TWM565858U - Intelligent health management system - Google Patents

Abstract

An intelligent health management system includes a wearable device, a portable communication device, and a system processing unit. The wearable device provides a vital index data of a user via measurement. The portable communication device transmits an user identification information and the vital index data to the system processing unit. The intelligent health management system further couples with a physiology assessment organization, a facility regulation device, and a shop. Therefore, the intelligent health management system organizes information for providing the user with a comprehensive health care service, improvement of the efficiency of personal data management and contract management. The intelligent health management system further provides the user with a real-time and accurate merchandise information.

Description

Intelligent health management system

This creation relates to a management system, and in particular to an intelligent health management system.

There are a variety of wearable smart devices on the market, such as sports bracelets or smart watches. These wearable smart devices are capable of sensing part of the vital signs of the user and instantly feeding back data of these vital signs to the user.

However, for the topic of maintaining and promoting health, the considerations are very broad; conventional wearable smart devices often only display part of the life signs of the user, but ignore the health related to the user. Other information such as genetic diseases, genetic physiology, physiology, exercise habits or exercise preferences, as well as the integration of the aforementioned information, can no longer provide users with comprehensive health counseling services such as genetic data analysis, sports model recommendations or sports product recommendations. This is a limitation that is inevitable when the wearable smart device is not placed in the architecture of the system.

Therefore, the present disclosure discloses an intelligent health management system to solve the above problems.

To solve the above problem, an intelligent health management system is provided in the present embodiment, and the smart health management system includes a wearable smart device, a user mobile communication device, and a system processing unit. The wearable smart device is configured to measure a life index of a user and generate a life index data corresponding to the life index. The user mobile communication device has a user identification message. The system processing unit has a user database. The wearable smart device transmits the life index data generated by the wearable smart device to the user mobile communication device through a communication protocol; the user mobile communication device transmits to the mobile communication device through an internet network The life index data of the user mobile communication device and the user identification information are transmitted to the system processing unit; the system processing unit opens a user storage area in the user database according to the user identification information, and the The system processing unit stores the life index data in the user storage area.

In the intelligent health management system disclosed in the present application, the intelligent health management system further includes a physiological evaluation mechanism for receiving a biological sample from the user and sending the biological sample to a genetic testing institution. The genetic testing unit generates a test report based on the biological sample and sends the test report back to the physiological evaluation institution.

In the intelligent health management system disclosed in the present application, the system processing unit further stores the detection report in the user storage area.

In the intelligent health management system disclosed in the present application, the physiological evaluation institution sends the test report to a genetic analysis institution, and the genetic analysis institution generates an analysis report according to the test report and sends the analysis report back to the physiological evaluation institution.

In the intelligent health management system disclosed in the present application, the system processing unit further stores the analysis report in the user storage area.

In the intelligent health management system disclosed in the present application, the intelligent health management system further includes a field control device for sensing with the wearable smart device to generate a field use data. The system processing unit further has a field management database, and the site management database is used to store the site usage data.

In the intelligent health management system disclosed in the present application, the wearable smart device has an identity recognition module, and the identity recognition module is configured to sense with the site control device to generate a user usage data, and the system processing unit The user usage data is also stored in the user storage area.

In the intelligent health management system disclosed in the present application, the system processing unit further provides the user usage data to a store.

In the intelligent health management system disclosed in the present application, the wearable smart device is coupled to the system processing unit by establishing communication with the user mobile communication device; the system processing unit is further coupled to the physiological evaluation mechanism and the site control device. Through the above coupling structure, the system processing unit can not only capture the user's life index data, but also the user's genetic test report, the user's genetic analysis report, the user's use data for each site, and each Relevant data on how the site itself is used. Therefore, after the system processing unit integrates and analyzes the above information, the creative intelligent health management system can provide a comprehensive health consultation service to the user; at the same time, with the use of the user database and the venue management database, the creation of intelligent health The management system can also effectively improve the efficiency of user's personal management and venue performance management. The system processing unit can also be coupled to the store and exchange information with the store through a commercial platform; through such a pipeline, the creative intelligent health management system can also provide users with instant and accurate product information.

The foregoing and other technical contents, features, and advantages of the present invention will be apparent from the following detailed description of the embodiments of the invention.

Certain terms are used throughout the description and following claims to refer to particular elements. Those of ordinary skill in the art should understand that a manufacturer may refer to the same component by a different noun. The scope of this specification and the subsequent patent application do not use the difference of the names as the means for distinguishing the elements, but the difference in function of the elements as the criterion for distinguishing. The term "including" as used throughout the specification and subsequent claims is an open term and should be interpreted as "including but not limited to". In addition, the term "coupled" or "connected" is used herein to include any direct and indirect electrical or structural means of connection. Therefore, if a first device is coupled/connected to a second device, it means that the first device can be directly electrically/structuredly connected to the second device, or indirectly electrically/structured through other devices or connection means. To the second device.

Please refer to Figure 1. Figure 1 is a schematic diagram of the basic architecture of the Creative Health Management System. The intelligent health management system 1000 includes a wearable smart device 1, a user mobile communication device 2, and a system processing unit 3. The wearable smart device 1 is directly worn on the body of a user 9 (or integrated into the user's clothing/accessories) to measure a life index 91 of the user 9 and generate a life corresponding to the life index 91. Index data 92. The user mobile communication device 2 stores a user identification message 21, and the system processing unit 3 has a user database 31 for storing user identification information 21 of a plurality of users.

The wearable smart device 1 measures or collects the life index 91 of the user 9, and processes or converts the obtained life index 91 into corresponding life index data 92. In practical applications, the life index 91 can be a life phenomenon related to biological functions, such as heart rate, body temperature, blood pressure, respiration rate, vital capacity, walking steps, movement rate, bone density, height or weight, etc., life index data 92 can be It is a signal corresponding to the life index 91, such as a voltage signal, a current signal, a frequency signal, a magnetic signal or an optical signal. In the implementation of the present invention, the wearable smart device 1 may be smart glasses, smart headphones, smart watches, smart bracelets (or sports bracelets), smart rings, smart clothes, smart backpacks or smart shoes and socks, but The invention is not limited to the foregoing listed embodiments; in a broad sense, the wearable smart device 1 may further be a sensing device disposed on various devices (such as bicycles, backpacks, fitness equipment, rackets or tools, etc.) extending from the human body. Used to extract human-related data generated by the device.

In the embodiment of the present invention, the user mobile communication device 2 may be a mobile phone, a Bluetooth headset, a notebook computer, a smart watch or a voice assistant, etc., but is not limited to the embodiments listed above; the user built in the mobile device The identification message 21 may include the name, gender, account number, mobile phone number, e-mail address, QR Code, blood type or address of the user 9, but is not limited thereto. In the embodiment of the present invention, the system processing unit 3 may be a server, a computer, a central processing unit (CPU), a microcontroller (MCU), or a digital signal processor (DSP). The system processing unit 3 has a user database 31, and the user database 31 can be an area of the memory that is planned to store the identification information 21 of the plurality of users.

Please refer to Figure 2, which is a flow chart of the operation method of the Creative Intelligent Health Management System to store the life index data to the user storage area. As shown in Figure 2, the method of operation includes the following steps:

Step 101: The user mobile communication device 2 transmits the serial number of the wearable smart device 1 and a user identification message 21 of the user mobile communication device 2 to the system processing unit 3 via the Internet 82.

Step 102: The system processing unit 3 opens a user storage area 310 in the user database 31 according to the serial number of the wearable smart device 1 and the user identification information 21 of the user mobile communication device 2, wherein the user storage area 310 stores There is a serial number of the wearable smart device 1 and a user identification message 21.

Step 103: The wearable smart device 1 measures the life index 91 of the user to generate life index data 92 corresponding to the life index 91. Step 104: The wearable smart device 1 and the user mobile communication device 2 are paired via the communication protocol 81 to transmit the life index data 92 to the user mobile communication device 2. Step 105: The user mobile communication device 2 transmits the life index data 92 to the system processing unit 3 via the Internet 82. Step 106: The system processing unit 3 stores the life index data 92 in the user storage area 310.

The method for storing the user's life index data 92 in the user database 31 using the wearable device will be described in detail below. Referring to FIG. 2 , firstly, when the user 9 obtains the wearable smart device 1 , the user 9 can first use the user mobile communication device 2 to serialize the wearable smart device 1 and the user mobile communication device 2 . A user identification message 21 is transmitted over the Internet 82 to the system processing unit 3 (step 101). Regarding how the user mobile communication device 2 obtains the serial number, the user 9 can directly input or input the serial number attached to the wearable smart device 1 into the user mobile communication device 2, or the wearable smart device 1 can be The user mobile communication device 2 is paired by a communication protocol 81 between them, whereby the user mobile communication device 2 can obtain the serial number through the communication protocol 81. In the embodiment of the present invention, the communication protocol 81 between the wearable smart device 1 and the user mobile communication device 2 may be Bluetooth transmission, radio frequency identification or near field communication, etc., but is not limited to the foregoing listed embodiments. .

Next, the system processing unit 3 opens a user storage area 310 in the user database 31 according to the serial number of the wearable smart device 1 and the user identification information 21 of the user mobile communication device 2, to store the serial number and the user identification. Message 21 (step 102). When the wearable smart device 1 is in operation, the wearable smart device 1 measures the life data of the user and generates corresponding life index data 92 (step 103). On the other hand, the wearable smart device 1 is also paired with the user mobile communication device 2 via the communication protocol 81 to transmit the generated life index data 92 to the user mobile communication device 2 (step 104). After receiving the life index data 92, the user mobile communication device 2 can transmit the life index data 92 to the system processing unit 3 via the Internet 82 (step 105). After receiving the life index data 92, the system processing unit 3 can store the life index number 92 in the user database 31 corresponding to the user storage area 310 of the user 9 (step 106).

Please refer to FIG. 3, which is a schematic diagram of the architecture of the second embodiment of the creative intelligent health management system with physiological evaluation function. The intelligent health management system 1000 further includes a physiological evaluation mechanism 4 that can cooperate among the user 9, a genetic testing mechanism 84, and a genetic analysis mechanism. For example, the physiological evaluation mechanism 4 can receive one from the user 9. The biological sample 93 is sent to the genetic testing unit 84. In the present embodiment, the biological sample 93 (or the sample) may be blood, saliva, mucous membrane or epidermis of the user 9, but is not limited thereto. The gene detecting unit 84 generates a detection report 94 based on the biological sample 93 of the user 9 and sends the detection report 94 back to the physiological evaluation unit 4, and the physiological evaluation unit 4 can send the detection report 94 to a genetic analysis unit 85, the genetic analysis unit 85. An analysis report 95 is generated according to the test report 94 and the analysis report 95 is sent back to the physiological evaluation institution 4, and the physiological evaluation agency 4 can receive the test report 94 and/or the analysis report after receiving the test report 94 or the analysis report 95. The 95 is sent to the system processing unit 3 such that the system processing unit 3 can store the test report 94 and/or the analysis report 95 in the user storage area 310.

Please refer to Figure 4, which is a flow chart of the operation method of the Creative Intelligent Health Management System to store the test report and analysis report to the user storage area. As shown in Figure 4, the method of operation includes the following steps:

Step 201: The physiological assessment mechanism 4 obtains the biological sample 93 of the user according to the needs of the user 9.

Step 202: The physiological assessment mechanism 4 sends the biological sample 93 to the genetic testing unit 84 for verification to generate a detection report 94.

Step 203: The physiological assessment mechanism 4 receives the detection report 94, and the system processing unit 3 stores the detection report 94 in the user storage area 310 of the user database 31.

Step 204: The physiological assessment mechanism 4 transmits the test report 94 to the genetic analysis unit 85 for analysis to generate an analysis report 95.

Step 205: The physiological assessment mechanism 4 receives the analysis report 95, and the system processing unit 3 stores the analysis report 95 in the user storage area 310 of the user database 31.

The method for storing the detection report 94 of a gene of the user 9 and the analysis report 95 in the user database 31 by the physiological evaluation means 4 will be described in detail below. Please refer to FIG. 4 together. First, after the user 9 collects and seals the user's own biological sample 93, the user can send the biological sample 93 to the physiological evaluation mechanism 4 by personal delivery, mailing or express delivery, but preferably. Alternatively, the physiological assessment mechanism 4 charges the user 9 with a biological sample 93 and transports the biological sample 93 received to the user 9 through a logistics vehicle dedicated to transporting and storing the biological sample 93 to maintain one of the biological samples 93. Activity (step 201). For example, the physiological assessment mechanism 4 may first store the biological sample 93 with appropriate environmental parameter regulation methods, such as refrigeration, temperature control, clean room, airtightness or isolation, etc., in order to obtain time to sample the remaining users' biological samples. Complete collection. Within a time period in which the biological sample 93 is still active, the physiological assessment mechanism 4 sends the biological sample 93 of the user 9 to the genetic testing unit 84 for detection by the above-described logistics method to generate a detection report 94 corresponding to the biological sample 93 (step 202). The test report 94 can be transmitted back to the physiological assessment institution via the Internet 82, by e-mail (when the test report 94 is an electronic file), by mail or by courier (when the test report 94 is a paper file), or the like. After receiving the detection report 94, the physiological evaluation unit 4 may transmit the digitized detection report 94 to the system processing unit 3, and the system processing unit 3 stores the digitized detection report 94 in the user storage area 310 (step 203). ). The physiological assessment mechanism 4 can also transmit the test report 94 to the genetic analysis unit 85 for analysis by the above-described communication or logistics means to generate an analysis report 95 corresponding to the test report 94 (step 204). The analysis report 95 can be transmitted back to the physiological evaluation mechanism 4 through the above communication or logistics mode; after receiving the analysis report 95, the physiological evaluation mechanism 4 can transmit the digitized analysis report 95 to the system processing unit 3, and the system processing unit 3 will digitize The analyzed report 95 is stored in the user storage area 310 (step 205).

It should be noted that the genetic analysis unit 85 discloses a gene message of the user 9 in the analysis report 95 according to the content of the test report 94, and the disclosed gene message is substantially related to a physiological function of the user 9 (such as a genetic disease). , metabolism, digestive function, allergic reaction or nerve conduction, etc.). After the genetic analysis unit 85 provides the analysis report 95 to the physiological evaluation institution 4, the physiological evaluation mechanism 4 may combine the gene information disclosed in the analysis report 95 or the life index data 92 stored in the user storage area 310 in combination with the gene information. In turn, the user is provided with a health (or sports) management advice.

Please refer to FIG. 5, which is a schematic diagram of the architecture of the third embodiment of the creative health management system with the venue performance management function. The intelligent health management system 1000 further includes a field control device 50 disposed in a museum 5 for sensing with the wearable smart device 1 to generate a field usage data 52. The system processing unit 3 additionally has a field management database 32, which is coupled to the system processing unit 3 and is used to store site usage data 52.

Please refer to Figure 6, which is a flow chart of the operation method of the Creative Intelligent Health Management System to store the site usage data to the site management database. As shown in Figure 6, the method of operation includes the following steps:

Step 301: The venue control device 50 of the venue 5 senses the wearable smart device 1 to generate the venue usage data 52.

Step 302: The system processing unit 3 stores the venue usage data 52 in the venue management database 32.

Step 303: The system processing unit 3 counts the plurality of venue usage data 52 stored in the venue management database 32 to generate a field usage report.

Step 304: The system processing unit 3 sends the generated site usage report to the venue 5, so that the venue 5 can perform the relevant requirements of the government administration's performance management regulations.

The operation method of transmitting the site use data 52 to the system processing unit 3 by the wearable smart device 1 will be described in detail below. Please refer to Figure 6 first. First, when the user 9 enters one of the plurality of venues of the venue 5, an access control measure must be passed. In the process of the user 9 passing the access control measures, the venue control device 50 of the corresponding site senses the wearable smart device 1 of the user 9 and is triggered by the wearable smart device 1 to generate site usage data 52 corresponding to the venue (steps) 301). For example, when the user 9 passes through a gate of the venue, the worn smart bracelet must be placed close to the venue control device 50 until the venue control device 50 returns a perceptible signal (such as sound, light, vibration, etc.). The user 9 confirms that the approach is successful, and at this time, the site control device 50 simultaneously generates the site usage data 52 confirming the user 9's entry. The venue control device 50, after generating the venue usage data 52, transmits the venue usage data 52 to the system processing unit 3, enabling the system processing unit 3 to store the venue usage data 52 in the venue management database 32 (step 302).

The system processing unit 3 counts the plurality of venue usage data 52 stored in the venue management database 32 to generate a field usage report (step 303). Then, after the system processing unit 3 sends the generated site usage report to the venue 5, the venue 5 estimates the equipment wear level of the site according to the different usage rates of the respective sites disclosed in the site usage report to determine each site in the next year. The budget amount and the adjustment rate of the operating rate that need to be applied to the government authority (step 304).

Please refer to FIG. 7. FIG. 7 is a schematic structural diagram of a fourth embodiment of the creative intelligent health management system having a business function. The wearable smart device 1 can further have an identity recognition module 11 for sensing with the venue control device 50 to generate a user usage data 96. The system processing unit 3 further stores the user usage data 96 in the user storage area 310; the system processing unit 3 can further provide the user usage data 96 to a store 86. It should be noted that, in the third embodiment and the fourth embodiment of the present invention, the sensing manner between the wearable smart device 1 and the venue control device 50, and between the identity recognition module 11 and the venue control device 50 The sensing manner may be through Bluetooth transmission, radio frequency identification or near field communication, etc., but is not limited to the embodiments listed above.

Please refer to Figure 8. Figure 8 is a flow chart of the operation method of the Creative Intelligent Health Management System to transmit user usage data to the store. As shown in Figure 8, the method of operation includes the following steps:

Step 401: The venue control device 50 of the venue 5 senses the identity recognition module 11 of the wearable smart device 1 to generate user usage data 96.

Step 402: The system processing unit 3 stores the user usage data 96 in the user storage area 310 of the user database 31.

Step 403: The system processing unit 3 provides the user usage data 96 stored in the user storage area 310 to the store 86.

Step 404: The store 86 recommends the product item to the user through a commercial platform of the smart health management system 1000 according to the received user usage data 96.

The method for transmitting the user usage data 96 to the store 86 using the identity recognition module 11 will be described in detail below. Please refer to Figure 8 first. First, when the user 9 enters one of the plurality of venues of the venue 5, an access control measure must be passed. When the user controls the identity recognition module 11 of the wearable smart device 1 of the wearable smart device 1 in the process of the access control measures, the site control device 50 can be triggered by the identity recognition module 11 to User usage data 96 corresponding to the user is generated (step 401). After the site control device 50 generates the user usage data 96, the user usage data 96 is transmitted to the system processing unit 3, and the system processing unit 3 stores the user usage data 96 in the user storage area 310 of the user database 31 (steps). 402).

The system processing unit 3 can extract the user usage data 96 from the user storage area 310 automatically or according to a request from the store 86, and the system processing unit 3 can provide the user usage data 96 via the Internet 82. Store 86 (step 403). When the store 86 receives the user usage data 96, the related item can be recommended to the user via a commercial platform of the smart health management system 1000 (step 404). It is worth mentioning that the commercial platform of the smart health management system 1000 can be an online shopping mall, and the online shopping mall can be pushed by the user mobile communication device 2 by means of an application (APP). To the user, but this creation is not limited to this.

In the intelligent health management system disclosed in the present application, the wearable smart device is coupled to the system processing unit by establishing communication with the user mobile communication device; the system processing unit is further coupled to the physiological evaluation mechanism and the site control device. Through the above coupling structure, the system processing unit can not only capture the user's life index data, but also the user's genetic test report, the user's genetic analysis report, the user's use data for each site, and each Relevant data on how the site itself is used. Therefore, after the system processing unit integrates and analyzes the above information, the creative intelligent health management system can provide a comprehensive health consultation service to the user; at the same time, with the use of the user database and the venue management database, the creation of intelligent health The management system can also effectively improve the efficiency of user's personal management and venue performance management. The system processing unit can also be coupled to the store and exchange information with the store through a commercial platform; through such a pipeline, the creative intelligent health management system can also provide users with instant and accurate product information.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and various changes and modifications may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc., within the spirit and principles of this creation, shall be included in the scope of protection of this creation.

1000‧‧‧Intelligent Health Management System
1‧‧‧Wearing smart device
11‧‧‧identification module
2‧‧‧User mobile communication device
21‧‧‧User Identification Message
3‧‧‧System Processing Unit
31‧‧‧ User Database
310‧‧‧User storage area
32‧‧‧ Site Management Database
4‧‧‧Physiological assessment agency
5‧‧‧ Venues
50‧‧‧Site control device
52‧‧‧ Venue use data
81‧‧‧Communication Agreement
82‧‧‧Internet
84‧‧‧Gene testing institutions
85‧‧‧Genetic Analysis Agency
86‧‧‧Store
9‧‧‧Users
91‧‧‧Life Index
92‧‧‧Life Index data
93‧‧‧ Biological sampling
94‧‧‧Test report
95‧‧‧Analysis report
96‧‧‧User data

The first picture is a schematic diagram of the basic architecture of the creative intelligent health management system. Figure 2 is a flow chart of the operation method of the Creative Intelligent Health Management System to store the life index data to the user storage area. FIG. 3 is a schematic structural diagram of a second embodiment of the creative intelligent health management system having a physiological evaluation function. Figure 4 is a flow chart of the operation method of the creative intelligent health management system for storing the test report and the analysis report to the user storage area. Fig. 5 is a schematic diagram showing the architecture of a third embodiment of the creation of the intelligent health management system with the venue performance management function. Figure 6 is a flow chart of the operation method of the creative intelligent health management system to store the site usage data to the site management database. Fig. 7 is a schematic diagram showing the architecture of a fourth embodiment of the creative intelligent health management system having a business function. Figure 8 is a flow chart of the operation method of the creative intelligent health management system for transmitting user usage data to the store.

Claims (9)

An intelligent health management system comprising: a wearable smart device for measuring a life index of a user and generating a life index data corresponding to a life index; a user mobile communication device having a user identity a system processing unit having a user database; wherein the wearable smart device transmits the life index data generated by the wearable smart device to the user mobile communication device through a communication protocol; wherein the use The mobile communication device transmits the life index data and the user identification message transmitted to the user mobile communication device to the system processing unit via an internetwork; wherein the system processing unit identifies the message according to the user identity A user storage area is opened in the user database, and the system processing unit stores the life index data in the user storage area. The intelligent health management system of claim 1, further comprising: a physiological evaluation mechanism for receiving a biological sample from the user and sending the biological sample to a genetic testing institution, the genetic testing institution according to the biological Sampling produces a test report and sends the test report back to the physiological assessment facility. The intelligent health management system of claim 2, wherein the system processing unit further stores the detection report in the user storage area. The intelligent health management system according to claim 2, wherein the physiological evaluation institution sends the detection report to a genetic analysis institution, and the genetic analysis institution generates an analysis report according to the detection report and returns the analysis report to the physiological evaluation. mechanism. The intelligent health management system of claim 4, wherein the system processing unit further stores the analysis report in the user storage area. The intelligent health management system of claim 1, further comprising a field control device for sensing with the wearable smart device to generate a field usage data, wherein the system processing unit has another field management A database, the site management database is used to store the site usage data. The smart health management system of claim 6, wherein the wearable smart device has an identity recognition module, and the identity recognition module is configured to sense with the venue control device to generate a user usage data, and the system The processing unit further stores the user usage data in the user storage area. The smart health management system of claim 1, further comprising a field control device, wherein the wearable smart device has an identity recognition module, and the identity recognition module is configured to sense with the site control device to generate a use The data is used, and the system processing unit further stores the user usage data in the user storage area. The intelligent health management system according to claim 7 or 8, wherein the system processing unit further provides the user usage data to a store.