KR101768715B1 - System for caring Human Hearts Health - Google Patents

Abstract

Embodiments of the present invention provide a bio-index measuring device for measuring bio-index including a user's heart rate index; A smartphone for transmitting the heart rate index to a general health care server and receiving and displaying a heart disease name determined according to the heart rate index; And a comprehensive health care server having a heart disease name assigned to the heart beat index and extracting a disease name assigned to the heart rate index received from the smartphone and transmitting the extracted disease name to the smartphone.

Description

System for caring Human Hearts Health "

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a human heart and a comprehensive health check system which enables a human heart to be self-checked and further managed as a comprehensive health.

People living in modern society are inevitably exposed to a lot of stress. In general, stress is recognized as a source of panic, especially when these stresses are not solved immediately and accumulation continues, it causes depression, helplessness, In extreme cases such as suicide, violence or murder, you can do it. In recent years, suicide and murder by these mental problems have become more and more social problems.

In particular, depression, anxiety, and helplessness are mainly encountered in examinees who are exposed to high stress, housewives after childbirth, and elderly people living alone. Currently, the treatment of mental disorders such as depression, anxiety, And are regularly provided with counseling and treatment.

Therefore, since the patient's condition can not be continuously checked, it is difficult for effective treatment to be performed, and it is difficult to cope with extreme behavior due to sudden impulse or stress. Thus, not only physical health condition but also mental health condition is systematic It is necessary to have a way to identify and manage it.

In connection with this health care, the user transmits his / her medical information and personal health information measured by the personal medical measurement device to the medical support server through the user's computer, and judges whether the health condition is abnormal or heavy A health management system and a control method thereof (Korean Patent Registration No. 0397490) for providing medical support services by a medical staff have been proposed.

However, existing healthcare systems such as home health care or u-Health care have a problem that they are used only as health care means without concentrating on the human heart. Especially, when a human heart disease such as a myocardial infarction is life-threatening, there is a problem that the heart disease of the human body can not be grasped in real time.

In addition, existing health care systems such as home health care or u-health care have problems in that the health management is performed by focusing on the user's bio index, have.

In addition, existing health care systems such as home health care or u-health care are only effective in health management by measuring the bio-index only and taking into account the mental index such as stress and the user's surrounding environment. There is a problem that is not possible.

Korean Patent No. 0397490

SUMMARY OF THE INVENTION The present invention provides a system for easily recognizing a disease of a human heart by utilizing a smartphone. The technical problem of the present invention is to provide a human heart and a comprehensive health check system that can manage health comprehensively and provide health prescription and diagnosis prescriptions promptly. The technical problem of the present invention is to provide a private prescription registered by an individual.

Embodiments of the present invention provide a bio-index measuring device for measuring bio-index including a user's heart rate index; A smartphone for transmitting the heart rate index to a general health care server and receiving and displaying a heart disease name determined according to the heart rate index; And a comprehensive health care server having a heart disease name assigned to the heart beat index and extracting a disease name assigned to the heart rate index received from the smartphone and transmitting the extracted disease name to the smartphone.

The smartphone receives the biometric index from the bioindicator and transmits the biometric index together with the measured surrounding index to the general health management server. The smartphone receives the private prescription content for private prescribing according to the disease name from the user, Receives the disease name received from the comprehensive health care server and the diagnostic prescription content capable of coping with the diagnosed disease,

Wherein the smartphone comprises: a bio-index measuring unit communication unit connected to the bio-index measuring unit by wire communication or wireless communication; An environmental measurement sensor for measuring the environmental index; A display unit for displaying a disease name received from the comprehensive health care server, diagnostic prescription contents capable of coping with the diagnosed disease, and surrounding environment adjustment values; And transmitting the bioindex received from the bioindex meter and the surrounding environment index received from the environmental measurement sensor to the general health management server by controlling the bioindex measuring instrument communication unit, the environmental measurement sensor, and the display unit, And a health management application for receiving a disease name, a diagnosis prescription content, and a surrounding environment adjustment value and displaying the health care application through the display unit.

Wherein the comprehensive health care server extracts a disease name assigned to a biometric index received from the smartphone and extracts a diagnostic prescription content assigned to the determined disease name, The surrounding environment adjustment value is determined in consideration of the surrounding environment index received from the phone, and the disease name, the diagnostic prescription content, and the surrounding environment adjustment value may be transmitted to the smartphone.

Wherein the comprehensive health care server comprises: a server communication unit for receiving a biometric index, an ambient environment index, and a private prescription content from the smartphone; Name of disease by biochemical index. A bio-exponent allocation storage unit in which a diagnostic prescription content and an optimal environmental index are assigned and stored; A disease name extracting unit for extracting, from the biometric index allocation storage unit, a disease name assigned to the biometric index received from the smartphone; A diagnostic prescription contents extracting unit for extracting diagnostic prescription contents allocated to the extracted disease name from the bioexposure allocation storing unit; An ambient environment adjustment value determining unit for extracting an optimal environmental index by disease name and determining a difference value between the optimal environmental index and the surrounding environmental index as the surrounding environmental adjustment value; And a diagnostic result transmitting unit transmitting the disease name, the diagnostic prescription content, and the surrounding environment adjustment value to the smartphone.

The smartphone includes an input unit for inputting a private prescription content for a private name prescribed by a disease name from a user. The general health care server registers the private prescription content received from the smartphone for each disease name of the user, Extracts the private prescription contents assigned to the determined disease name, and transmits the selected contents to the smartphone, and the display unit of the smart phone can display the private prescription contents received from the comprehensive health care server.

The general health care server includes a private prescription contents storage unit storing private prescription contents received from the smartphone for each disease name; And a private prescription contents extracting unit for extracting private prescription contents assigned to the extracted disease name, wherein the diagnosis result transmitting unit, when requested by the user, displays the prescription contents with the disease name, diagnostic prescription contents, And may transmit the private prescription content to the smartphone.

Wherein the display unit displays a content input interface window for inputting a private prescription content created by a user together with a disease name, and the healthcare application displays the private prescription content created by the user, together with the disease name, Lt; / RTI >

Wherein the smartphone includes a normal exponent range database in which a predetermined exponent range preset for each biometric index is registered, and the health management application determines whether a difference between a measured exponent range and a normal exponent range is smaller than a predetermined threshold The biometric index can be transmitted to the medical hospital server to request the medical care.

Wherein the human heart and general health check system comprises a home network controller for controlling an ambient conditioner including an air conditioner, a boiler, and a humidifier, wherein the health care application comprises: So that the surrounding environment adjustment value is reflected.

The health management application re-measures the surrounding environment index after a predetermined time has elapsed after the control of the surrounding environment controller and transmits the re-measured index to the comprehensive health management server. And the ambient environment controller may be controlled by feedback of the environmental control value.

The biomedical index may include at least one of stress value, diabetic value, heart rate, blood velocity, blood pressure, psychiatric diagnosis data, and body temperature.

According to the embodiment of the present invention, the health care can be efficiently performed by managing the cardiac diseases comprehensively using the smart phone and immediately receiving the diagnosis of the health abnormality and the diagnosis prescription thereof.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a human heart and a general health check system according to an embodiment of the present invention; FIG.
FIG. 2 is a view showing a user measuring a biomedical index of a heartbeat according to an embodiment of the present invention. FIG.
3 is a block diagram of a configuration of a smartphone according to an embodiment of the present invention;
4 is a block diagram of a configuration of a general health care server according to an embodiment of the present invention;
FIG. 5 is a diagram showing a state in which a healthcare application is executed according to an embodiment of the present invention; FIG.
6 is a view showing a display window displaying a diagnosis prescription, a disease name, and the like according to an embodiment of the present invention.
FIG. 7 illustrates a content input interface window displayed on a smartphone according to an embodiment of the present invention; FIG.
FIG. 8 is a view illustrating a control using a home network controller according to an embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a configuration diagram of a human heart and a general health check system according to an embodiment of the present invention. FIG. 2 is a view showing a state in which a user measures a living body index of a heartbeat according to an embodiment of the present invention, FIG. 3 is a configuration block diagram of a smartphone according to an embodiment of the present invention. FIG. 4 is a block diagram of a general health care server according to an embodiment of the present invention. FIG. 6 is a diagram illustrating a display window displaying a diagnosis prescription, a disease name, and the like according to an embodiment of the present invention. FIG. 7 is a diagram illustrating a display window of a smartphone according to an embodiment of the present invention. And a content input interface window to be displayed.

Home health care or u-health care services measure biometric information using various measuring devices in the home without visiting patients, and receive medical services remotely based on the results .

In order for the patients to receive the medical service remotely, the health management device, which is the patient terminal, collects the patient's living body index in the home and transmits it to a management server such as a hospital server or a healthcare center.

However, the existing health management method only transmits the measured bioindex, and does not automatically receive a prescription appropriate for it. Accordingly, the present invention grasps a user's disease according to a living body index measured using the smart phone 200, and provides diagnostic prescription contents accordingly. It is also implemented to provide private prescription content that is registered separately for each user rather than a common diagnostic prescription content. Since the prescription may be different according to each constitution of each individual user, the private prescription contents registered directly by the user in the comprehensive health management server 400 are provided according to the identified disease.

For this, the present invention can include a wired / wireless communication network 100, a bio-index measuring device 300, a smart phone 200, and a comprehensive health management server 400.

The wired / wireless communication network 100 is a communication network that provides wired communication or wireless communication between the smart phone 200, the comprehensive health care server 400, and the medical hospital server 500. When the wired / wireless communication network 100 is implemented as a wireless communication network, a wireless mobile communication network including a base transceiver station (BTS), a mobile switching center (MSC), and a home location register (HLR) So that data communication can be performed. For reference, a mobile radio communication network includes, in addition to a base station (BTS), a mobile switching center (MSC), and a home location register (HLR), an access gateway (Access Gateway) Data Serving Node), and the like. In addition, when the wired / wireless communication network 100 (100) is implemented as a wired communication network, it can be implemented as a network communication network, and data communication can be performed according to an Internet protocol such as Transmission Control Protocol / Internet Protocol (TCP / IP).

The bio-index measuring unit 300 is a module for measuring a bio-index of a user. The bioindicator 300 is connected to a USB port of the smartphone 200, an earphone jack, or the like via a short-range wireless communication or a wired USB communication, thereby measuring a user's bioindex. For example, when the bioindicator 300 is implemented as a pacemaker, the heart rate of the user is measured as a pacemaker as shown in FIG. 2, and the measured heart rate index is transmitted to the smartphone 200.

The measured biological index may include at least one of heart rate, stress level, diabetes level, heart rate, blood velocity, blood pressure, and psychiatric diagnosis data. A variety of bioindexes 300 that can measure health can be used although not described elsewhere. For example, a stress index measuring instrument for measuring a stress value measures a balance state between a sympathetic nerve and a parasympathetic nerve and measures the stress index. Stress is a measure of the balance of autonomic nervous function. The balance of the sympathetic and parasympathetic nerves needs to be determined. For this purpose, the stress index measuring device measures pulse waves, changes in pulse rate based on the average pulse of the lowest pulse and the highest pulse, The pulse diversity is checked, and the stress index is calculated and output. The stress index calculation can be expressed as a stress value by analyzing a RRI (R-R Peak Interval) measurement value (FFT processing) detected by HRV (Power Rate Variability) and performing Power Spectrum analysis.

In addition, the stress index can be measured through a thermal sensation using a thermometer or the like.

In addition, the psychiatric diagnosis data may display a question item related to the mental state measurement on the smart phone 200, select one of the answers from the user, and output the psychiatric diagnosis data according to the contents of the selected answer.

The smartphone 200 receives the biometric index including the heart rate index from the bioindex meter 300 and transmits it to the general healthcare management server 400 together with the measured surrounding indexes. The smartphone 200 transmits a private prescription The content is input from the user and is transmitted to the comprehensive healthcare management server 400. And also receives and displays the disease name received from the comprehensive health management server 400 and the diagnostic prescription content capable of coping with the diagnosed disease.

The smart phone 200 may be portable terminals such as a tablet PC and a slate PC as well as various terminals capable of installing and executing applications, as well as the smart phone 200.

3, the smartphone 200 includes a terminal RF communication unit 220, a living body index measuring device communication unit 230, an environment measurement sensor 240, a display unit 250, an input unit 260, (210). In addition, it may further include a normal exponent range database 270.

The terminal RF communication unit 220 is a module that performs a function of communicating with an external comprehensive health management server 400 or a medical hospital server 500 through a mobile communication network. When performing mobile communication such as 3G or 4G, An RF transmitter (not shown) for up-converting and amplifying the frequency of a wirelessly transmitted signal, an RF receiver (not shown) for low-noise amplifying the received radio signal and down-converting the frequency of the received radio signal, and the like.

The living body index measuring instrument communication unit 230 is connected to the living body index measuring apparatus 300 through wire communication or wireless communication and receives data. In case of wired reception, it can be received via USB cable by USB communication, and when it is wirelessly received, it can be received through short range wireless communication module like bluetooth.

The environment measurement sensor 240 measures the ambient environment index. Here, the surrounding environmental index may be an environmental value around the smartphone 200, such as temperature, humidity, fine dust, and the like. These measurements are to measure the temperature around the user to determine if the user is hot or cold, have a lot of fine dust, and have a high humidity, and control them with appropriate environmental values.

The display unit 250 displays the disease name received from the comprehensive health care server 400, diagnostic prescription contents capable of coping with the diagnosed disease, and surrounding environment adjustment values as shown in FIG.

Also, as shown in Fig. 7, the display unit 250 displays a content input interface window for inputting the private prescription content created by the user together with the disease name. For example, if the blood pressure of the user A is high, and the blood pressure of the onion is low, the word 'onion intake' may be regarded as the private prescription contents of the user A. If the blood pressure of the user A is high, and the blood pressure is low when the head is turned backward, an image image in which the head is tilted backward may be regarded as private prescription contents of the user B. As described above, the prescription content of the private prescription is a prescription registered by each user, and may be different for each user, and may have various forms such as image contents, audio contents, and text contents.

The input unit 260 receives the private prescription contents to be prescribed by the user from the user for each disease name. When the input unit 260 and the display unit 250 are implemented as a single touch screen panel, the private prescription content can be input from the user through the content input interface window shown in FIG. 7 displayed on the touch screen panel. The touch screen panel is a display window provided on the front surface of the terminal to provide a touch screen screen capable of simultaneously performing input and display, and is a display window for displaying a work screen. The graphical user interface (GUI) Interface.

5, the health management application 210 displays the bio-index measuring device communication unit 230, the environment measurement sensor 240, and the display unit 250, when the execution icon A of the healthcare application 210 shown in FIG. And transmits the bioindex received from the bioindex measuring device 300 and the surrounding environment index received from the environmental measurement sensor 240 to the comprehensive health management server 400 by controlling the bioindex. In addition, the healthcare application 210 transmits the private prescription content created by the user together with the disease name to the general healthcare management server 400. Also, the health care application 210 receives the disease name, the diagnostic prescription content, and the surrounding environment adjustment value from the comprehensive health management server 400 and displays it on the display unit 250 as shown in FIG. The smart phone 200, unlike the conventional mobile phone, can install, add or delete programs of various applications (application programs) as desired by the user, It can be created, and various interfaces can be implemented through various applications. Therefore, the healthcare application 210 can be downloaded from the Google market, Apple store, or the like and installed in the smartphone 200.

The comprehensive health management server 400 extracts the disease name assigned to the heart rate index received from the smartphone and transmits the name to the smart phone.

The name of the disease can be obtained by obtaining the data based on the sound of the heart and informing the health index with a real time smartphone. You can listen to the vibration of the heartbeat about the high and low of the heart, provide the sound according to the sound, and provide the name of the heart disease. Therefore, the sound of the heart, such as the sound of lungs to detect every corner of the body, you can see whether it is healthy.

Further, the comprehensive health care server 400 can obtain a stress value by performing a thermal sensation through the received body temperature index. You can check if it is overworked and provide it to your smartphone. You can also provide a prescription like removal of fatigue material.

In addition, the comprehensive healthcare management server 4000 extracts the disease name assigned to the biometric index received from the smartphone 200, the diagnostic prescription content is assigned to each disease name, extracts the diagnostic prescription content assigned to the determined disease name And determines the surrounding environment adjustment value in consideration of the surrounding environment index received from the smartphone 200. The comprehensive health care server 400 also transmits the disease name, the diagnostic prescription content, and the surrounding environment adjustment value to the smart phone 200 The comprehensive health management server 400 registers the private prescription contents received from the smartphone 200 by the disease name of the user and extracts the private prescription contents allocated to the determined disease name, (200).

4, the comprehensive health management server 400 includes a server communication unit 410, a bio index assignment storage unit 470, a disease name extraction unit 420, a diagnostic prescription content extraction unit 430, An environment adjustment value determination unit 440, and a diagnosis result transmission unit 450. [ In addition, a private prescription contents storage unit 480 and a private prescription contents extraction unit 460 may be further included.

The server communication unit 410 receives the biometric index, the peripheral environment index, and the private prescription contents from the smartphone 200. To this end, a hardware and software protocol is connected to the wired / wireless communication network 100 to enable communication with the smart phone 200 and the smart phone 200. For example, data communication can be performed according to an Internet protocol such as TCP / IP (Transmission Control Protocol / Internet Protocol).

The bio-index assignment storage unit 470 stores the name of the disease by bio index. Diagnostic prescription contents, and optimal environmental index. The above-mentioned diagnostic prescription contents may be image contents, audio contents, and text contents, which are medically proven prescriptions and can be commonly applied to treat diseases in public.

The name of the disease according to the blood pressure biometric index as an example of the biometric index allocation storage unit 470 is shown in Table 1 below. For reference, other biomedical indices such as body temperature, heart rate index, stress index and the like are stored in the database as well as the corresponding disease names.

Blood pressure bio index
Disease name

Diagnostic prescription content

Optimal Environmental Index
80 [mmHg] or less

Hypotension

Diagnostic Prescription 1st Content

The first temperature value
The first humidity value


80 to 120 [mmHg]


normal
-
-

Above 130 [mmHg]

High blood pressure

Diagnostic prescription second content
The second temperature value
The second humidity value

The disease name extracting unit 420 extracts the disease name assigned to the biometric index received from the smartphone 200 from the biometric index allocation storage unit 470.

The diagnostic prescription contents extraction unit 430 extracts the diagnostic prescription contents allocated to the extracted disease name from the biological index allocation storage unit 470.

The surrounding environment adjustment value determination unit 440 extracts an optimal environment index according to the disease name and determines a difference value between the optimal environment index and the surrounding environment index as the surrounding environment adjustment value. For example, when the second temperature value of the optimal environmental index allocated to the smartphone 200 is determined to be 'hypertensive', the temperature of the ambient environment index received from the smartphone 200 is 30 ° C , 7 ° C, which is obtained by subtracting the ambient environmental index 30 ° C from the optimum environmental index 23 ° C, may correspond to the ambient environmental control value.

The private prescription contents storage unit 480 is a database storing private prescription contents received from the smart phone 200 by disease name.

The private prescription content extracting unit 460 extracts the private prescription contents allocated to the extracted disease name.

The diagnostic result transmitting unit 450 transmits the disease name, the diagnostic prescription content, and the surrounding environment adjustment value to the smartphone 200. In addition, the diagnostic result transmitting unit 450 transmits the private prescription contents to the smartphone 200 together with the disease name, the diagnostic prescription content, and the surrounding environment adjustment value when the user requests the service. Thus, the user can download his / her own private prescription previously registered in accordance with his / her health condition, and thus, efficient health management becomes possible.

Meanwhile, the human heart and the comprehensive health check system may further include a medical hospital server 500 operated by a hospital. The medical hospital server 500 is a server operated by a hospital, and can receive a medical care request from the smartphone 200. To this end, the smart phone 200 may include a normal exponent range database 270 in which a predetermined exponent range preset for each biometric index is registered.

The health management application 210 of the smart phone 200 sends a biometric index to the medical hospital server 500 to request a medical care when the measured biometric index deviates from the set normal index range to a predetermined threshold value. For example, when the normal exponent range of the blood pressure is 80 to 120 [mmH] and the threshold is 40 [mmH], when the measured blood pressure biometric index is supra hypertension such as 170 [mmH] The healthcare management application 210 transmits the blood pressure biometric index to the medical hospital server 500 to request a medical care since the difference value is 50 [mmH] and exceeds the threshold value 40 [mmH]. The medical hospital server 500 receiving the medical care request makes a remote video medical treatment with the user, or induces the user to come to the hospital to perform the medical examination.

On the other hand, the human heart and general health check system includes a home network controller 600 that controls an environment controller 700 including an air conditioner, a boiler, and a humidifier, as shown in FIG.

The comprehensive health management server 400 transmits the environment index adjustment value to the smartphone 200 and the health management application 210 of the smartphone 200 transmits the environmental index adjustment value to the environment environment controller 700 through the home network controller 600 ) So that the surrounding environment adjustment value is reflected.

For example, when the environmental index control value of the hypertensive patient is -7 ° C, the air conditioner is operated by controlling the home network controller 600 so as to be lowered from the current temperature to -7 ° C.

The control of the home network controller 600 is fed back in real time so that accurate control can be performed. To this end, the health management application 210 re-measures the surrounding environment index after a predetermined time has elapsed after the control of the surrounding environment controller 700 and transmits the re-measured index to the comprehensive health management server 400, And controls the surrounding environment controller 700 by receiving feedback of the surrounding environment adjustment value from the comprehensive health management server 400. [

The embodiments of the present invention described above are selected and presented in order to facilitate the understanding of those skilled in the art from a variety of possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

100: wired / wireless communication network 200: user terminal
300: bio-index measuring instrument 400: comprehensive health management server
500: medical hospital server 600: home network controller
700: Temperature conditioner

Claims (10)

A bioindicator for measuring a bioindex including a user's heart rate index;
A smartphone for transmitting the heart rate index to a general health care server and receiving and displaying a heart disease name determined according to the heart rate index; And
And a comprehensive health management server for extracting a disease name assigned to the heart rate index received from the smartphone and transmitting the extracted disease name to the smartphone,
The smartphone receives the biometric index from the bioindicator and transmits the biometric index together with the measured surrounding index to the general health management server. The smartphone receives the private prescription content for private prescribing according to the disease name from the user, Receives the disease name received from the comprehensive health care server and the diagnostic prescription content capable of coping with the diagnosed disease,
Wherein the comprehensive health care server extracts a disease name assigned to a biometric index received from the smartphone and extracts a diagnostic prescription content assigned to the determined disease name, Determining the surrounding environment adjustment value in consideration of the surrounding environment index received from the phone, transmitting the disease name, the diagnostic prescription content, and the surrounding environment adjustment value to the smartphone,
Wherein the smartphone comprises: a bio-index measuring unit communication unit connected to the bio-index measuring unit by wire communication or wireless communication; An environmental measurement sensor for measuring the environmental index; A display unit for displaying a disease name received from the comprehensive health care server, diagnostic prescription contents capable of coping with the diagnosed disease, and surrounding environment adjustment values; And transmitting the bioindex received from the bioindex meter and the surrounding environment index received from the environmental measurement sensor to the general health management server by controlling the bioindex measuring instrument communication unit, the environmental measurement sensor, and the display unit, And a health management application for receiving a disease name, a diagnosis prescription content, and a surrounding environment adjustment value and displaying the received health condition application through the display unit,
Wherein the comprehensive health care server comprises: a server communication unit for receiving a biometric index, an ambient environment index, and a private prescription content from the smartphone; Name of disease by biochemical index. A bio-exponent allocation storage unit in which a diagnostic prescription content and an optimal environmental index are assigned and stored; A disease name extracting unit for extracting, from the biometric index allocation storage unit, a disease name assigned to the biometric index received from the smartphone; A diagnostic prescription contents extracting unit for extracting diagnostic prescription contents allocated to the extracted disease name from the bioexposure allocation storing unit; An ambient environment adjustment value determining unit for extracting an optimal environmental index by disease name and determining a difference value between the optimal environmental index and the surrounding environmental index as the surrounding environmental adjustment value; And a diagnostic result transmitting unit for transmitting the disease name, diagnostic prescription contents, and surrounding environment adjustment values to the smartphone,
The human heart and comprehensive health self-check system includes a home network controller that controls an ambient conditioner including an air conditioner, a boiler, and a humidifier,
Wherein the health management application controls the surrounding environment controller through the home network controller to reflect the surrounding environment control value.
delete delete The method according to claim 1,
The smartphone includes an input unit for receiving, from a user, private prescription contents prescribing a disease by disease name,
The comprehensive health care server registers private prescription contents received from the smartphone for each disease name of the user, extracts private prescription contents assigned to the determined disease name, and transmits the extracted private prescription contents to the smartphone,
Wherein the display unit of the smartphone displays a private prescription content received from the general health care server.
The health management system according to claim 1,
A private prescription contents storage unit in which private prescription contents received from the smartphone are stored according to disease names;
And a private prescription contents extracting unit for extracting a private prescription content assigned to the extracted disease name,
Wherein the diagnostic result transmitting unit transmits the private prescription contents to the smartphone together with the disease name, the diagnostic prescription content, and the surrounding environment control value when the user requests the check.
The method of claim 5,
The display unit displays a content input interface window for inputting a private prescription content created by a user together with a disease name,
And the health care application transmits the private prescription content created by the user together with the disease name to the comprehensive health management server.
The method according to claim 1,
The smartphone includes a normal exponent range database in which a normal exponent range preset for each biometric index is registered,
Wherein the health management application transmits the biometric index to a medical hospital server when a difference between the measured biometric index and a normal index range is out of a preset threshold value to request a medical care.
delete The method according to claim 1,
The health management application re-measures the surrounding environment index after a predetermined time has elapsed after the control of the surrounding environment controller and transmits the re-measured index to the comprehensive health management server. A human heart and a general health check system for controlling the peripheral environment controller by receiving feedback of the environment control value.
[2] The method according to claim 1,
A human heart and a comprehensive health check system comprising at least one of heart rate index, stress level, diabetes level, blood velocity, blood pressure, psychiatric diagnosis data, and body temperature.

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