WO2018076619A1

WO2018076619A1 - System and method for evaluating health conditions based on internet of things

Info

Publication number: WO2018076619A1
Application number: PCT/CN2017/080154
Authority: WO
Inventors: 张贯京; 葛新科; 高伟明; 张红治
Original assignee: 深圳市前海安测信息技术有限公司
Priority date: 2016-10-29
Filing date: 2017-04-11
Publication date: 2018-05-03
Also published as: CN106357802A

Abstract

Provided are a system and method for evaluating health conditions based on Internet of Things. The method comprises the steps: receiving health questionnaire survey information about a user from a medical terminal device; collecting physical sign data about the user by means of a physical sign sensor arranged on the medical terminal device; acquiring a health condition evaluation model from a health evaluation model library according to the health questionnaire survey information and the physical sign data; acquiring geographical position information about the user by means of a position sensor arranged on the medical terminal device; matching an environment information platform of an area in which the user is located according to the geographical position information, acquiring environment information about the user from the environment information platform, and correcting the health condition evaluation model according to the environment information to obtain a health evaluation report of the user; and adding health improvement suggestions from a doctor into the health evaluation report, and sending the health evaluation report to the medical terminal device. The present invention can evaluate the health condition of the user in combination with environmental factors where the user is located, so as to improve the accuracy of an evaluation result.

Description

IoT-based health assessment system and method

[0001] The present invention relates to the field of health care, and in particular, to a health condition assessment system and method based on the Internet of Things.

Background technique

[0002] With the rapid development of society, the faster pace of life, and the improvement of people's living standards, people's attention to physical health is also increasing. There are many factors that affect health, such as: rational scientific exercise, comfortable mood, good eating habits and living habits. Of course, another important factor is environmental factors. Health is not just a disease when you go to the hospital. Can guarantee. Now people are paying more attention to a healthy lifestyle and keeping themselves in a good state. In recent years, the remote health monitoring system came into being. Pingyi people can monitor the human body through some mobile measuring devices, such as electrocardiograph, body fat meter, blood pressure meter, blood glucose meter, oximeter, etc., and upload it to the server. The operation is simple and convenient. Hiratsuka can not only see your health at a glance, but also view historical trends. Most of the current remote health monitoring systems only give rough evaluation results for user-acquired measurement parameters. The evaluation results obtained are inaccurate, and are not comprehensively considered in combination with the environmental factors of the users, which reduces the accuracy of health risk assessment.

technical problem

[0003] The main objective of the present invention is to provide an Internet of Things-based health assessment system and method, which aims to solve the technical problem that the existing remote health monitoring system does not consider the environmental factors of the user and cause inaccurate health assessment results. .

Problem solution

Technical solution

[0004] In order to achieve the above object, the present invention provides an Internet of Things-based health assessment system, which operates in a cloud server, which is connected to a medical terminal device through a communication network, and through a database connection and a health assessment model. The library connection, the IoT-based health assessment system includes:

[0005] a health information collecting module, configured to receive, from the medical terminal device, the health questionnaire information input by the user, And collecting physical sign data of the user through a vital sign sensor disposed on the medical terminal device;

[0006] a health assessment module, configured to obtain a health assessment model of the user from the health assessment model library according to the user's health questionnaire information and the vital sign data;

[0007] a health correction module, configured to acquire geographic location information of a user by using a location sensor disposed on the medical terminal device, and match an environmental information platform of the region where the user is located according to the geographic location information, from the environmental information platform Obtaining environmental information of a region where the user is located, and correcting the health assessment model according to the environmental information to obtain a health assessment report of the user;

[0008] a health report output module, configured to add a doctor's health improvement recommendation to the user's health assessment report to form a user's final health assessment report, and send the user's final health assessment report to the medical terminal device.

[0009] Preferably, the health information collection module is further configured to generate a health questionnaire interface and display the information on the medical terminal device for the user to input the health questionnaire information.

[0010] Preferably, the health condition correction module is specifically configured to analyze a health condition factor affecting a user's health condition from a user's health condition assessment model, and correct the user's health condition factor according to the user's environmental information to obtain a suitable user A health assessment model for the region, and a health assessment report for the user based on the revised health assessment model.

[0011] Preferably, the vital signs sensor includes a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and an oximeter for collecting a user's body temperature, ECG, fat content, blood pressure, blood sugar. And physical signs of blood oxygen.

[0012] Preferably, the environmental information includes environmental health information, traffic condition information, and weather information.

[0013] The present invention also provides an Internet of Things-based health assessment method, which is applied to a cloud server, the cloud server is connected to a medical terminal device through a communication network, and is connected to a health assessment model library through a database connection. The method includes the steps of:

[0014] receiving health questionnaire information input by the user from the medical terminal device;

[0015] collecting physical sign data of the user through a vital sign sensor disposed on the medical terminal device;

[0016] obtaining a health assessment model of the user from the health assessment model library according to the user's health questionnaire information and the vital sign data;

[0017] acquiring geographical location information of the user by using a location sensor disposed on the medical terminal device; [0018] matching, according to the geographical location information, an environment information platform of a region where the user is located, and obtaining environment information of the region where the user is located from the environment information platform;

[0019] correcting the health assessment model according to the environmental information to obtain a health assessment report of the user

[0020] Adding a doctor's health improvement suggestion to the user's health assessment report to form a user's final health assessment report, and transmitting the user's final health assessment report to the medical terminal device.

[0021] Preferably, the step of receiving the health questionnaire information input by the user from the medical terminal device comprises the following steps: generating a health questionnaire interface and displaying the information on the medical terminal device for the user to input the health questionnaire information.

[0022] Preferably, the step of correcting the user's health assessment model according to the user's environmental information to obtain the user's health assessment report comprises the following steps:

[0023] analyzing a health condition factor affecting a user's health status from a user's health assessment model;

[0024] correcting the health condition factor of the user according to the environmental information of the user to obtain a health condition evaluation model suitable for the area where the user is located;

[0025] generating a health assessment report of the user according to the revised health assessment model.

[0026] Preferably, the vital sign sensor comprises a sensor such as a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and an oximeter for collecting a user's body temperature, electrocardiogram, fat content, blood pressure, blood sugar. And physical signs of blood oxygen.

[0027] Preferably, the environmental information includes environmental health information, traffic condition information, and weather information.

Advantageous effects of the invention

Beneficial effect

[0028] The Internet of Things-based health assessment system and method of the present invention adopts the above technical solutions, and the technical effects brought by the invention are: acquiring physical information of the user and health questionnaire information based on the Internet of Things, according to the physical information of the user And the health questionnaire information generates a user's health assessment model, and can correct the user's health condition factor in combination with the user's environmental information, thereby obtaining a health assessment model suitable for the region in which the user is located, so the present invention can be truly adapted. The health assessment results of the actual situation of the user improve the accuracy and practicability of the health risk assessment.

Brief description of the drawing DRAWINGS

1 is a schematic diagram of an application environment of a preferred embodiment of the Internet of Things-based health assessment system of the present invention; [0030] FIG. 2 is a block diagram of a preferred embodiment of the Internet of Things-based health assessment system of the present invention;

3 is a flow chart of a preferred embodiment of the Internet of Things based health assessment method of the present invention.

[0032] The implementation, functional features, and advantages of the present invention will be further described with reference to the accompanying drawings.

BEST MODE FOR CARRYING OUT THE INVENTION

The specific embodiments, structures, features and functions of the present invention are described in detail below with reference to the accompanying drawings and 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.

Referring to FIG. 1, FIG. 1 is a schematic diagram of an application environment of a preferred embodiment of the Internet of Things-based health assessment system of the present invention. In this embodiment, the Internet of Things-based health assessment system 10 operates on a cloud server 1 through a communication communication network 3 and one or more medical terminal devices 2 (a medical terminal in FIG. 1) The device 2 is described as an example) a communication connection is established, and a data connection is established with the health assessment model library 4 via the database connection 5. The cloud server 1 is a server in a cloud platform or a cloud platform. Through the data transmission capability and data storage capability of the cloud server 1, the medical terminal device 2 can be better managed and/or assisted in processing and transmitting the user. Vital signs data and health risk assessment reports help users understand their health status.

[0035] The medical terminal device 2 can set a user's home or a medical community center to facilitate the user to monitor the physical data and understand his or her health status. In this embodiment, the medical terminal device 2 includes a vital sign sensor 21 and a position sensor 22, including, but not limited to, a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and blood oxygen. The sensor is used to collect physical data such as body temperature, ECG, fat content, blood pressure, blood sugar, and blood oxygen, and send the user's vital sign data to the cloud server 1 through the communication network 3. The location sensor 22 can be a GPS positioning unit for acquiring geographic location information of the user and transmitting the geographical location information of the user to the cloud server 1 through the communication network 3.

[0036] The communication network 3 may be a wired communication network or a wireless communication network. In this embodiment, the pass The communication network 3 is preferably a wireless communication network including, but not limited to, a GSM network, a GPRS network, a CDMA network, a TD-SCDMA network, a WiMAX network, a TD-LTE network, an FDD-LTE network, and the like.

[0037] The health assessment model library 4 stores an evaluation model of various disease types common to the human body, for example, a chronic disease evaluation model including heart disease, hypertension, diabetes, and obesity. The database connection 5 can be an Open Database Connectivity (ODBC) or Java Data Base Connectivity (JDBC).

[0038] The environmental information platform 6 is an environmental information monitoring platform respectively installed in each regional environmental monitoring center, and can provide local environmental information to the cloud server 1 . The cloud server 1 establishes a communication connection with the environment information platform 6 of each region through the communication network 3, and is configured to match the environment information platform 6 where the user is located according to the geographic location information of the user, and obtain the information from the matched environment information platform 6. User's environmental information. Specifically, the environmental information includes, but is not limited to, environmental sanitation information, traffic condition information (such as urban traffic congestion conditions, environmental noise conditions), and meteorological information, and the meteorological information includes temperature (highest temperature and minimum temperature). Weather information such as wind direction winds (for example, southerly winds, northerly winds, etc.), weather conditions (for example, weather conditions such as fine weather, light rain, heavy rain, snow, heavy snow, etc.) and air quality levels (for example, PM 2.5 values) .

[0039] The storage unit 11 may be a read only storage unit ROM, an electrically erasable storage unit EEPRO M, a flash storage unit FLASH or a solid hard disk.

[0040] The processing unit 12 may be a central processing unit (CPU), a microcontroller (MCU), a data processing chip, or an information processing unit having a data processing function.

[0041] The communication unit 13 is a wireless communication interface with remote wireless communication functions, for example, supports communication technologies such as GSM, GPRS, WCDMA, CDMA, TD-SCDMA, WiMAX, TD-LTE, FDD-LT E, and the like. Communication interface.

[0042] Referring to FIG. 2, FIG. 2 is a block diagram of a preferred embodiment of the Internet of Things based health assessment system of the present invention. In this embodiment, the Internet of Things-based health assessment system 10 includes, but is not limited to, a health information collection module 101, a health assessment module 102, a health correction module 103, and a health report output module 104. The term "module" as used in the present invention refers to a series of computer program instruction segments that can be executed by the processing unit 12 of the cloud server 1 and capable of performing fixed functions, which are stored. In the storage unit 11 of the cloud server 1.

[0043] The health information collection module 101 is configured to receive health questionnaire information input by the user from the medical terminal device 2. Specifically, when the cloud server 1 establishes a communication connection with the medical terminal device 2, the health information collecting module 101 is further configured to generate a health questionnaire interface and display it on the medical terminal device 2 for the user to input the health questionnaire information. In this case, the user can input the health questionnaire information from the health questionnaire interface, and the health information collection module 101 receives the health questionnaire information input by the user from the health questionnaire interface through the communication unit 13, the health questionnaire information. Includes information such as user name, gender, age, lifestyle, eating habits, past medical history, family history, and more.

[0044] The health information collection module 101 is further configured to collect the physical sign data of the user through the vital sign sensor 21 disposed on the medical terminal device 2. In the present embodiment, the vital sign sensor 21 includes, but is not limited to, a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and a oximeter. The user can measure the body temperature, the electrocardiogram, the fat content, the blood pressure, the blood sugar, and the blood oxygen and the like by the vital sign sensor 21, and the health information collecting module 101 receives the user vital sign data collected by the vital sign sensor 21 through the communication unit 13.

[0045] The health assessment module 102 is configured to obtain a health assessment model of the user from the health assessment model library 4 according to the user's health questionnaire information and the vital sign data. In this embodiment, the health assessment model library 4 may be set in a health management center and store an evaluation model of various disease types common to the human body, for example, including chronic diseases such as heart disease, hypertension, diabetes, and obesity. model. The health assessment module 102 can determine the health status of the user according to the user's vital data and the health questionnaire information (eg, past medical history or family medical history), and match the user from the health assessment model library 4 according to the user's health status. Health status assessment model.

[0046] The health condition correction module 103 is configured to acquire the geographic location information of the user through the location sensor 22 disposed on the medical terminal device 2, and match the environmental information platform 6 of the region where the user is located according to the geographic location information of the user. In this embodiment, the location sensor 22 acquires the geographic location of the medical terminal device 2 as the geographic location information of the user, and transmits the geographic location information of the user to the cloud server 1. The health status correction module 103 acquires the geographical location information of the user through the communication unit 13, and matches the environmental information platform 6 of the area where the user is located according to the geographic location information of the user. The environmental information includes, but is not limited to, environmental health information, traffic condition information (such as urban traffic congestion, environmental noise conditions) And weather information such as local temperature, wind direction, weather conditions and air quality

[0047] The health status correction module 103 is further configured to obtain environment information of a region where the user is located from the matched environment information platform 6, and correct the user's health status assessment model according to the user's environmental information to obtain the user's health. Evaluation Report. Generally, environmental factors have an impact on human health conditions. For example, environmental sanitation (such as drinking water, food hygiene, etc.) directly affects human health. Urban traffic congestion and environmental noise generally affect people's lives. Emotions (such as causing emotional anxiety), weather conditions can affect the disease of certain organs of the human body (such as wet weather may cause joint pain). In this embodiment, the health status correction module 103 parses the health condition factor affecting the user's health status from the user's health status assessment model, and corrects the user's health status factor according to the user's environmental information to obtain an area suitable for the user's location. The health status assessment model generates a user's health assessment report based on the revised health status assessment model. Since the health condition correction module 103 can correct the health condition factor of the user in combination with the user's environmental information, thereby obtaining a health condition evaluation model suitable for the area where the user is located, the present invention can obtain a health assessment result that is truly suitable for the actual situation of the user, and improve The accuracy and practicality of the health risk assessment.

[0048] The health report output module 104 is configured to add a doctor's health improvement suggestion to the user's health assessment report to form a user's final health assessment report, and send the user's final health assessment report to the medical terminal device 2. In this embodiment, the doctor's health improvement suggestion is given by the doctor according to the user's health condition and stored in the storage unit 11 of the cloud server, including dietary habit suggestions, exercise suggestions, lifestyle suggestions, and medical treatment at the hospital. Suggest. The health report output module 104 transmits the health assessment report of the user to the medical terminal device 2 through the communication unit 13 to the communication network 3, so that the user can browse or print the user's health assessment report, so that the user can understand his or her health. situation.

[0049] Referring to FIG. 3, it is a flowchart of a preferred embodiment of the Internet of Things-based health assessment method of the present invention. In this embodiment, the Internet of Things-based health assessment method is applied to the cloud server 1, and as shown in FIG. 1 and FIG. 2, the method includes the following steps:

[0050] Step S31: Receive health questionnaire information input by the user from the medical terminal device. Specifically, the health information collection module 101 receives the health questionnaire information input by the user from the medical terminal device 2. This step S 31 further includes the following: When the cloud server 1 establishes a communication connection with the medical terminal device 2, the health information collecting module 101 generates a health questionnaire interface and displays it on the medical terminal device 2 for the user to input health questionnaire information. In this case, the user can input the health questionnaire information from the health questionnaire interface, and the health information collection module 101 receives the health questionnaire information input by the user from the health questionnaire interface through the communication unit 13, the health questionnaire information. Includes information such as user name, gender, age, lifestyle, eating habits, past medical history, family history, and more.

[0051] Step S32, collecting physical vitals data of the user by using the vital sign sensor disposed on the medical terminal device. Specifically, the health information collecting module 101 collects the physical vitality data of the user through the vital sign sensor 21 disposed on the medical terminal device 2. In the present embodiment, the vital sign sensor 21 includes, but is not limited to, a sensor such as a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and an oximeter. The user can measure the body temperature, the electrocardiogram, the fat content, the blood pressure, the blood sugar, and the blood oxygen and other vital signs data of the user through the sensor 21, and the health information collecting module 101 receives the user's physical data collected by the vital sign sensor 21 through the communication unit 13.

[0052] Step S33, obtaining a health condition assessment model from the health assessment model library according to the user's health questionnaire information and the vital sign data; specifically, the health condition assessment module 102 is based on the user's health questionnaire information and the vital sign data from the health The evaluation model library 4 obtains the user's health assessment model. In this embodiment, the health assessment model library 4 is set in the health management center and stores an evaluation model of various disease types common to the human body, for example, a chronic disease evaluation model including heart disease, hypertension, diabetes, and obesity. . The health assessment module 102 can determine the health status of the user according to the user's vital data and combined with the health questionnaire information (eg, past medical history or family medical history), and match the user from the health assessment model library 4 according to the user's health status. Health status assessment model.

[0053] Step S34: acquiring the geographical location information of the user by using the location sensor disposed on the medical terminal device; specifically, the health condition correction module 103 acquires the geographic location information of the user through the location sensor 22 disposed on the medical terminal device 2. In this embodiment, the location sensor 22 acquires the geographic location of the medical terminal device 2 as the geographic location information of the user, and transmits the geographic location information of the user to the cloud server 1. The health status correction module 103 acquires geographic location information of the user through the communication unit 13, and the environmental information includes, but is not limited to, environmental health information, traffic condition information (eg, urban traffic congestion, environmental noise conditions), and weather information (eg, Local temperature, wind direction, weather conditions And air quality) and other information.

[0054] Step S35, matching the environmental information platform of the area where the user is located according to the geographic location information of the user, and obtaining the environmental information of the area where the user is located from the environmental information platform; specifically, the health status correction module 103 is based on the user's The geographical location information matches the environmental information platform 6 of the area where the user is located, and obtains the environmental information of the area where the user is located from the matched environmental information platform 6. In this embodiment, the environmental monitoring center of each area is provided with an environmental information platform 6, which can monitor the environmental conditions of each area and provide environmental information of each place to the cloud server. The environmental information includes, but is not limited to, environmental health information, traffic condition information (e.g., urban traffic congestion, environmental noise conditions), and weather information (e.g., local temperature, wind direction, weather conditions, and air quality).

[0055] Step S36, the user's health assessment model is corrected according to the user's environmental information to obtain the user's health assessment report. Specifically, the health correction module 103 corrects the user's health assessment model according to the user's environmental information. User's health assessment report. Generally, environmental factors have an impact on human health conditions. For example, environmental sanitation (such as drinking water, food hygiene, etc.) directly affects human health. Urban traffic congestion and environmental noise generally affect people's lives. Emotions (such as causing emotional anxiety), weather conditions can affect the disease of certain organs of the human body (such as wet weather may cause joint pain). In this embodiment, the step of correcting the user's health assessment model according to the user's environmental information to obtain the user's health assessment report includes the following steps: analyzing the health status of the user's health status from the user's health assessment model The factor combines the health condition factor of the user according to the user's environmental information to obtain a health assessment model suitable for the region in which the user is located, and generates a health assessment report of the user according to the revised health assessment model.

[0056] Step S37, adding a health improvement suggestion to the user's health assessment report to form a final health assessment report of the user, and transmitting the final health assessment report of the user to the medical terminal device; specifically, the health report output module 104 will be a doctor The health improvement suggestion is added to the user's health assessment report to form the user's final health assessment report, and the user's health assessment report is sent to the medical terminal device 2. In this embodiment, the doctor's health improvement suggestion is given by the doctor according to the user's health condition and stored in the storage unit 11 of the cloud server, including dietary habit suggestions, exercise suggestions, lifestyle suggestions, and medical treatment at the hospital. Suggest. In addition, the health report output module 104 transmits the communication to the communication through the communication unit 13. The network 3 sends the user's final health assessment report to the medical terminal device 2 for the user to browse or print the user's health assessment report, so that the user knows his or her health condition.

[0057] The Internet of Things-based health assessment system and method of the present invention uses a medical terminal device (including a vital sign sensor and a location sensor) installed in a user's home or social welfare center to connect to a cloud server of a health management center via the Internet. In the above, the user's health assessment model can be generated according to the user's vital information and the health questionnaire information, and the user's health condition factor can be corrected according to the user's environmental information, thereby obtaining a health assessment model suitable for the user's region. Therefore, the present invention can obtain a health assessment result that is truly suitable for the actual situation of the user, and improves the accuracy and practicability of the health risk assessment.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the contents of the drawings may be 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

[0059] The Internet of Things-based health assessment system and method of the present invention adopts the above technical solutions, and the technical effects are as follows: The physical information of the user and the health questionnaire information can be obtained based on the Internet of Things, according to the physical information of the user. And the health questionnaire information generates a user's health assessment model, and can correct the user's health condition factor in combination with the user's environmental information, thereby obtaining a health assessment model suitable for the region in which the user is located, so the present invention can be truly adapted. The health assessment results of the actual situation of the user improve the accuracy and practicability of the health risk assessment.

Claims

Claim

[Claim 1] An Internet of Things-based health assessment system, running in a cloud server, the cloud server being connected to a medical terminal device through a communication network, and being connected to a health assessment model library through a database connection, wherein The system includes: a health information collection module, configured to receive health questionnaire information input by a user from the medical terminal device, and collect physical sign data of the user through a vital sign sensor disposed on the medical terminal device; the health condition evaluation module is configured to The user's health questionnaire information and the vitality data are obtained from the health assessment model library, and the health status correction module is configured to obtain the geographic location information of the user through the location sensor disposed on the medical terminal device. The geographical location information matches the environmental information platform of the area where the user is located, obtains the environmental information of the area where the user is located from the environmental information platform, and corrects the health condition evaluation model according to the environmental information to obtain the user's health Assessment report; health report output module, for improved health physicians recommend adding a user to form a final health assessment report health assessment report a user, and sends the user's final health assessment report to the medical terminal device.

[Claim 2] The Internet of Things-based health assessment system according to claim 1, wherein the health information collection module is further configured to generate a health questionnaire interface and display the information on the medical terminal device for the user. Enter the health questionnaire information.

[Claim 3] The Internet of Things-based health assessment system according to claim 1, wherein the health correction module is specifically configured to analyze a health condition affecting a user's health status from a user's health assessment model. The factor is modified according to the user's environmental information to obtain a health assessment model suitable for the region in which the user is located, and the user's health assessment report is generated according to the revised health assessment model.

[Claim 4] The Internet of Things-based health assessment system according to claim 1, wherein the vital signs include a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and an oximeter. A sensor for collecting vital signs containing the user's body temperature, ECG, fat content, blood pressure, blood glucose, and blood oxygen.

[Claim 5] The Internet of Things-based health assessment system according to any one of claims 1 to 4, The environmental information includes environmental health information, traffic condition information, and weather information.

[Claim 6] An Internet of Things-based health assessment method is applied to a cloud server, wherein the cloud server is connected to a medical terminal device through a communication network, and is connected to a health assessment model library through a database connection, wherein The method comprises the steps of: receiving health questionnaire information input by a user from a medical terminal device; collecting physical sign data of the user through a vital sign sensor disposed on the medical terminal device; and selecting a health assessment model according to the user's health questionnaire information and the vital sign data Obtaining a health assessment model of the user in the library; acquiring geographic location information of the user by using a location sensor disposed on the medical terminal device; matching an environmental information platform of the region in which the user is located according to the geographic location information, and extracting from the environmental information platform Obtaining environmental information of the area where the user is located in the platform; correcting the health condition evaluation model according to the environmental information to obtain a health assessment report of the user; adding the health improvement suggestion of the doctor to the user's health assessment report to form the user's most The final health assessment report and the user's final health assessment report is sent to the medical terminal device.

[Claim 7] The Internet of Things-based health assessment method according to claim 6, wherein the step of receiving the health questionnaire information input by the user from the medical terminal device comprises the following steps: generating a health questionnaire The survey interface is displayed on the medical terminal device for the user to input the health questionnaire information.

[Claim 8] The Internet of Things-based health assessment method according to claim 6, wherein the step of correcting the user's health assessment model according to the user's environmental information to obtain the user's health assessment report includes: The following steps are performed: analyzing a health condition factor affecting the user's health status from the user's health assessment model; correcting the user's health condition factor according to the user's environmental information to obtain a health assessment model suitable for the user's location; The status assessment model produces a user's health assessment report.

[Claim 9] The Internet of Things-based health assessment method according to claim 6, wherein the vital signs sensor includes a thermometer, an electrocardiograph, a body fat meter, a blood pressure meter, a blood glucose meter, and an oximeter. A sensor for collecting vital signs containing the user's body temperature, ECG, fat content, blood pressure, blood glucose, and blood oxygen. [Claim 10] The Internet of Things-based health assessment method according to any one of claims 6 to 9, wherein the environmental information includes environmental health information, traffic condition information, and weather information.