JP2012203590A - Total health support system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a total health support system capable of objectively determining a stage of autonomic nerve balance of a user and performing fine coping corresponding to the stage of each user.SOLUTION: The total health support system comprises: a communication terminal 2 connected to a sensor 1 capable of measuring a heartbeat interval; an autonomic nerve analysis server device 4 connected to the communication terminal 2 through the Internet 3, for analyzing the autonomic nerve balance by the heartbeat interval; an ASP server device 5 provided with a check function for checking the stage of the autonomic nerve balance on the basis of an analysis result, provided with a coping program corresponding to the stage of the autonomic nerve balance, and connected to the autonomic nerve analysis server device; and a mental check server device 6 provided with an inquiry function for distributing an inquiry corresponding to the stage of the autonomic nerve balance by the check function of the ASP server device 5, provided with a program notification function for selecting and notifying the coping program of the ASP server device 5 by an inquiry result, and connected to the ASP server device 5.

Description

  The present invention relates to a total health support system that cares for mental and physical fatigue by continuously measuring a user's autonomic balance.

Conventionally, there is stress care centered on relaxation training while checking vital signs such as heartbeats and electrocardiograms, and stress checks by inquiry (Japanese Patent Laid-Open No. 2009-82299).
Such prior art is based on fragmentary information about the person's activity time, so physical or mental upsets are either transient or continuous. It is difficult to judge. For example, if you are in a state of hangover or cold, if you measure your heart rate or electrocardiogram at such time, it is determined that there is a malfunction. Also, the cause of fatigue is approached only from one side, which is said to be physical or mental. Since the same question is uniformly asked, it is not the content of the question according to the user, but the number of interviews is large, the user's social status, and accurate interviews from the standpoint within the company Results are not obtained, and it is difficult to judge the physical and mental states of individual users.

JP 2009-82299 A

  In the prior art described above, the judgment of the physical or mental malfunction of the user is fragmented, so that an objective judgment of the physical or mental state of the user cannot be made, and the individual user Based on the judgment of the cause of physical or mental malfunction according to the situation, detailed response was not possible for each user.

  An object of the present invention is to provide a total health support system that can objectively and continuously determine a mental or physical malfunction of a user and can take countermeasures according to the individual user.

  The present invention relates to a communication terminal connected to a sensor capable of measuring a user's heartbeat interval, an autonomic nerve analysis server device connected to the communication terminal via the Internet, and analyzing an autonomic nerve balance based on the user's heartbeat interval; In addition to providing a check function for checking the level of the user's autonomic nerve balance based on the analysis result by the autonomic nerve analysis server device, a corresponding program according to the level of the user's autonomic nerve balance is provided. An ASP server device connected to the device and a check function of the ASP server device provide an inquiry function that distributes an inquiry according to the stage of the user's autonomic nerve balance to the user's communication terminal, and uses this inquiry result Provided with a program notification function for selecting and notifying the corresponding program of the ASP server device to the communication terminal of the user A total health support system is characterized in that a mental check server device connected to the ASP server.

  In the total health support system according to the present invention, when a user measures his / her heartbeat interval with a sensor and transmits the heartbeat interval to the autonomic nerve analysis server device via the communication terminal, the user uses the autonomic nerve analysis server device. The person's autonomic balance is analyzed. The analysis result of the autonomic nerve balance is transmitted to the ASP server device, and the check function of the ASP server device uses the autonomic nerve balance of the user based on the analysis result continuously acquired over a plurality of days (multiple times). The stage is checked. Depending on the level of the autonomic nerve balance of the user, the inquiry content of the mental check server device connected to the ASP server device is sent to the user's communication terminal, and the mental check is performed by answering this question. The server device notifies the corresponding program of the ASP server device. In this way, the user analyzes the autonomic balance by measuring his / her heart rate interval, so the stage of the autonomic nerve balance is objectively understood, and an inquiry is conducted at this autonomic nerve balance stage. Since the response program is distributed from the mental check server device according to the result of the inquiry, a detailed response based on the judgment of the cause of physical or mental malfunction according to each user can be performed for each user.

  According to the present invention, the stage of the user's autonomic nerve balance can be objectively determined, which is easy to understand and can be handled in a detailed manner according to the individual stage of the user, which is convenient.

It is the schematic which shows one Example of the total health support system which concerns on this invention. FIG. 2 is an explanatory diagram showing a flowchart of the total health support system shown in FIG.

An embodiment of a total health support system according to the present invention will be described with reference to FIGS.
As shown in FIG. 1, the total health support system according to the present invention is connected to a communication terminal 2 connected to a sensor 1 capable of measuring a user's heartbeat interval, and to the communication terminal 2 via the Internet 3, An autonomic nerve analysis server device 4 that analyzes the autonomic nerve balance based on the user's heartbeat interval, and a check function that checks the stage of the user's autonomic nerve balance based on the analysis result by the autonomic nerve analysis server device 4, A corresponding program according to the stage of the user's autonomic nerve balance is provided, and the ASP server apparatus 5 connected to the autonomic nerve analysis server apparatus 4 and the check function of the ASP server apparatus 5 are used to enter the stage of the user's autonomic nerve balance. In addition to providing an inquiry function for distributing the corresponding inquiry to the user's communication terminal 2, the user's communication terminal 2 is determined based on the result of the inquiry. Is provided with a program notification function for selecting and notifying the corresponding program of the ASP server device 5, and a mental check server device 6 connected to the ASP server device 5.

The sensor 1 is a device that can measure the heartbeat interval of the user, and can measure the heartbeat by contacting the user's body. When measuring a user's heart rate, for example, it is measured from an electrocardiogram or a pulse wave.
The user's heart rate is continuously measured at least a plurality of times since the stage of the user's autonomic nerve balance, for example, the degree of fatigue, is determined by relative change or period average. The measurement location is measured, for example, every day at work or at home.

  The heart rate information of the user measured by the sensor 1 is transmitted to the autonomic nerve analysis server device 4 from the communication terminal 2 such as a PC or a mobile phone via the Internet 3. The autonomic nerve analysis server device 4 is provided with an analysis program for analyzing the user's autonomic nerve balance based on the user's heartbeat information transmitted from the communication terminal 2.

The analysis program of the autonomic nerve analysis server device 4 calculates a heart rate interval from the user's heart rate information, and calculates a low frequency component (LF) and a high frequency component (HF) from the heart rate interval by frequency analysis.

The user's autonomic balance is analyzed by the low frequency component and the high frequency component. Specifically, when a numerical value is calculated by the low frequency component (LF) / high frequency component (HF), this numerical value reflects the sympathetic nerve function (tension), and the high frequency component (HF) indicates the parasympathetic nerve (relaxation). Reflects. It is known that the degree of fatigue has a positive correlation with the numerical value of the low frequency component (LF) / high frequency component (HF) and a negative correlation with the high frequency component (HF).

It has also been found that in the case of depression, the low frequency component (LF) is low compared to healthy individuals. Such contents are established as a means for displaying the degree of fatigue.

Therefore, when the user measures a pulse wave, for example, the numerical value of the low frequency component (LF) / high frequency component (HF) is calculated from the heartbeat interval. Then, multiple pulse wave measurements can display a number of low-frequency component (LF) / high-frequency component (HF) values, with the display location rising to the right and the high-frequency component (HF) value falling to the right. Then, it is judged that the user has a high degree of fatigue. Also, if the user's low frequency component (LF) is low, the possibility of depression is determined.

In this manner, the autonomic nerve analysis server device 4 analyzes the autonomic nerve balance based on the low frequency component and the high frequency component according to the heartbeat interval of the user. Therefore, analysis of the user's autonomic balance can be performed based on objective numerical values.

  The analysis result of the user's autonomic balance from the autonomic nerve analysis server device 4 is sent to the ASP server device 5. The ASP server device 5 includes a check function for checking the stage of the user's autonomic nerve balance based on the analysis result of the user's autonomic nerve balance continuously accumulated from the autonomic nerve balance analysis server device 4, and the user Corresponding programs according to the stage of autonomic nervous balance.

  The ASP server device 5 can eliminate a judgment made of a temporary factor by checking based on the analysis result of the autonomic nerve balance accumulated continuously.

  As shown in FIG. 2, the ASP server device 5 checks, for example, normal, daily fatigue, chronic fatigue and stage in the check function based on the analysis result of the user's autonomic nerve balance, For chronic fatigue, check the early stage, middle stage, treatment stage and stage.

  In addition, as a corresponding program, for example, a mental care service, a fatigue care service, a counseling service, and a mental training service are provided.

  The mental check server device 6 connected to the ASP server device has an inquiry function (counseling) distributed to the user's communication terminal 2 and a program corresponding to the ASP server device 5 in the user's communication terminal 2 based on the inquiry result. A program notification function for selecting and notifying is provided.

  The inquiry function distributes the contents of the inquiry to the communication terminal 2 of the user when it is determined that an inquiry is necessary according to the stage of the autonomic nerve balance of each user. The contents of this interview vary from individual user to individual user, making it possible to conduct detailed interviews. In addition, there is also a function that allows the inquiry to be performed multiple times at the request of the user.

In the program notification function, the contents of the program are selected according to the stage of the autonomic nerve balance of each user based on the inquiry result, and the program is notified to the communication terminal 2 of the user.

In such a total health support system, as shown in FIG. 2, the heart rate of the user is measured by the sensor 1 and transmitted from the communication terminal 2 to the autonomic nerve analysis server device 4. The autonomic nerve analysis server device 4 analyzes the autonomic nerve balance based on the user's heartbeat interval.
The analysis program of the autonomic nerve analysis server device 4 calculates a heart rate interval from the heart rate information of the user, calculates a low frequency component (LF) and a high frequency component (HF) from the heart rate interval by frequency analysis, The user's autonomic balance is analyzed by the low frequency component and the high frequency component.
This user's heart rate can be measured more than once, so that a more accurate analysis of the autonomic nerve balance can be performed without transient effects.

Based on the analysis result of the analysis of the autonomic nerve balance, the stage of the user's autonomic nerve balance is checked by the check function of the ASP server device 5.
In other words, as shown in Fig. 2, the normal, day-limited fatigue, and chronic fatigue stages are checked. The
When it is determined to be normal, the mental check server device 6 distributes, for example, a health advice, specifically a program of advice related to health, from the corresponding program of the ASP server device 5 to the user's communication terminal. .

  Next, in the case of fatigue limited to the day, the mental check server device 6 distributes, for example, a recovery program from the corresponding program of the ASP server device 5 to the user's communication terminal. Therefore, the fatigue level can be recovered.

  When it is determined that it is chronic fatigue, it is determined whether it is an initial stage, a middle stage, or a treatment stage, and when it is determined that it is an initial stage, the mental check server device 6 uses the corresponding program of the ASP server device 5 to A recovery program suitable for the user is selectively distributed by the program notification function, or the inquiry content is distributed by the inquiry function, and is used by the program notification function from the corresponding program of the ASP server device 5 according to the inquiry result. A recovery program suitable for the user is selectively distributed.

  Next, when the middle stage is determined, the mental check server device 6 selectively distributes a recovery program suitable for the user from the corresponding program of the ASP server device 5 by the program notification function. In addition, the counselor directly provides counseling as necessary and advises countermeasures according to the user's condition.

When the treatment stage is determined, the inquiry content is distributed by the inquiry function of the mental check server device 6 and the medical institution is inquired.

  In this way, by measuring the user's heart rate interval, the stage of the autonomic nerve balance is known, and accordingly, the user can recover his autonomic nerve balance by the recovery program according to the user. In addition to objectively knowing the stage of the user's autonomic nerve balance, the autonomic nerve balance can be recovered by the corresponding program according to the individual user, so that the user is more convenient with fine-tuned response.

  The total health support system according to the present invention can be implemented not only in companies but also in schools, private schools, sports facilities, amusement parks, and the like.

1 is a sensor 2 is a communication terminal 3 is the Internet 4 is an autonomic nerve analysis server device 5 is an ASP server device 6 is a mental check server device

Claims (1)

A communication terminal connected to a sensor capable of measuring a user's heart rate interval;
An autonomic nerve analysis server device that connects to this communication terminal via the Internet and analyzes the autonomic nerve balance according to the user's heartbeat interval;
Based on the analysis result by the autonomic nerve analysis server device, a check function for checking the stage of the user's autonomic nerve balance is provided, and a corresponding program according to the stage of the user's autonomic nerve balance is provided. An ASP server device connected to
The check function of the ASP server device provides an inquiry function for delivering an inquiry according to the stage of the user's autonomic nerve balance to the user's communication terminal. A total health support system comprising a program notification function for selecting and notifying a corresponding program, and a mental check server device connected to an ASP server device.