analysis module;

the recording module is used for receiving and storing the analyzed data;