CN102697484A - Remote health monitoring system - Google Patents

Abstract

The invention discloses a remote health monitoring system, which relates to the fields of remote monitoring of human health, Internet of Things and information processing. The system includes a user terminal, a centralized data receiving unit, a database, and a monitoring terminal. The user terminal is used to collect human physiological parameters and environmental parameters. The user terminal is connected to the centralized data receiving unit through a wireless local area network, and the centralized data receiving unit is connected to the database through the Internet. A health file is established, and the monitoring terminal is used to give health consultation reports and diagnosis and treatment reports, which include online and mobile monitoring terminals, both of which are connected to the database through the Internet and mobile communication network respectively. The invention can monitor the user's health status in real time, and can give expert prescription according to the user's state.

Description

Remote Health Monitoring System

technical field

The invention relates to a remote human health monitoring system, which belongs to the field of remote monitoring of human health, and the field of Internet of Things technology and information technology processing.

Background technique

With the development and combination of modern computer technology and information technology, the Internet of Things technology has developed rapidly, and the huge economic and social benefits generated by the application of the Internet of Things have deepened people's understanding of the role of informatization.

There are some single-function physiological parameter monitoring instruments on the market, such as blood pressure/pulse meter, thermometer, blood oxygen detector, etc. These instruments have single functions, do not have data storage and communication transmission functions, and are large in size and inconvenient to carry. More can't realize 24 hours real-time monitoring. However, the large-scale physiological parameter monitoring equipment used in hospitals is expensive and complicated to operate, and its use is greatly affected by the region and environment, so it cannot be popularized and used.

Contents of the invention

Aiming at the defects in the prior art, the present invention proposes a remote human health monitoring system to realize functions such as remote medical diagnosis and remote health guidance.

The remote health monitoring system includes a user terminal, a centralized data receiving unit, a database and a monitoring terminal, wherein: the user terminal is wirelessly connected to the centralized data receiving unit, the centralized data receiving unit connects to the database through the Internet, and the database maintains a communication connection with the monitoring terminal.

The user terminal is wirelessly connected to the data centralized receiving unit through a wireless local area network, and the user terminal includes a physiological parameter sensor, an environmental information sensor, an image acquisition module, a positioning module, a display module, a wireless communication module and a microprocessor, wherein: the physiological parameter sensor , the environmental information sensor and the image acquisition module are all connected to the microprocessor through a signal conditioning circuit, the positioning module and the display module are also connected to the microprocessor, and the microprocessor is wirelessly connected to the data centralized receiving unit through a wireless communication module.

The monitoring terminal includes an online monitoring terminal and a mobile monitoring terminal, wherein: the online monitoring terminal is connected to the database through the Internet, and the mobile monitoring terminal is wirelessly connected to the database through the mobile communication network.

Technical effect:

1. A systematic health monitoring network has been formed by using the Internet of Things technology, and a new contact mode between medical experts and monitors has been established, which can realize remote medical diagnosis and remote health guidance, with high real-time performance and improved monitoring efficiency.

2. The health monitoring function is powerful. It can monitor multiple physiological parameters of the human body, and can establish personal health files to make human health data informatization. At the same time, it can also be applied to the monitoring of human exercise volume to realize the monitoring of athletes' training status.

3. The system structure is clear, highly implementable, and has high application value.

Description of drawings

Fig. 1 is a structural block diagram of the system of the present invention.

Fig. 2 is a structural block diagram of a user terminal.

Detailed ways

The present invention will be further described below.

The structure of the remote health monitoring system of the present invention is shown in Figure 1, including a user terminal, a centralized data receiving unit, a database, and a monitoring terminal, wherein: the user terminal is wirelessly connected to the centralized data receiving unit, and the centralized data receiving unit is connected to the database through the Internet, and at the same time The database maintains a communication connection with the monitoring terminal.

The structure of the user terminal is shown in Figure 2, including physiological parameter sensors, environmental information sensors, image acquisition modules, positioning modules, display modules, wireless communication modules and microprocessors, wherein: physiological parameter sensors, environmental information sensors and image acquisition modules Both are connected to the microprocessor through the signal conditioning circuit, the positioning module and the display module are also connected to the microprocessor, the microprocessor is wirelessly connected to the data centralized receiving unit through the wireless communication module, the entire user terminal is powered by batteries, and an alarm module can be added , set the data abnormality alarm parameter threshold, and at the same time, it can realize timely intervention for some specific diseases (such as sleep apnea syndrome). Physiological parameter sensors include pulse rate, respiration rate, blood pressure, body temperature, ECG, blood oxygen saturation and other sensors; environmental information sensors include temperature and humidity, sensitive gases, light intensity and other sensors; the display module adopts LCD liquid crystal display, available charts, Curves and numbers display the values of monitoring parameters and the corresponding change rules; the positioning module uses GPS, mobile phone positioning and other technologies to accurately locate the user physically for timely intervention; the image acquisition module uses a small CCD camera, It is used to capture image information and realize real-time transmission (≤10s); the wireless communication module is used to complete the wireless transmission of data. The communication protocol can adopt short-distance wireless technologies such as Zigbee and Bluetooth according to actual conditions, and realize it within a certain range through radio waves connect to the internet. The wireless communication modules in multiple user terminals form a wireless communication local area network in a self-organizing and multi-hop manner, and transmit the collected user data to the data centralized receiving unit in time. The user terminal realizes the non-invasive, non-invasive, real-time and continuous personal physiological data collection of the human body, and the monitor is identified by ID.

The centralized data receiving unit can be realized by a PC, which is set in the community health care station. Each centralized data receiving unit is responsible for summarizing the user terminal data in a local area network, so as to realize the monitoring data management in the area and transfer the data Upload to the remote database through the Internet, and establish personal health records at the same time. Medical experts working in community health stations can first diagnose and guide users' health status.

Monitoring terminals include online monitoring terminals and mobile monitoring terminals. The online monitoring terminal can be realized by PC, which is connected to the database through the Internet to realize online communication between users and medical experts; the mobile monitoring terminal is carried by medical experts, and it is wirelessly connected to the database through a mobile communication network (such as 3G network) to realize user Connect remotely and wirelessly with healthcare professionals. The monitoring terminal sends the expert's health consultation report, diagnosis and treatment report, guidance opinions, etc. to the corresponding user terminal through the database and the data centralized receiving unit for user reference.

The database integrates intelligent technologies such as cloud computing, data mining, and pattern recognition, and contains knowledge bases and inference engines to analyze, process, and process meaningful data from massive amounts of information, collect knowledge from medical experts, and express it systematically Or modularization, so that the computer can automatically perform monitoring data analysis, abnormal situation identification, network alarm and real-time remote diagnosis to meet the needs of different users.

Claims (4)

1. remote health monitoring system; It is characterized in that: comprise user terminal, data centralization receiving element, data base and monitoring terminal; Wherein: user terminal and the wireless connections of data centralization receiving element; The data centralization receiving element connects the data base through the Internet, and the data base keeps communication to be connected with monitoring terminal simultaneously.

2. remote health monitoring system according to claim 1 is characterized in that: said user terminal is through WLAN and the wireless connections of data centralization receiving element.

3. remote health monitoring system according to claim 1 and 2; It is characterized in that: said user terminal comprises physiological parameter sensors, environmental information pick off, image capture module, locating module, display module, wireless communication module and microprocessor; Wherein: physiological parameter sensors, environmental information pick off and image capture module all are connected with microprocessor through signal conditioning circuit; Locating module also is connected with microprocessor with display module, and microprocessor is through wireless communication module and the wireless connections of data centralization receiving element.

4. remote health monitoring system according to claim 1; It is characterized in that: said monitoring terminal comprises online monitoring terminal and mobile monitoring terminal; Wherein: online monitoring terminal is connected with the data base through the Internet, and the mobile monitoring terminal is through mobile radio communication and data base's wireless connections.

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