WO2018032819A1

WO2018032819A1 - Health monitoring system and method based on environmental perception

Info

Publication number: WO2018032819A1
Application number: PCT/CN2017/084226
Authority: WO
Inventors: 张贯京; 高伟明
Original assignee: 深圳市前海安测信息技术有限公司
Priority date: 2016-08-19
Filing date: 2017-05-12
Publication date: 2018-02-22
Also published as: CN106308781A

Abstract

A health monitoring system (10) and method based on environmental perception, applied to a mobile medical terminal (1). The health monitoring method based on environmental perception comprises: obtaining vital sign data of a user by means of a sign monitor (11) (S21); inputting fingerprint information of the user by means of a fingerprint identifier (12) (S22); generating a two-dimensional array character code of the user according to fingerprint information and the vital sign data of the user and a preset encoding rule (S23); matching history health information of the user from a medical information database (2) according to the two-dimensional array character code of the user (S24); receiving the history health information of the user from the medical information database (2) through a communication port (13) (S25); monitoring, by means of an environment sensor (14), environmental scene information of an external environment in which the user is currently located (S26); and generating a health assessment report of the user according to the vital sign data, the history health information and the environmental scene information of the user (S27). In the health monitoring system (10) and method based on environmental perception, vital sign data, history health information and current environmental scene information can be organically combined, so that a doctor can comprehensively and scientifically evaluate and monitor the health state of a user.

Description

Environment-aware health monitoring system and method

[0001] The present invention relates to the field of medical health monitoring, and in particular, to an environment-aware health monitoring system and method.

Background technique

[0002] In recent years, with the improvement of people's living standards, personal health problems have received more and more attention. In addition to regular medical examinations, more and more monitoring equipments are emerging for personal medical health measures. For example, a portable monitor monitors personal physiological parameters such as blood pressure, blood oxygen, electrocardiogram, and body temperature through a sensor-based parameter acquisition device that is carried around to protect health. In addition, the emergence of monitoring systems based on sensors, wireless transmission, and back-end management systems has brought new tools for remote monitoring and tracking of users' health. However, with the continuous development of computer science and communication technology, the degree of mobile intelligence is getting higher and higher, and environmental awareness technology is gradually introduced to all walks of life. The environmental perception is simply through environmental sensors and their related The technology enables computer devices to perceive current environmental conditions. If you combine environmental awareness with health management, you can check for health risk factors by providing users with current status information and provide users with practical health advice. At present, the traditional personal health management system generally has the following problems: Isolated from the physical characteristics analysis, neglecting environmental information, and thus unable to comprehensively and scientifically monitor and identify health risk factors, unable to provide practical and targeted health Management services.

technical problem

[0003] The main objective of the present invention is to provide an environment-aware health monitoring system and method, which aims to solve the problem that the existing health management system cannot combine the user's vital sign data, historical health information and current environmental situation information. problem.

Problem solution

Technical solution

[0004] In order to achieve the above object, the present invention provides an environment-aware health monitoring system, which is applied to a mobile medical terminal, and the mobile medical terminal is connected to a medical information database through a communication network, and the ring-based Context-aware health monitoring systems include:

[0005] a vital sign data monitoring module, configured to obtain vital signs data of the user by using a vital sign monitor of the mobile medical terminal;

[0006] a character code generating module, configured to input a fingerprint information of a user by using a fingerprint identifier of the mobile medical terminal, and generate a two-dimensional array character code of the user according to a preset encoding rule according to the fingerprint information and the vital sign data of the user;

[0007] a health information obtaining module, configured to match a user's historical health information from the medical information database according to a user's two-dimensional array character code, and receive a user from the medical information database through a communication port of the mobile medical terminal Historical health information;

[0008] an environment situation monitoring module, configured to monitor, by using an environmental sensor of the mobile medical terminal, environmental situation information of an external environment in which the user is currently located;

[0009] A health assessment module, configured to generate a health assessment report of the user according to the vital sign data, historical health information, and environmental situation information of the user.

[0010] Preferably, the vital sign data monitoring module is specifically configured to acquire a blood pressure value of the user by using a blood pressure sensor of the vital sign monitor, obtain a pulse value of the user by using a pulse sensor of the vital sign monitor, and perform an electrocardiographic sensor of the physical sign monitor. Obtain the user's ECG parameters, obtain the user's blood oxygen value through the blood oxygen sensor of the vital sign monitor, obtain the user's respiratory frequency through the vitality monitor's respiratory sensor, and obtain the user's body temperature value through the body temperature sensor of the vital sign monitor.

[0011] Preferably, the environmental scenario monitoring module is specifically configured to monitor an external ambient temperature by using a temperature sensor.

The external atmospheric pressure is monitored by an atmospheric pressure sensor, the external air humidity is monitored by a humidity sensor, and the external air oxygen content is monitored by an oxygen sensor.

[0012] Preferably, the encoding rule is: encoding the vital sign data of the user into the two-dimensional array character code by using multiple encoded characters, and storing the fingerprint information of the user in the medical file in the two-dimensional array character code. The index number of the historical health information of the user in the information base is encoded, wherein the coded characters are GB2312 GB code, GBK GB code, GB 12380 GB code, ASCII code, numbers and English letters

One or more combinations of Chinese characters, half-width characters, and full-width characters.

[0013] Preferably, the health assessment module is further configured to display the user's health assessment report on the display of the mobile medical terminal. [0014] The present invention also provides an environment-aware health monitoring method, which is applied to a mobile medical terminal, and the mobile medical terminal is connected to a medical information database through a communication network, and the method includes the following steps:

[0015] obtaining vital signs data of the user by using a vital sign monitor of the mobile medical terminal;

[0016] entering fingerprint information of the user by using a fingerprint identifier of the mobile medical terminal;

[0017] generating a user's two-dimensional array character code according to a preset encoding rule according to the fingerprint information and the vital sign data of the user;

[0018] matching the user's historical health information from the medical information database according to the user's two-dimensional array character code;

[0019] receiving historical health information of the user from the medical information database through a communication port of the mobile medical terminal;

[0020] monitoring environmental context information of the external environment in which the user is currently located by the environmental sensor of the mobile medical terminal; [0021] generating a health assessment report of the user according to the vital sign data, historical health information, and environmental situation information of the user.

[0022] Preferably, the step of acquiring the vital sign data of the user by using the vital sign monitor of the mobile medical terminal comprises the following steps: acquiring the blood pressure value of the user by the blood pressure sensor of the vital sign monitor, and acquiring the pulse sensor of the vital sign monitor The user's pulse value, the user's ECG parameters are obtained by the ECG sensor of the vital sign monitor, the blood oxygen value of the user is obtained by the blood oxygen sensor of the vital sign monitor, the respiratory frequency of the user is obtained by the respiratory sensor of the vital sign monitor, and the The body temperature sensor of the vital sign monitor obtains the user's body temperature value.

[0023] Preferably, the step of monitoring the environmental situation information of the external environment in which the user is currently located by the environmental sensor of the mobile medical terminal comprises the following steps: monitoring the external ambient temperature through the temperature sensor, and monitoring the external atmospheric pressure through the atmospheric pressure sensor, The humidity sensor monitors the outside air humidity and monitors the oxygen content of the outside air through the oxygen sensor.

[0024] Preferably, the encoding rule is: encoding the vital sign data of the user into the two-dimensional array character code by using multiple encoded characters, and storing the fingerprint information of the user in the medical file in the two-dimensional array character code. The index number of the historical health information of the user in the information base is encoded, wherein the coded characters are GB2312 GB code, GBK GB code, GB 12380 GB code, ASCII code, numbers and English letters, Chinese characters, half-width characters, full-width One or more combinations of characters.

[0025] Preferably, the environment-aware health monitoring method further comprises the step of: displaying the user's health assessment report on a display of the mobile medical terminal. Advantageous effects of the invention

Beneficial effect

Compared with the prior art, the environment-aware health monitoring system and method of the present invention can accurately monitor user vital sign data, historical health information, and environmental situation information, and data the current vital signs of the user, The historical health information is combined with the environmental context information of the current environment to generate a user's health assessment report for the doctor to analyze and evaluate the user's health. Therefore, doctors can assess the health of users scientifically and objectively, and give scientific health management advice, and then comprehensively scientifically monitor health risk factors.

Brief description of the drawing

DRAWINGS

1 is a schematic diagram of an application environment of a preferred embodiment of an environment-aware health monitoring system according to the present invention;

2 is a flow chart of a preferred embodiment of the environment-aware health monitoring method of the present invention.

[0029] The objects, features, and advantages of the present invention will be further described in conjunction with the embodiments.

BEST MODE FOR CARRYING OUT THE INVENTION

The specific embodiments, structures, features and utilities of the present invention are described in detail below with reference to the drawings and the preferred embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0031] Referring to FIG. 1, FIG. 1 is a schematic diagram of an operating environment of a preferred embodiment of the environment-aware health monitoring system according to the present invention. In this embodiment, the mobile health management system 10 is installed and operated in the mobile medical terminal 1, and the mobile medical terminal 1 is connected to the medical information database 2 via the communication network 3, and the medical information database 2 is provided with medical informationization In the hospital information system of collaborative networking function, the medical information database 2 stores the user's historical health information, including the user's blood type, allergy history, family history, infection history, surgical history, medication history, chief complaint, symptom description, experiment Test reports, imaging inspection reports, pathological examination reports, electrophysiological examination reports, etc. The communication network 3 is a remote wireless communication network, including but not limited to a wireless transmission network such as a GSM network, a GPRS network, or a CDMA. [0032] In the embodiment, the mobile medical terminal 1 further includes, but is not limited to, a vital sign monitor 11, a fingerprint recognizer 12, a communication port 13, an environmental sensor 14, a memory 15, and a microprocessor 16. The vital sign monitor 11, the fingerprint identifier 12, the communication port 13, the environmental sensor 14 and the memory 15 are all connected to the microprocessor 16 via a data bus, and can be passed through the microprocessor 16 and the health monitoring System 10 performs information interaction.

[0033] The vital sign monitor 11 includes one or more of a blood pressure sensor, a pulse sensor, an electrocardiogram sensor, a blood oxygen sensor, a respiratory sensor, and a body temperature sensor for monitoring a user's blood pressure value, pulse value, and electrocardiogram. Vital signs data such as parameters, blood oxygen values, respiratory rate, and body temperature values. The fingerprint identifier 1 2 is used to input fingerprint information of the user. The communication port 13 is a wireless communication interface with remote wireless communication functions, such as a communication interface supporting communication technologies such as GSM, GPRS, CDMA, WCDMA, TD-SCDMA, and WiM AX. The environmental sensor 14 includes one or more of a temperature sensor, an atmospheric pressure sensor, a humidity sensor, and an oxygen sensor for monitoring external ambient temperature, current illumination, external atmospheric pressure, external air humidity, and external air oxygen content. And other environmental situation information. The memory 15 may be a read only memory unit ROM, an electrically erasable memory unit EEPROM or a flash memory unit FLASH or the like for storing program instruction codes constituting the mental emotion mitigation system 10. The microprocessor 16 can be a central processing unit (CPU), a microcontroller (MCU), a data processing chip, or an information processing unit having data processing functions for executing the environment-aware health monitoring system. 10 to monitor the health of users.

In the embodiment, the environment-aware health monitoring system 10 includes a vital sign data monitoring module 10 1 , a character code generating module 102 , a health information acquiring module 103 , an environmental scenario monitoring module 104 , and a health evaluation module 105 . The module referred to in the present invention refers to a series of computer program instruction segments that can be executed by the microprocessor 16 of the mobile medical terminal 1 and that can perform a fixed function, which are stored in the memory 15 of the mobile medical terminal 1. .

[0035] The vital sign data monitoring module 101 is configured to acquire vital sign data of the user through the vital sign monitor 11.

In the present embodiment, the vital sign monitor 11 is composed of one or more of a blood pressure sensor, a pulse sensor, an electrocardiographic sensor, a blood oxygen sensor, a respiratory sensor, and a body temperature sensor. The vital sign data includes, but is not limited to, blood pressure values, pulse values, electrocardiographic parameters, blood oxygen values, respiratory frequencies, and body temperature values. For example, the vital sign data monitoring module 101 acquires the user through the blood pressure sensor of the vital sign monitor 11. The blood pressure value is obtained by the pulse sensor of the vital sign monitor 11, the user's electrocardiographic parameter is obtained by the electrocardiographic sensor of the vital sign monitor 11, and the blood oxygen level of the user is obtained by the blood oxygen sensor of the vital sign monitor 11, The user's respiratory rate is acquired by the respiratory sensor of the vital sign monitor 11, and the body temperature value of the user is acquired by the body temperature sensor of the vital sign monitor 11.

[0036] The character code generating module 102 is configured to input the fingerprint information of the user through the fingerprint identifier 12, and generate a two-dimensional array character code of the user according to the preset encoding rule according to the fingerprint information and the vital sign data of the user. In this embodiment, the encoding rule adopted by the character code generating module 102 is as follows: encoding the vital sign data of the user into the two-dimensional array character code by using multiple encoded characters, and placing the user in the two-dimensional array character code. The fingerprint information is encoded in association with an index number of the history health information of the user stored in the medical information repository 2, so that the user's historical health information can be acquired from the medical information repository 2 through the cable number I. The two-dimensional array character code includes a plurality of coded characters arranged in a two-dimensional array, wherein each coded character corresponds to a bit group representing each vital sign data of the user. In this embodiment, the coded character may be one or more combinations of GB2312 GB code, GBK GB code, GB 12380 GB code, ASCII code, numbers and English letters, Chinese characters, and half-width characters.

[0037] The health information obtaining module 103 is configured to match the historical health information of the user from the medical information database 2 according to the two-dimensional array character code of the user, and receive the historical health information of the user from the medical information database 2 through the communication port 13. . In this embodiment, the medical information database 2 is integrated into the hospital information system, and has a medical informationization collaborative networking function, and collects historical health information of a large number of users, and each user is assigned an index number of historical health information, and each user is assigned an index number of historical health information. An index number is associated with the fingerprint information of the user, and the fingerprint information of the user is read from the two-dimensional array character code, and the index number of the user is searched from the medical information database 2 by using the fingerprint information, and the user's index is matched by using the index number. Historical health information, including user's blood type, history of allergies, family history, history of infection, history of surgery, history of medication, complaints, symptom description, laboratory test report, imaging test report, pathological report, electrophysiological test report, etc.

[0038] The environment scenario monitoring module 104 is configured to monitor, by the environment sensor 14, environmental scenario information of an external environment in which the user is currently located. In this embodiment, the environmental sensor 14 may be one or more of a temperature sensor, an atmospheric pressure sensor, a humidity sensor, and an oxygen sensor. The environmental context information includes, but is not limited to, external ambient temperature, current illumination, external atmospheric pressure, external air humidity, and external air oxygen content. For example, the environmental scenario monitoring module 104 monitors the outer loop via a temperature sensor The ambient temperature, the external atmospheric pressure is monitored by an atmospheric pressure sensor, the external air humidity is monitored by a humidity sensor, and the external air oxygen content is monitored by an oxygen sensor.

[0039] The health assessment module 105 is configured to generate a health assessment report of the user according to the vital sign data, the historical health information, and the environmental situation information of the user. In this embodiment, the health assessment module 105 is further configured to display the user's health assessment report on the display of the mobile medical terminal 1 for the doctor to analyze and evaluate the user's health. The health assessment module 105 combines the user's current vital sign data and historical health information with the environmental context information of the current environment, so the doctor can scientifically and objectively evaluate the user's health and give scientific health management. It is recommended to monitor health risk factors in a comprehensive and scientific manner.

[0040] The present invention also provides an environment-awareness-based health monitoring method corresponding to an environment-aware health monitoring system, which is applied to the mobile medical terminal 1.

[0041] As shown in FIG. 2, FIG. 2 is a flow chart of a preferred embodiment of the environment-aware health monitoring method of the present invention.

In this embodiment, referring to FIG. 1, the environment-aware health monitoring method includes the following steps.

[0042] Step S21: Obtaining vital signs data of the user by using the vital sign monitor; specifically, the vital sign data monitoring module 101 acquires vital sign data of the user through the vital sign monitor 11. In the present embodiment, the vital sign monitor 11 is composed of one or more of a blood pressure sensor, a pulse sensor, an electrocardiographic sensor, a blood oxygen sensor, a respiratory sensor, and a body temperature sensor. The vital sign data includes, but is not limited to, blood pressure values, pulse values, electrocardiographic parameters, blood oxygen values, respiratory frequencies, and body temperature values. For example, the vital sign monitoring module 101 acquires the blood pressure value of the user through the blood pressure sensor of the vital sign monitor 11, acquires the pulse value of the user through the pulse sensor of the vital sign monitor 11, and acquires the cardiac electrical parameter of the user through the electrocardiographic sensor of the vital sign monitor 11. The blood oxygen level of the user is acquired by the blood oxygen sensor of the vital sign monitor 11, the respiratory frequency of the user is acquired by the respiratory sensor of the vital sign monitor 11, and the body temperature value of the user is obtained by the body temperature sensor of the vital sign monitor 11.

[0043] Step S22: Enter the fingerprint information of the user by using the fingerprint identifier; specifically, the character code generation module 102 inputs the fingerprint information of the user through the fingerprint identifier 12.

[0044] Step S23: Entering the fingerprint information of the user by using the fingerprint identifier; specifically, the character code generating module 102 generates a two-dimensional array of the user according to the preset encoding rule according to the fingerprint information and the vital sign data of the user. Character code. In this embodiment, the two-dimensional array character code includes a plurality of coded characters arranged in a two-dimensional array, wherein each coded character corresponds to a bit group representing each vital sign data of the user. The coded character may be one or more combinations of GB2312 GB code, GBK GB code, GB 12380 GB code, ASCII code, numbers and English letters, Chinese characters, half-width characters, and full-width characters. The encoding rule adopted by the character code generating module 102 is as follows: encoding the vital sign data of the user into the two-dimensional array character code by using multiple encoded characters, and storing the fingerprint information of the user in the medical file in the two-dimensional array character code. The number of the user's historical health information in the information base 2 is encoded and associated, so that the user's historical health information can be obtained from the medical information repository 2 through the cable number I.

[0045] Step S24: matching the user's historical health information from the medical information database according to the user's two-dimensional array character code; specifically, the health information obtaining module 103 matches the medical information database 2 according to the user's two-dimensional array character code. The user's historical health information. In this embodiment, the medical information database 2 is integrated into the hospital information system, and has a medical informationization collaborative networking function, and collects historical health information of a large number of users, and each user is assigned an index number of historical health information, and each user is assigned an index number of historical health information. An index number is associated with the fingerprint information of the user, and the fingerprint information of the user is read from the two-dimensional array character code, and the fingerprint information is used to search for the user's cable bow I from the medical information database 2, and the cable bow I is used. Match the user's historical health information

[0046] Step S25, receiving historical health information of the user from the medical information database through the communication port; specifically, the health information obtaining module 103 receives the historical health information of the user from the medical information database 2 through the communication port 13, including the blood type and allergy of the user. History, family history, history of infection, history of surgery, history of medication, complaints, symptom description, imaging examination report, pathological examination report, electrophysiological examination report, etc.

[0047] Step S26: The environment situation information of the external environment where the user is currently located is monitored by the environment sensor. Specifically, the environment situation monitoring module 104 monitors the environment situation information of the external environment where the user is currently located by using the environment sensor 14. In this embodiment, the environmental sensor 14 may be one or more of a temperature sensor, an atmospheric pressure sensor, a humidity sensor, and an oxygen sensor. The environmental context information includes, but is not limited to, external ambient temperature, current illumination, external atmospheric pressure, external air humidity, and external air oxygen content. For example, the environmental scenario monitoring module 104 monitors the external ambient temperature through a temperature sensor, the external atmospheric pressure through an atmospheric pressure sensor, the external air humidity through a humidity sensor, and the external air oxygen content through an oxygen sensor. [0048] Step S27, generating a health assessment report of the user according to the vital sign data, the historical health information, and the environmental scenario information of the user; specifically, the health assessment module 105 generates the user according to the vital sign data, the historical health information, and the environmental scenario information of the user. The health assessment report, and the user's health assessment report is displayed on the display of the mobile medical terminal 1 for the doctor to analyze and evaluate the health of the user.

[0049] The environment-aware health monitoring system and method according to the present invention can accurately monitor a user's vital sign data, historical health information, and environmental situation information, and the current vital vital sign data, historical health information, and current location of the user. The environmental context information of the environment is combined to generate a user's health assessment report for the doctor to analyze and evaluate the user's health. Therefore, doctors can scientifically and objectively assess the health status of users and give scientific health management advice to comprehensively and scientifically monitor health risk factors.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent function changes made by the description of the present invention and the contents of the drawings, or directly or indirectly applied to other related The technical field is equally included in the scope of patent protection of the present invention.

Industrial applicability

Claims

Claim

[Claim 1] An environment-aware health monitoring system is applied to a mobile medical terminal, the mobile medical terminal is connected to a medical information database through a communication network, wherein the environment-aware health monitoring system comprises: The vital sign data monitoring module is configured to obtain the vital sign data of the user through the vital sign monitor of the mobile medical terminal; the character code generating module is configured to input the fingerprint information of the user through the fingerprint identifier of the mobile medical terminal, and according to the fingerprint information of the user and The vital sign data generates a user's two-dimensional array character code according to a preset encoding rule; the health information acquiring module is configured to match the user's historical health information from the medical information database according to the user's two-dimensional array character code, and The communication port of the mobile medical terminal receives the historical health information of the user from the medical information database; the environmental situation monitoring module is configured to monitor the environmental situation information of the external environment where the user is currently located by using the environmental sensor of the mobile medical terminal; the health evaluation module, Yu Gen The user's health assessment report is generated based on the user's vital sign data, historical health information, and environmental context information.

[Claim 2] The environment-aware health monitoring system according to claim 1, wherein the vital sign monitoring module is specifically configured to acquire a blood pressure value of a user through a blood pressure sensor of the vital sign monitor, and perform physical sign monitoring The pulse sensor of the instrument acquires the pulse value of the user, obtains the ECG parameter of the user through the ECG sensor of the vital sign monitor, acquires the blood oxygen value of the user through the blood oxygen sensor of the vital sign monitor, and acquires the user's blood pressure sensor through the respiratory sensor of the vital sign monitor. The respiratory rate, as well as the body temperature value of the user through the body temperature sensor of the vital sign monitor.

[Claim 3] The environment-aware health monitoring system according to claim 1, wherein the vital sign monitoring module is specifically configured to acquire a blood pressure value of the user through a blood pressure sensor of the vital sign monitor, and perform physical sign monitoring The pulse sensor of the instrument acquires the pulse value of the user, obtains the ECG parameter of the user through the ECG sensor of the vital sign monitor, acquires the blood oxygen value of the user through the blood oxygen sensor of the vital sign monitor, and acquires the user's blood pressure sensor through the respiratory sensor of the vital sign monitor. The respiratory rate, as well as the body temperature value of the user through the body temperature sensor of the vital sign monitor.

[Claim 4] The environment-aware health monitoring system according to claim 1, wherein the encoding rule is: encoding the user's vital sign data into a two-dimensional array character code by using multiple encoded characters. And storing the user's fingerprint information in a two-dimensional array of character codes The index number of the historical health information of the user in the medical information database is encoded, wherein the coded character is GB2312 national standard code, GBK national standard code, GB12380 national standard code,

One or more combinations of ASCII codes, numbers, and English letters, Chinese characters, half-width characters, and full-width characters.

The environment-aware health monitoring system according to claim 1, wherein the encoding rule is: encoding the user's vital sign data into a two-dimensional array character code by using a plurality of coded characters, and in two dimensions The array character code encodes the fingerprint information of the user with the index number of the historical health information of the user stored in the medical information database, wherein the coded character is GB2312 GB code, GBK GB code, GB12380 GB code, ASCII code , one or more combinations of numbers and English letters, Chinese characters, half-width characters, and full-width characters.

The environment-aware health monitoring method according to claim 6, wherein the step of acquiring the vital sign data of the user by the vital sign monitor of the mobile medical terminal comprises the following steps: acquiring by the blood pressure sensor of the vital sign monitor The user's blood pressure value is obtained by the pulse sensor of the vital sign monitor, and the user's electrocardiogram parameter is obtained by the electrocardiograph of the vital sign monitor, and the blood oxygen value of the user is obtained by the blood oxygen sensor of the vital sign monitor. The monitor's breathing sensor acquires the user's respiratory rate and obtains the user's body temperature value through the body temperature sensor of the vital sign monitor.

The environment-aware health monitoring method according to claim 6, wherein the step of monitoring the environmental situation information of the external environment in which the user is currently located by the environmental sensor of the mobile medical terminal comprises the following steps: monitoring by the temperature sensor External ambient temperature The external atmospheric pressure is monitored by an atmospheric pressure sensor, the external air humidity is monitored by a humidity sensor, and the external air oxygen content is monitored by an oxygen sensor.

[Claim 9] The environment-aware health monitoring method according to claim 6, wherein the encoding rule is: encoding the user's vital sign data into a two-dimensional array character code by using multiple encoded characters. And encoding, in the two-dimensional array character code, the fingerprint information of the user and the index number of the historical health information of the user stored in the medical information database, wherein the encoded character is GB2312 GB code, GBK GB code, GB12380 National code, ASCII code, number and combination of English letters, Chinese characters, half-width characters, full-width characters.

[Claim 10] The environment-aware health monitoring method according to any one of claims 6 to 9, characterized in that the method further comprises the step of: displaying the user's health assessment report on the display of the mobile medical terminal.