JP2020181313A - Health management system and program - Google Patents

Abstract

To allow a subject to simultaneously recognize an actual level of fatigue and feeling of fatigue.SOLUTION: A health management system is provided, comprising: biometric information acquisition means for acquiring biometric information associated with a body of a subject while sleeping; computation means for computing a level of fatigue of the subject from the biometric information acquired by the biometric information acquisition means; tiredness information acquisition means for acquiring tiredness information representing how tired the subject feels; and display output means for outputting the fatigue level information representing the level of fatigue and the tiredness information together for display.SELECTED DRAWING: Figure 5

Description

The present invention relates to health care systems and programs.

For example, Patent Document 1 discloses a health management device that determines the degree of fatigue in a day based on sleep data relating to a sleeping state and activity data relating to daytime activities. In this health management device, it is disclosed to present advice such as the amount of exercise and sleep time as advice for improving the degree of fatigue.
For example, Patent Document 2 discloses a biological evaluation device that evaluates the degree of recovery from fatigue due to sleep by analyzing biological signals such as electrocardiogram, myoelectricity, pulse wave, heartbeat, and respiration during sleep.
For example, Patent Document 3 detects biological information during sleep such as pulse sensor, body movement sensor, blood pressure, body temperature, and respiratory rate, determines the sleep state based on the temporal transition, and predicts the physical condition after sleep. A biometric information analyzer is disclosed.

JP-A-2007-222276 Japanese Unexamined Patent Publication No. 08-256995 Japanese Unexamined Patent Publication No. 2005-198829

For example, there is a system that calculates the degree of fatigue of a subject based on biological information during sleep. Here, there may be a difference between the calculated actual fatigue level of the subject and the fatigue feeling of the subject, but the subject cannot know the fatigue level and the fatigue feeling. And, it is not possible to know the difference between the degree of fatigue and the feeling of fatigue.

An object of the present invention is to enable a subject to know the actual degree of fatigue and the feeling of fatigue at the same time.

The invention according to claim 1 is a biological information acquisition means for acquiring biological information about a living body during sleep of a subject, and a degree of fatigue of the subject from the biological information acquired by the biological information acquisition means. A calculation means for calculating the fatigue degree, a fatigue feeling information acquisition means for acquiring fatigue feeling information regarding the subject's fatigue feeling, and a display output means for displaying and outputting both the fatigue degree information regarding the fatigue degree and the fatigue feeling information. It is a health management system equipped with.
The invention according to claim 2 further includes a predicting means for predicting at least one of the fatigue degree and the fatigue feeling in the future, and the display output means displays and outputs both the fatigue degree information and the fatigue feeling information. The health management system according to claim 1, wherein the prediction result is displayed and output by the prediction means.
According to the third aspect of the present invention, the display output means displays and outputs both the fatigue degree information and the fatigue feeling information, and further improves at least one of the fatigue degree and the fatigue feeling. The health management system according to claim 1, wherein the health management system is displayed and output. Is.
The invention according to claim 4 further includes a predicting means for predicting at least one of the fatigue degree and the fatigue feeling when the improvement plan is implemented on the subject, and the display output means is the improvement. The health management system according to claim 3, wherein the prediction result by the prediction means is displayed and output together with the proposal.
According to the invention of claim 5, the improvement plan includes a fatigue level improvement plan for improving the fatigue level more than the fatigue level and fatigue for improving the fatigue level more than the fatigue level. The health management system according to claim 3, further comprising a feeling improvement plan, wherein the display output means displays and outputs the improvement plan according to the degree of fatigue and the degree of fatigue.
In the invention according to claim 6, the fatigue information acquisition means acquires the fatigue information by estimating the fatigue feeling of the subject from the biological information acquired by the biological information acquisition means. The health management system according to claim 1, wherein the health management system is characterized in that.
In the invention according to claim 7, the display output means displays and outputs both the fatigue degree information and the fatigue feeling information, and the fatigue degree between the subject and a person different from the subject. The health management system according to claim 1, wherein information on at least one of the feelings of fatigue is displayed and output.
In the invention according to claim 8, the display output means displays and outputs both the fatigue degree information and the fatigue feeling information, and also provides information on how the subject has the fatigue feeling with respect to the fatigue degree. The health management system according to claim 1, wherein the display is output.
The invention according to claim 9 is a biological information acquisition means for acquiring biological information about a living body during sleep of the subject, and a degree of fatigue of the subject from the biological information acquired by the biological information acquisition means. A calculation means for calculating the fatigue degree, a fatigue feeling information acquisition means for acquiring fatigue feeling information regarding the fatigue feeling of the subject, and a providing means for providing both the fatigue degree information regarding the fatigue degree and the fatigue feeling information. It is a health management system equipped with.
The invention according to claim 10 is a biometric information acquisition function for acquiring biometric information about a living body of a subject during sleep on a computer, and the subject from the biometric information acquired by the biometric information acquisition function. The calculation function for calculating the degree of fatigue, the function for acquiring the feeling of fatigue related to the feeling of fatigue of the subject, the function for acquiring the feeling of fatigue related to the degree of fatigue, and the information on the feeling of fatigue are both displayed and output. It is a program to realize the display output function.

According to the present invention, it is possible for a subject to know the actual degree of fatigue and the feeling of fatigue at the same time.

It is a figure which shows the overall configuration example of a health management system. It is a figure which shows the hardware configuration example of a server and a terminal. It is a figure which showed the functional configuration example of a server. It is a figure which showed the subject information management table. It is a flowchart which showed the flow of the fatigue information display processing. It is a figure which showed the fatigue information notification screen. It is a figure which showed the improvement plan screen. It is a figure which showed the fatigue feeling improvement plan screen.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
<Health management system configuration>
FIG. 1 is a diagram showing an overall configuration example of the health management system 1 according to the present embodiment.
The health management system 1 according to the present embodiment is a system that manages the user's health condition by managing the actual degree of fatigue of the user and the degree of fatigue that the user has. Here, the degree of fatigue is not the subjective feeling of the user but the degree of fatigue that is objectively determined. Further, the feeling of fatigue is a subjective feeling that the user has about the user's fatigue. The degree of fatigue is hereinafter referred to as fatigue sensitivity.
The health management system 1 includes a server 10, a mat sensor 20, and a terminal 30 owned by a user. The server 10, the mat sensor 20, and the terminal 30 are connected via a network.

The server 10 manages the health condition of the user. More specifically, it acquires information about the living body during sleep of the user. In addition, the server 10 acquires information on the feeling of fatigue that the user has. Information on the living body when the user sleeps is hereinafter referred to as biological information. In addition, the information regarding the feeling of fatigue that the user has is hereinafter referred to as sensory information. Further, the server 10 calculates the degree of fatigue of the user from the acquired biological information, and calculates the fatigue sensitivity of the user from the acquired sensory information. Then, the server 10 causes the user's terminal 30 to display the information indicating the calculated fatigue level and the information indicating the calculated fatigue sensitivity. Information showing the degree of fatigue is hereinafter referred to as fatigue degree information. Further, the information showing the fatigue sensitivity is hereinafter referred to as fatigue feeling information. Further, information showing a feeling of fatigue is also regarded as fatigue information in a broad sense.

The server 10 is realized by, for example, a computer. The server 10 may be configured by a single computer, or may be realized by distributed processing by a plurality of computers. Further, the server 10 may be realized on virtual hardware provided by cloud computing.

The mat sensor 20 is attached to a bedding mat or the like used by the user. Then, the mat sensor 20 acquires the biological information of the user by detecting the living body of the user when the user is using the bedding. The user who is the target of acquiring biometric information is hereinafter referred to as a subject. That is, in the present embodiment, the user who uses the health management system 1 is the subject. The mat sensor 20 transmits the acquired biometric information to the server 10 together with the sensor identification information that identifies the mat sensor 20.

Examples of biological information include information on heart rate, information on respiration, information on body movement, and the like. Further, as the biological information, information on the use of bedding by the subject and the like can be mentioned. That is, in the "biological information about the living body during sleep of the subject", not only the information about the living body during sleep of the subject but also the subject is using the bedding even though the subject is not sleeping. It also includes information about the subject's body when it is. However, the biological information is not limited to the above information.

The terminal 30 has a display unit 31 that displays information. When the display unit 31 acquires the fatigue degree information and the fatigue feeling information from the server 10, the display unit 31 displays both the acquired fatigue degree information and the fatigue feeling information.
The terminal 30 is realized by, for example, a computer, a tablet-type information terminal, or other information processing device.

The type of network used for connecting the server 10 to the mat sensor 20 and the terminal 30 is not particularly limited as long as data can be transmitted and received. For example, the Internet, LAN (Local Area Network), WAN (Wide Area Network). ) Etc. The communication line used for transmitting and receiving data may be wired or wireless. Further, each device may be connected via a plurality of networks or communication lines.

<Hardware configuration example>
FIG. 2 is a diagram showing a hardware configuration example of the server 10 and the terminal 30.
As shown in FIG. 2, the server 10 and the terminal 30 include a CPU (Central Processing Unit) 100a which is a calculation means and a memory 100c which is a main storage means. In addition, each device includes a non-volatile recording device 100g, a network interface 100f, a display mechanism 100d, a voice mechanism 100h, an input device 100i such as a keyboard and a mouse, and the like as external devices.

The memory 100c and the display mechanism 100d are connected to the CPU 100a via the system controller 100b. Further, the network interface 100f, the non-volatile recording device 100g, the voice mechanism 100h, and the input device 100i are connected to the system controller 100b via the bridge controller 100e. Each component is connected by various buses such as a system bus and an input / output bus.

A program for realizing each function is stored in the non-volatile recording device 100g. Then, this program is loaded into the memory 100c, and the processing based on this program is executed by the CPU 100a, so that various functions are realized. Examples of the non-volatile recording device 100 g include a semiconductor memory such as an SSD (Solid State Drive) and a magnetic disk device such as an HDD (Hard Disk Drive).

<Server function configuration>
Next, the functional configuration of the server 10 will be described.
FIG. 3 is a diagram showing a functional configuration example of the server 10.
The server 10 includes a registration reception unit 11 that accepts registration for use of the health management system 1, a storage unit 12 that stores the biological information of the subject, and a biological information acquisition unit 13 that acquires the biological information of the subject. The sensory information acquisition unit 14 for acquiring the sensory information of the subject is provided. Further, the server 10 includes a calculation unit 15 for calculating the fatigue degree and fatigue sensitivity of the subject, an improvement plan creation unit 16 for creating an improvement plan for improving the fatigue degree and fatigue feeling of the subject, and information. Is provided with an output control unit 17 for outputting the above to the terminal 30.

The registration reception unit 11 accepts the registration of the subject as a user of the health management system 1. For example, when the registration reception unit 11 receives an application for registration from the terminal 30 of the subject, the registration reception unit 11 receives information on the body of the subject. Information about the body of the subject is hereinafter referred to as physical information. Examples of physical information include information such as age, gender, height, weight, chronic condition, and medication status. In addition, the registration reception unit 11 receives sensor identification information for identifying the mat sensor 20 used by the subject. Further, the registration reception unit 11 assigns a login ID to the terminal 30 and accepts the registration of the personal identification number from the terminal 30. Then, the subject who operates the terminal 30 in which the login ID and the personal identification number are input is registered as a user of the health management system 1.

The registration reception unit 11 transmits the subject identification information for identifying the subject registered as a user to the storage unit 12 in association with the sensor identification information and the physical information. When the subject is newly registered as a user of the health management system 1 via the terminal 30, the server 10 relates the information transmitted from the terminal 30 to the newly registered subject. It will be retained as information.

The storage unit 12 stores the physical information transmitted from the registration reception unit 11 and the biological information acquired by the biological information acquisition unit 13 described later in association with the subject identification information and the sensor identification information. The stored contents of the storage unit 12 will be described in detail later.
The biological information acquisition unit 13 as an example of the biological information acquisition means acquires biological information from the mat sensor 20. The biological information acquisition unit 13 acquires biological information every second, for example. Further, the biological information acquisition unit 13 acquires sensor identification information together with biological information from the mat sensor 20. The biological information acquisition unit 13 stores the biological information in association with the same sensor identification information acquired from the mat sensor 20 among the sensor identification information stored in the storage unit 12.

The sensory information acquisition unit 14 causes the display unit 31 of the terminal 30 to display a screen on which sensory information can be input via the output control unit 17. Then, the sensory information acquisition unit 14 acquires the sensory information input to the terminal 30 from the terminal 30. The sensory information acquisition unit 14 associates the acquired sensory information with the subject identification information of the subject related to the sensory information, and stores the acquired sensory information in the storage unit 12.

Examples of the sensory information that can be input to the terminal 30 include sensory information of each stage among the sensory information set in a plurality of stages. Examples of the multi-step sensory information include "not tired at all", "not very tired", "a little tired", "somewhat tired", "very tired", and the like. .. For example, when the subject inputs the answer to the questionnaire regarding the feeling of fatigue to the terminal 30, the sensory information set in any of a plurality of stages according to the input answer is obtained in the sensory information acquisition unit. It may be acquired in 14.

The calculation unit 15 as an example of the calculation means calculates the current degree of fatigue of the subject from the biological information stored in the storage unit 12. The calculation unit 15 determines the sleep state of the subject per second based on, for example, the heart rate, the presence / absence of respiratory disorders, the presence / absence of body movements, and the like. Examples of the sleep state include a REM sleep state, a non-REM sleep state, and a non-sleep state. Further, the calculation unit 15 calculates, for example, the sleep time zone, sleep time, cycle between REM sleep and non-REM sleep, etc. of the subject based on the determination result. Then, the degree of fatigue of the subject is calculated from the calculation result. For example, when the sleep time zone of the subject includes the time zone from 22:00 to 26:00, the calculation unit 15 determines the degree of fatigue of the subject as compared with the case where this time zone is not included. It may be calculated small. Further, for example, the calculation unit 15 may calculate the degree of fatigue of the subject when the sleep time of the subject is 8 hours or more, as compared with the case where the sleep time of the subject is less than 8 hours. Further, for example, when the time interval between REM sleep and non-REM sleep is in the range of 85 minutes to 95 minutes, the calculation unit 15 calculates the degree of fatigue of the subject to be smaller than in the case where it is outside this range. You may. Further, the degree of fatigue of the subject may be calculated by combining the values calculated by the above methods. However, the method of calculating the degree of fatigue by the calculation unit 15 is not limited to the above aspect.

The calculation unit 15 creates fatigue degree information based on the calculated fatigue degree, and stores the created fatigue degree information in the storage unit 12. Every time the calculation unit 15 calculates the fatigue degree, the fatigue degree information is created and the fatigue degree information is stored by the storage unit 12, so that the fatigue degree information is accumulated in the storage unit 12.

In addition, the calculation unit 15 calculates the fatigue sensitivity of the subject.
When the sensory information is stored in the storage unit 12, the calculation unit 15 calculates the current fatigue sensitivity of the subject from the sensory information. For example, the calculation unit 15 is "not tired at all", "not very tired", "slightly tired", "somewhat tired", and "very tired" in the sensory information of each stage in a plurality of stages. The fatigue sensitivity is calculated so that the fatigue sensitivity becomes smaller as the order before "is". Here, the greater the fatigue sensitivity, the stronger the feeling of fatigue of the subject.

When the sensory information is not stored in the storage unit 12, the calculation unit 15 calculates the current fatigue sensitivity as an estimated value from the biological information stored in the storage unit 12. For example, the calculation unit 15 calculates that the shorter the time from the detection that the subject is using the bedding until the subject starts sleeping, the smaller the fatigue sensitivity of the subject. You may. Further, for example, the calculation unit 15 may calculate so that the longer the sleep time of the subject calculated from the biological information, the smaller the fatigue sensitivity of the subject. Further, it may be calculated so that the smaller the number of body movements by the subject, the smaller the fatigue sensitivity of the subject. In addition, the fatigue sensitivity of the subject may be calculated by combining the values calculated by the above methods. However, the method of calculating the fatigue sensitivity by the calculation unit 15 is not limited to the above aspect.

The calculation unit 15 creates fatigue feeling information based on the calculated fatigue sensitivity, and stores the created fatigue feeling information in the storage unit 12. Therefore, the calculation unit 15 can also be regarded as a fatigue information acquisition means for acquiring fatigue information. Every time the calculation unit 15 calculates the fatigue sensitivity, the fatigue feeling information is created and the fatigue feeling information is stored by the storage unit 12, so that the fatigue feeling information is accumulated in the storage unit 12.

In addition, the calculation unit 15 predicts the cause of the difference between the current fatigue level and the fatigue sensitivity of the subject from the biological information and the like stored in the storage unit 12. Then, the prediction result is transmitted to the output control unit 17.

In addition, the calculation unit 15 predicts the future fatigue level of the subject. For example, the calculation unit 15 predicts the daily tendency of the subject's fatigue level from the biological information and the fatigue level information stored in the storage unit 12, and from this prediction result, the future fatigue level of the subject is calculated. Predict.
In addition, the calculation unit 15 predicts the future fatigue sensitivity of the subject. For example, the calculation unit 15 predicts the daily fatigue sensitivity tendency of the subject from the biological information, the sensory information, and the fatigue feeling information stored in the storage unit 12, and from this prediction result, the future of the subject. Predict the fatigue sensitivity of. The method for predicting the future fatigue level and fatigue sensitivity of the subject by the calculation unit 15 is not limited to the above aspect.
The calculation unit 15 creates fatigue degree information based on the predicted fatigue degree. Further, the calculation unit 15 creates fatigue feeling information based on the predicted fatigue sensitivity.

In addition, the calculation unit 15 predicts the degree of fatigue of the subject when the improvement plan created by the improvement plan creation unit 16 described later is implemented on the subject. For example, when the improvement plan is a plan related to how to sleep the subject, the calculation unit 15 predicts the biometric information obtained when the improvement plan is implemented on the subject, and uses the predicted biometric information. Based on this, the degree of fatigue of the subject is predicted. Further, for example, when the improvement plan is a plan in which the subject incorporates proposals such as products and services for improving the fatigue level, the calculation unit 15 determines the degree of improvement in the fatigue level associated with the proposal items in advance. Predict the degree of fatigue of the subject based on. For example, the server 10 may associate the degree of improvement in the degree of fatigue with each of the proposals in advance.

In addition, the calculation unit 15 predicts the fatigue sensitivity of the subject when the improvement plan created by the improvement plan creation unit 16 is implemented on the subject. For example, when the improvement plan is a plan related to how to sleep the subject, the calculation unit 15 predicts the biometric information obtained when the improvement plan is implemented on the subject, and uses the predicted biometric information. Based on this, the fatigue sensitivity of the subject is predicted. Further, for example, when the improvement plan is a plan in which the subject incorporates proposal items such as products and services that improve fatigue sensitivity, the calculation unit 15 determines the degree of improvement in fatigue feeling associated with the proposal items in advance. Based on, the fatigue sensitivity of the subject is predicted. For example, the server 10 may associate the degree of improvement in fatigue with each of the proposals in advance. Here, the calculation unit 15 can also be regarded as a prediction means for predicting the degree of fatigue and the feeling of fatigue in the future, and the degree of fatigue and the feeling of fatigue when the improvement plan is implemented for the subject.

The calculation unit 15 creates fatigue degree information based on the fatigue degree predicted when the improvement plan is implemented for the subject. In addition, the calculation unit 15 creates fatigue feeling information based on the fatigue sensitivity predicted when the improvement plan is implemented for the subject.
Further, the calculation unit 15 transmits the created fatigue degree information and fatigue feeling information to the output control unit 17.

The improvement plan creation unit 16 creates an improvement plan for improving the fatigue level of the subject based on the fatigue level information and the biological information stored in the storage unit 12. More specifically, the improvement plan creation unit 16 incorporates a plan for improving the living body of the subject specified from the biological information used for calculating the degree of fatigue by the calculation unit 15, and the subject adopts it. Then, create proposal information such as products and services that reduce the fatigue level specified from the fatigue level information. For example, when the subject starts sleeping at 26:00, the improvement plan creation unit 16 creates an improvement plan to advance the sleep start time.

In addition, the improvement plan creation unit 16 creates an improvement plan for improving the fatigue feeling of the subject based on the fatigue feeling information and the biological information stored in the storage unit 12. More specifically, the improvement plan creation unit 16 incorporates a plan for improving the living body of the subject specified from the biological information used for calculating the fatigue sensitivity by the calculation unit 15, and the subject adopts it. Then, create proposal information such as products and services that reduce fatigue sensitivity identified from fatigue information. For example, if it takes more than an hour for the subject to start sleeping after it is detected that the subject is using bedding, the improvement plan preparation unit 16 improves the subject's sleep. Create product proposal information to do.

In addition, the improvement plan preparation unit 16 creates an improvement plan adopted by another subject different from one subject as an improvement plan for the degree of fatigue and the feeling of fatigue for one subject. You may. For example, the improvement plan preparation unit 16 is a product or service that is another subject belonging to the same age as one subject and has been adopted by another subject of a predetermined number or more. Proposal information may be created as an improvement plan for one subject. Furthermore, in the created improvement plan, for example, the improvement plan was adopted by other subjects who belong to the same age as one subject, such as "Many are selected by women in their thirties." It may contain a message indicating. Further, for example, when the improvement plan creation unit 16 improves the fatigue level and the feeling of fatigue of the other test subjects as a result of the improvement plan being adopted by the other test subject, the improvement plan is proposed. It may be created as an improvement plan for the subject. Furthermore, the improvement plan created indicates that the degree of fatigue and the feeling of fatigue were often improved in subjects of a specific age, for example, "Men in their 40s actually feel the effect". A message may be included. The improvement plan creation unit 16 creates the above improvement plan for one subject based on the results calculated by the calculation unit 15 for the fatigue degree and fatigue sensitivity of other subjects, for example.
Further, the improvement plan creation unit 16 transmits the information regarding the created improvement plan to the output control unit 17.

The output control unit 17 as an example of the display output means causes the terminal 30 to output information. More specifically, the output control unit 17 transmits information to the terminal 30 so that the transmitted information is displayed on the display unit 31 of the terminal 30 or the transmitted information is output to the terminal 30 by voice. Or something.

<Memory contents of the storage unit>
Next, the contents of the information stored in the storage unit 12 will be described.
FIG. 4 is a diagram showing a subject information management table. The subject information management table is a table for managing information about the subject. This subject information management table is provided for each subject. FIG. 4 shows a subject information management table for the subject “A”.

In the subject information management table, sensor identification information for identifying the mat sensor 20 used by the subject is shown in the "mat sensor". Further, the "physical information" shows the physical information received by the registration reception unit 11. Further, in the "biological information", the biometric information acquired by the biometric information acquisition unit 13 is shown.
Further, in the subject information management table, the "sensory information" shows the sensory information acquired by the sensory information acquisition unit 14.

Further, in the subject information management table, the fatigue degree information created by the calculation unit 15 is shown in the “fatigue degree information”. Further, the "fatigue feeling information" shows the fatigue feeling information created by the calculation unit 15.
In addition, in "biological information", for example, information every second is shown. Further, in the "sensory information", "fatigue degree information", and "fatigue feeling information", for example, daily information is shown.

<Fatigue information display processing>
Next, the flow of fatigue information display processing will be described. In the fatigue information display processing, the server 10 calculates the fatigue degree and fatigue sensitivity of the subject, and the fatigue degree information related to the calculated fatigue degree and the fatigue feeling information related to the calculated fatigue sensitivity are displayed on the display unit 31 of the terminal 30. This is the process of displaying. The fatigue information display process is started, for example, when the subject requests the calculation of the degree of fatigue via the terminal 30, or when the mat sensor 20 detects that the subject has awakened.
FIG. 5 is a flowchart showing the flow of fatigue information display processing.

First, the biological information acquisition unit 13 acquires biological information from the mat sensor 20 (S101). The biological information acquired by the biological information acquisition unit 13 is stored in the storage unit 12.
The calculation unit 15 calculates the degree of fatigue of the subject from the biological information stored in the storage unit 12 (S102). The calculation unit 15 transmits the fatigue degree information related to the calculated fatigue degree to the output control unit 17.

The calculation unit 15 determines whether or not the sensory information has been acquired by the sensory information acquisition unit 14 (S103). The calculation unit 15 makes the above determination depending on whether or not the sensory information related to the date of the target for which the fatigue sensitivity is calculated is stored in the storage unit 12.

When the sensory information is stored in the storage unit 12 (YES in S103), the calculation unit 15 calculates the fatigue sensitivity of the subject from the stored sensory information (S104). The calculation unit 15 transmits the fatigue feeling information related to the calculated fatigue sensitivity to the output control unit 17.
When the sensory information is not stored in the storage unit 12 (NO in S103), the calculation unit 15 calculates the fatigue sensitivity of the subject from the biological information stored in the storage unit 12 (S105). The calculation unit 15 transmits the fatigue feeling information related to the calculated fatigue sensitivity to the output control unit 17.
The output control unit 17 displays both the fatigue degree information and the fatigue feeling information transmitted from the calculation unit 15 on the display unit 31 of the terminal 30 (S106).

<Information display example>
Next, an example of displaying information about the subject will be described. The information about the subject is displayed on the display unit 31 of the terminal 30 by the output control unit 17.
FIG. 6 is a diagram showing a fatigue information notification screen 40. The fatigue information notification screen 40 is a screen for notifying information on the fatigue of the subject. On the fatigue information notification screen 40, a subject display unit 41, a current fatigue notification unit 42, a difference cause notification unit 45, a future fatigue notification unit 46, and an improvement plan display button 49 are displayed.

The subject display unit 41 displays the name of the subject as the subject indicated by the information displayed on the fatigue information notification screen 40. In the illustrated example, the character "Mr. A", who is the subject as the subject, is displayed on the subject display unit 41.

The current fatigue notification unit 42 displays information for notifying the current fatigue level and fatigue sensitivity of the subject. The current fatigue notification unit 42 displays the characters "about current fatigue" indicating that the displayed information is information about the current subject. Further, the current fatigue notification unit 42 displays the current fatigue degree information 43 and the current fatigue feeling information 44.

The current fatigue level information 43 displays the current fatigue level information of the subject created by the calculation unit 15. In the current fatigue level information 43, the current fatigue level of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the current degree of fatigue of the subject is displayed as "5" out of 10 levels. Here, the higher the corresponding stage, the greater the degree of fatigue of the subject.

In the current fatigue information 44, the fatigue information of the current subject created by the calculation unit 15 is displayed. In this current fatigue information 44, the current fatigue sensitivity of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the current fatigue sensitivity of the subject is displayed as "3" out of 10 levels. Here, the higher the corresponding stage, the greater the fatigue sensitivity of the subject.

As described above, in the present embodiment, the fatigue degree and the fatigue sensitivity are both set to any stage from the same number of stages of 10 stages.
In the illustrated example, the current fatigue degree information 43 displays a value larger than the current fatigue feeling information 44. This means that the degree of fatigue that the subject actually has is greater than the degree of fatigue that the subject has as a sensation.

The difference cause notification unit 45 shows the cause of the difference between the current fatigue level and the fatigue sensitivity of the subject. More specifically, the difference cause notification unit 45 displays information on how the subject sleeps as the cause of the difference between the subject's current fatigue level and fatigue sensitivity. .. In the illustrated example, the difference cause notification unit 45 displays the message "Sleep time is secured, but sleep time is late, so Mr. A is not as tired as he thinks." Has been done.

The future fatigue notification unit 46 displays information for notifying the future fatigue level and fatigue sensitivity of the subject. The future fatigue notification unit 46 can display daily information from one day after the present to seven days after the present according to the operation of the subject to the terminal 30. In the illustrated example, since "three days later" is selected, the information for three days after the present is displayed. Further, the future fatigue notification unit 46 displays the future fatigue degree information 47 and the future fatigue feeling information 48.

In the future fatigue degree information 47, the future fatigue degree information of the subject created by the calculation unit 15 is displayed. In the future fatigue degree information 47, the future fatigue degree of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the future fatigue level of the subject is displayed as "7" out of 10 levels.

In the future fatigue information 48, the future fatigue information of the subject created by the calculation unit 15 is displayed. In this future fatigue feeling information 48, the future fatigue sensitivity of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the future fatigue sensitivity of the subject is displayed as "3" out of 10 levels.

In the illustrated example, the future fatigue degree information 47 displays a value larger than the value shown in the present fatigue degree information 43. This means that the calculation unit 15 predicts that the future fatigue level will be greater than the current fatigue level of the subject. On the other hand, the future fatigue information 48 displays the same value as the value currently shown in the fatigue information 44. This means that the calculation unit 15 predicts that the current fatigue sensitivity and the future fatigue sensitivity of the subject will not change. That is, in the future of the subject, the calculation unit 15 predicts that the difference between the fatigue degree and the fatigue sensitivity of the subject will be larger than that at present.

When the subject selects the improvement plan display button 49, the improvement plan screen 50 is displayed on the display unit 31 of the terminal 30 as shown in FIG. The improvement plan screen 50 is a screen showing an improvement plan for improving the fatigue level and the feeling of fatigue of the subject. On the improvement plan screen 50, the subject display unit 51, the current fatigue notification unit 52, the current fatigue degree information 53, and the current fatigue feeling information 54 are displayed. Further, on the improvement plan screen 50, fatigue degree improvement plan information 55, detailed information 56, improvement fatigue notification unit 57, a back button 60, and a fatigue feeling improvement plan display button 61 are displayed.
The contents displayed on the subject display unit 51, the current fatigue notification unit 52, the current fatigue level information 53, and the current fatigue feeling information 54 are the subject display on the fatigue information notification screen 40 (see FIG. 6). It is the same as the content displayed in the unit 41, the current fatigue notification unit 42, the current fatigue degree information 43, and the current fatigue feeling information 44.

Fatigue improvement plan information 55 displays an improvement plan for improving the fatigue degree of the subject. More specifically, in the fatigue degree improvement plan information 55, an improvement plan regarding how to sleep the subject is displayed. In the illustrated example, the message "Let's advance the sleep time zone" is displayed as the fatigue degree improvement plan information 55.

In the detailed information 56, detailed information as the fatigue degree improvement plan displayed in the fatigue degree improvement plan information 55 is displayed. More specifically, the detailed information 56 displays the current sleep time zone of the subject and the sleep time zone proposed to the subject as an improvement plan. In the illustrated example, the sleep time zone of the current subject "2 pm to 8 am the next morning" and the sleep time zone proposed as an improvement plan "midnight to 6 am the next morning" are displayed. ing.

The improvement fatigue notification unit 57 notifies the calculation unit 15 of the predicted future fatigue degree and fatigue sensitivity of the subject, assuming that the improvement plan displayed in the detailed information 56 is implemented for the subject. Information for is displayed. The improved fatigue notification unit 57 can display daily information from one day after the present to seven days after the present according to the operation of the subject to the terminal 30. In the illustrated example, since "three days later" is selected, the information for three days after the present is displayed. Further, the improvement fatigue notification unit 57 displays the improvement fatigue degree information 58 and the improvement fatigue feeling information 59.

The improved fatigue level information 58 displays the future fatigue level information of the subject when the improvement plan displayed in the detailed information 56 is implemented on the subject. In the improved fatigue level information 58, the future fatigue level of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the future fatigue level of the subject is displayed as "4" out of 10 levels.

The improved fatigue information 59 displays the future fatigue information of the subject when the improvement plan displayed in the detailed information 56 is implemented on the subject. In this improved fatigue feeling information 59, the future fatigue sensitivity of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the future fatigue sensitivity of the subject is displayed as "2" out of 10 levels.

In the illustrated example, the improved fatigue level information 58 displays a value smaller than the value shown in the future fatigue level information 47 (see FIG. 6). This means that when the improvement plan displayed in the detailed information 56 is implemented for the subject, the degree of fatigue of the subject after three days from the present is smaller than when the improvement plan is not implemented. Further, the improved fatigue degree information 58 displays a value smaller than the value currently shown in the fatigue degree information 53. This means that the future fatigue level of the subject will be smaller than the present level by implementing the improvement plan displayed in the detailed information 56 on the subject.

Further, in the improved fatigue feeling information 59, a value smaller than the value shown in the future fatigue feeling information 48 (see FIG. 6) is displayed. This means that when the improvement plan displayed in the detailed information 56 is implemented for the subject, the fatigue sensitivity of the subject after three days from the present is smaller than when it is not implemented. Further, the improved fatigue information 59 displays a value smaller than the value currently shown in the fatigue information 54. This means that the future fatigue sensitivity of the subject will be smaller than the present by implementing the improvement plan displayed in the detailed information 56 on the subject. That is, the improvement plan displayed in the fatigue degree improvement plan information 55 and the detailed information 56 is an improvement plan for improving both the fatigue level and the feeling of fatigue of the subject.

On the other hand, the degree of decrease from the value shown in the future fatigue level information 47 to the value shown in the improved fatigue level information 58 is changed from the value shown in the future fatigue level information 48 to the improved fatigue level information 59. Greater than the degree of reduction to the values shown. Therefore, the improvement plan displayed in the fatigue degree improvement plan information 55 and the detailed information 56 is regarded as a fatigue level improvement plan for improving the fatigue degree more than the feeling of fatigue. Further, the improvement plan screen 50 can be regarded as a fatigue level improvement plan screen showing an improvement plan for improving the fatigue level more than the feeling of fatigue. When the improvement plan displayed in the detailed information 56 is implemented for the subject, the fatigue feeling of the subject may not be improved. That is, "improving the degree of fatigue more than the feeling of fatigue" includes improving the degree of fatigue but not improving the feeling of fatigue.

When the subject selects the back button 60, the fatigue information notification screen 40 (see FIG. 6) is displayed again on the display unit 31 of the terminal 30.
When the subject selects the fatigue improvement plan display button 61, the fatigue improvement plan screen 70 is displayed on the display unit 31 as shown in FIG. The fatigue feeling improvement plan screen 70 is a screen showing an improvement plan for improving the fatigue sensitivity of the subject. On the fatigue feeling improvement plan screen 70, the subject display unit 71, the current fatigue notification unit 72, the current fatigue degree information 73, and the current fatigue feeling information 74 are displayed. Further, on the fatigue improvement plan screen 70, fatigue improvement plan information 75, detailed information 76, improvement fatigue notification unit 78, fatigue degree improvement plan display button 81, and back button 82 are displayed.
The contents displayed on the subject display unit 71, the current fatigue notification unit 72, the current fatigue level information 73, and the current fatigue feeling information 74 are the subject display on the fatigue information notification screen 40 (see FIG. 6). It is the same as the content displayed in the unit 41, the current fatigue notification unit 42, the current fatigue degree information 43, and the current fatigue feeling information 44.

The fatigue feeling improvement plan information 75 displays an improvement plan for improving the fatigue feeling of the subject. More specifically, in the fatigue feeling improvement plan information 75, information on meals is displayed as an improvement plan. In the illustrated example, the message "A meal that recovers the fatigue is recommended" is displayed as the fatigue improvement plan information 75.

In the detailed information 76, detailed information as the fatigue feeling improvement plan displayed in the fatigue feeling improvement plan information 75 is displayed. In the illustrated example, the detailed information 76 displays the characters "pork ginger-grilled" indicating the contents of the meal and an image showing the contents of the meal pictorially as detailed information of the improvement plan. ..

The improvement fatigue notification unit 78 notifies the calculation unit 15 of the predicted future fatigue degree and fatigue sensitivity of the subject, assuming that the improvement plan displayed in the detailed information 76 is implemented for the subject. Information for is displayed. The improved fatigue notification unit 78 can display daily information from one day after the present to seven days after the present according to the operation of the subject to the terminal 30. In the illustrated example, since "three days later" is selected, the information for three days after the present is displayed. Further, the improved fatigue notification unit 78 displays the improved fatigue degree information 79 and the improved fatigue feeling information 80.

The improved fatigue level information 79 displays the future fatigue level information of the subject when the improvement plan displayed in the detailed information 76 is implemented on the subject. In the improved fatigue level information 79, the future fatigue level of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the future fatigue level of the subject is displayed as "7" out of 10 levels.

The improved fatigue information 80 displays the future fatigue information of the subject when the improvement plan displayed in the detailed information 76 is implemented on the subject. In this improved fatigue feeling information 80, the future fatigue sensitivity of the subject is displayed as a corresponding stage out of 10 stages. In the illustrated example, the future fatigue sensitivity of the subject is displayed as "2" out of 10 levels.

In the illustrated example, the improved fatigue level information 79 has a value larger than the value shown in the present fatigue level information 73 and is the same as the value shown in the future fatigue level information 47 (see FIG. 6). The value is displayed. This means that even if the improvement plan displayed in the detailed information 76 is implemented for the subject, the fatigue level of the subject is not improved.

Further, in the improved fatigue feeling information 80, a value smaller than the value shown in the future fatigue feeling information 48 (see FIG. 6) is displayed. This means that when the improvement plan displayed in the detailed information 76 is implemented for the subject, the fatigue sensitivity of the subject after three days from the present is smaller than when it is not implemented. Further, the improved fatigue information 80 displays a value smaller than the value currently shown in the fatigue information 74. This means that the future fatigue sensitivity of the subject will be smaller than the present by implementing the improvement plan displayed in the detailed information 76 on the subject. That is, the improvement plan displayed in the fatigue feeling improvement plan information 75 and the detailed information 76 is an improvement plan for improving the fatigue feeling without improving the fatigue degree of the subject. In addition, the fatigue feeling improvement plan information 75 and the detailed information 76 may display an improvement plan in which the fatigue degree of the subject is improved to a degree smaller than the fatigue feeling when implemented by the subject. .. That is, "improving the feeling of fatigue more than the degree of fatigue" includes improving the degree of fatigue and the feeling of fatigue. Here, the improvement plan displayed in the fatigue feeling improvement plan information 75 and the detailed information 76 is regarded as a fatigue feeling improvement plan for improving the fatigue feeling more than the fatigue degree.

When the subject selects, for example, the fatigue level improvement plan display button 81, the improvement plan screen 50 (see FIG. 7) as the fatigue level improvement screen is displayed again on the display unit 31 of the terminal 30.
When the subject selects, for example, the back button 82, the fatigue information notification screen 40 (see FIG. 6) is displayed again on the display unit 31.

In the present embodiment, when the improvement plan display button 49 is selected on the fatigue information notification screen 40 (see FIG. 6), the improvement plan screen 50 (see FIG. 7) as the fatigue level improvement plan screen is displayed on the terminal 30. It is displayed on the display unit 31. In the present embodiment, when the improvement plan display button 49 is selected, the value shown in the current fatigue level information 43 on the fatigue information notification screen 40 is larger than the value shown in the current fatigue feeling information 44. The improvement plan screen 50 as the fatigue level improvement plan screen is displayed on the display unit 31. Further, when the improvement plan display button 49 is selected, if the value shown in the current fatigue information 44 on the fatigue information notification screen 40 is larger than the value shown in the current fatigue information 43, the feeling of fatigue The improvement plan screen 70 is displayed on the display unit 31. That is, in the present embodiment, when the improvement plan display button 49 is selected, a screen showing an improvement plan for preferentially improving the larger of the current fatigue level and fatigue sensitivity of the subject is displayed. It is displayed on the display unit 31.

As described above, in the present embodiment, the output control unit 17 displays and outputs both fatigue degree information and fatigue feeling information.
In this case, the subject can know the actual degree of fatigue and the feeling of fatigue at the same time.

Further, in the present embodiment, the calculation unit 15 predicts the degree of fatigue and the feeling of fatigue in the future. Then, the output control unit 17 displays and outputs both the fatigue degree information and the fatigue feeling information, and also displays and outputs the prediction result by the calculation unit 15.
In this case, the subject can know the change in the degree of fatigue and the feeling of fatigue from the present in the future.

Further, in the present embodiment, the output control unit 17 displays and outputs both the fatigue degree information and the fatigue feeling information, and also displays and outputs an improvement plan for further improving the fatigue degree and the fatigue feeling.
In this case, the subject can determine whether or not to implement the improvement plan according to the displayed fatigue level information and fatigue feeling information.

Further, in the present embodiment, the calculation unit 15 predicts the degree of fatigue and the feeling of fatigue when the improvement plan is implemented for the subject. Then, the output control unit 17 displays and outputs the prediction result by the calculation unit 15 together with the improvement plan.
In this case, the subject will be able to determine whether or not to implement the improvement plan based on the effect of implementing the improvement plan.

Further, in the present embodiment, the improvement plan includes a fatigue level improvement plan for improving the fatigue level more than the fatigue level and a fatigue level improvement plan for improving the fatigue level more than the fatigue level. .. Then, the output control unit 17 displays and outputs an improvement plan according to the degree of fatigue and the degree of fatigue.
In this case, it is possible to switch which improvement plan is preferentially proposed according to the degree of fatigue and the degree of fatigue.

Further, in the present embodiment, the calculation unit 15 acquires the fatigue feeling information by estimating the fatigue feeling of the subject from the biological information acquired by the biological information acquisition unit 13.
In this case, even when the sensory information is not acquired, both the fatigue degree information and the fatigue feeling information can be displayed.

Although the embodiments of the present invention have been described above, the technical scope of the present invention is not limited to the scope described in the above embodiments. It is clear from the description of the scope of claims that the above-described embodiment with various modifications or improvements is also included in the technical scope of the present invention.

In the present embodiment, the future fatigue level information and fatigue feeling information of the subject when the improvement plan created by the improvement plan preparation unit 16 is not implemented is provided to the subject when the improvement plan or improvement plan is implemented. The future fatigue level information and fatigue feeling information of the subject are displayed on a screen different from the screen shown, but the present invention is not limited to this.
For example, the future fatigue level information and fatigue feeling information of the subject when the improvement plan created by the improvement plan preparation unit 16 is not implemented, and the test when the improvement plan or the improvement plan is implemented by the subject. It may be displayed on the same screen as the screen showing the future fatigue level information and fatigue feeling information of the person.

Further, in the present embodiment, the improvement plan screen 50 as the fatigue level improvement plan screen is displayed on a screen different from the fatigue feeling improvement plan screen 70, but the present invention is not limited to this.
For example, the improvement plan screen 50 as the fatigue level improvement plan screen may be displayed on the same screen as the fatigue feeling improvement plan screen 70.

Further, in the present embodiment, one improvement plan is displayed on the improvement plan screen 50 and the fatigue feeling improvement plan screen 70, but the present invention is not limited to this.
For example, two or more improvement plans may be displayed on the improvement plan screen 50 and the fatigue improvement plan screen 70. In this case, for each improvement plan, the future fatigue level information and fatigue feeling information of the subject when the improvement plan is implemented by the subject may be displayed. In addition, the future fatigue level information and fatigue feeling information of the subject according to the improvement plan to be implemented out of the two or more improvement plans may be displayed.
Further, the fatigue degree improvement plan and the fatigue feeling improvement plan may be displayed on one screen. Then, the fatigue degree information and the fatigue feeling information of the subject when both the fatigue degree improvement plan and the fatigue feeling improvement plan are implemented on the subject may be displayed.

Further, in the present embodiment, the current fatigue degree information and the fatigue feeling information of the subject are displayed on the improvement plan screen 50 and the fatigue feeling improvement plan screen 70, but the present invention is not limited to this.
For example, the current fatigue level information and the fatigue feeling information of the subject may not be displayed on the improvement plan screen 50 or the fatigue feeling improvement plan screen 70. Further, while the fatigue information notification screen 40 displays an improvement plan for improving the fatigue level and the feeling of fatigue of the subject, the fatigue level of the subject when the improvement plan is implemented for the subject. Information and fatigue information may not be displayed.

Further, in the present embodiment, an example in which numerical values are displayed as fatigue degree information and fatigue feeling information has been described, but the present invention is not limited to this.
For example, characters, graphs, or other figures may be displayed as fatigue degree information or fatigue feeling information. That is, the fatigue degree information and the fatigue feeling information may be displayed in any mode.
Further, as fatigue degree information and fatigue feeling information, information on changes from past fatigue degree information and fatigue feeling information such as increase / decrease from past fatigue degree information and fatigue feeling information may be displayed. Information on this change may be displayed together with figures such as numerical values, characters, and graphs as fatigue degree information and fatigue feeling information.

Further, in the present embodiment, an example in which information from one day after the present to one week after the present is displayed as future fatigue degree information and fatigue feeling information of the subject has been described, but the present invention is not limited to this.
For example, information one hour after the present may be displayed as future fatigue degree information and fatigue feeling information of the subject. In addition, information one month after the present or information one year after the present may be displayed.

Further, in the present embodiment, the fatigue feeling information created in the calculation unit 15 using the sensory information is displayed, but the present invention is not limited to this.
For example, sensory information may be displayed as fatigue information. Therefore, the sensory information acquisition unit 14 is also broadly regarded as a fatigue information acquisition means for acquiring fatigue information. Also, regarding fatigue level information, one of "not tired at all", "not very tired", "a little tired", "somewhat tired", or "very tired". Information may be displayed. That is, the fatigue degree information may be displayed in the same display mode as the sensory information.

Further, in the present embodiment, the improvement plan preparation unit 16 prepares both an improvement plan for improving the fatigue level of the subject and an improvement plan for improving the fatigue feeling of the subject. , Not limited to this.
For example, the improvement plan creation unit 16 creates at least one of an improvement plan for improving the degree of fatigue and an improvement plan for improving the feeling of fatigue, and the output control unit 17 is created by the improvement plan creation unit 16. One may be displayed and output. Further, the calculation unit 15 creates at least one of the fatigue degree information and the fatigue feeling information of the subject when one of the improvement plan creation units 16 is implemented by the subject, and the output control unit 17 creates the output control unit 17. , The calculation unit 15 may display and output one of the created ones.

Further, when an improvement plan related to a product or service is displayed on the improvement plan screen 50 or the fatigue improvement plan screen 70, the product or service as the improvement plan is received through the improvement plan screen 50 or the fatigue improvement plan screen 70. It may be made available to the examiner. In this case, for example, a purchase button for purchasing a product or service is displayed on the improvement plan screen 50 or the fatigue improvement plan screen 70, and when this purchase button is selected, the product is displayed on the display unit 31 of the terminal 30. Or a web page for purchasing a service may be displayed. Then, the subject may be able to purchase the product on this Web page. Further, when the subject purchases the product or service as the improvement plan through the improvement plan screen 50 or the fatigue improvement plan screen 70, the subject can purchase the product or service at a price lower than the list price. You may.

Further, the server 10 acquires this behavior information from an information medium such as a scheduler and a diary used by the subject, which shows behavior information related to the subject's daily behavior, and based on the acquired behavior information, the server 10 receives the behavior information. You may predict the future fatigue level and feeling of fatigue of the examiner. For example, when the server 10 obtains a result that the degree of fatigue and the feeling of fatigue of the subject are particularly large on the day after the day when the specific action shown in the behavior information is performed, this specific action and Correspond with the degree of fatigue of the subject and the degree of accumulation of fatigue. Then, when the behavior information indicates that this specific action is scheduled in the future, the server 10 is particularly concerned with the degree of fatigue and the feeling of fatigue of the subject after the date when the specific action is scheduled. It may be predicted to increase. Further, the server 10 may machine-learn the relationship between the behavior of the subject shown in the acquired behavior information and the degree of fatigue of the subject and the degree of accumulation of fatigue. Then, based on the learning result, the degree of fatigue and the tendency of the feeling of fatigue of the subject may be predicted for each behavior of the subject.

Further, the server 10 compares the fatigue degree and fatigue sensitivity of one subject with the fatigue degree and fatigue sensitivity of another subject, and uses this comparison result as the fatigue degree information of one subject and the fatigue sensitivity. It may be displayed on the display unit 31 of the terminal 30 together with the fatigue feeling information. For example, when the server 10 targets all users of the health management system 1 or when one of the users of the health management system 1 targets users in the department of the company to which the subject belongs. , The order of fatigue level and fatigue sensitivity of one subject may be displayed. Further, for example, the server 10 has a fatigue level and fatigue sensitivity of one subject as compared with other subjects different from the one subject, such as a colleague in a department of a company to which the one subject belongs. Information indicating whether or not is large may be displayed. That is, the output control unit 17 displays and outputs both fatigue degree information and fatigue feeling information, and also displays information on at least one comparison result of fatigue degree and fatigue feeling between the subject and a person different from the subject. It may be displayed and output.
In this case, the subject becomes able to recognize the relationship between his / her own fatigue level and fatigue sensitivity and the fatigue level and fatigue sensitivity of others.

Further, the server 10 creates information on how to have a feeling of fatigue with respect to the degree of fatigue of the subject based on the relationship between the degree of fatigue of the subject and the feeling of fatigue calculated by the calculation unit 15, and the created information. May be displayed on the display unit 31 of the terminal 30 together with the fatigue degree information and the fatigue feeling information of the subject. For example, when the degree of fatigue of the subject is calculated by the calculation unit 15 to be larger than the degree of fatigue, the server 10 tells the subject that the degree of fatigue is such that "you are less likely to notice your fatigue". Information indicating that the fatigue sensitivity is small may be displayed. Further, for example, when the fatigue sensitivity of the subject is calculated by the calculation unit 15 to be larger than the degree of fatigue, the server 10 is "a type that makes it easy to feel tired." Information indicating that the sensitivity is high may be displayed. That is, the output control unit 17 may display and output both the fatigue degree information and the fatigue feeling information, and may display and output information on how the subject has a fatigue feeling with respect to the fatigue degree.
In this case, the subject becomes able to recognize his / her own thoughts on how to have a feeling of fatigue from the relationship with the degree of fatigue.

Further, in the present embodiment, the calculation unit 15 predicts both the future fatigue level and the feeling of fatigue of the subject, but the present invention is not limited to this.
The calculation unit 15 may predict at least one of the degree of fatigue and the feeling of fatigue in the future. In this case, the output control unit 17 may display and output the information regarding one of the predicted ones to the calculation unit 15 together with the current fatigue degree information and the fatigue feeling information of the subject.

Further, in the present embodiment, the calculation unit 15 calculates the degree of fatigue and the fatigue sensitivity using biological information and sensory information, but the present invention is not limited to this.
For example, the calculation unit 15 may calculate the degree of fatigue and fatigue sensitivity using physical information. Further, for example, the server 10 may acquire the environmental information regarding the bedroom environment of the subject, and the calculation unit 15 may calculate the fatigue degree and the fatigue sensitivity by using the acquired environmental information. That is, any information may be used for the calculation of the fatigue degree and the fatigue sensitivity by the calculation unit 15.
Further, for example, the calculation unit 15 calculates the degree of the autonomic nerve function of the subject such as the action of the sympathetic nerve and the parasympathetic nerve of the subject based on the biological information, and the test is performed based on the calculated result. The degree of fatigue and the sensitivity of fatigue of a person may be calculated. Therefore, information on autonomic nerves can be regarded as biological information in a broad sense.

Further, in the present embodiment, the calculation unit 15 calculates the current fatigue level and fatigue sensitivity of the subject based on information such as biological information and sensory information in one day, but the present invention is not limited to this.
For example, the calculation unit 15 may calculate the current fatigue degree and fatigue sensitivity of the subject based on the information in the period of two days or more.

In addition, the calculation unit 15 may create fatigue information from sensory information and fatigue information from biological information. Then, the two fatigue feeling information created by the calculation unit 15 may be displayed on the fatigue information notification screen 40, the improvement plan screen 50, and the fatigue feeling improvement plan screen 70.

In addition, the calculation unit 15 calculates the degree of fatigue and fatigue sensitivity when the improvement plan created by the improvement plan creation unit 16 is implemented on the subject, and the improvement plan is calculated every day from the present until the day to be calculated. May be calculated for the degree of fatigue and fatigue sensitivity when In addition, the degree of fatigue and fatigue sensitivity may be calculated when the improvement plan is implemented for only one day in the period from the present to the date to be calculated. In addition, the degree of fatigue and fatigue sensitivity may be calculated according to the number of days for which the improvement plan was implemented in the period from the present to the date to be calculated.

Further, the server 10 may give points to the subject according to the fatigue degree and the fatigue sensitivity of the subject calculated by the calculation unit 15. For example, if the period in which the fatigue degree and the fatigue sensitivity are calculated by the calculation unit 15 or less is continued, the server 10 may give the subject a point according to the continued period. Then, the price of the product or service purchased through the improvement plan screen 50 or the fatigue improvement plan screen 70 may be reduced according to the points used by the subject.

Further, in the present embodiment, the subject inputs information such as physical information and sensory information to the terminal 30 as characters, but the present invention is not limited to this.
For example, the subject may input the information to the terminal 30 by voice, or the image data showing the information may be input to the terminal 30. That is, the mode of inputting information to the terminal 30 may be any mode.
Further, for example, the subject may input voice into a voice input means such as a smart speaker, and the voice input means into which the voice is input may transmit voice information related to the input voice to the server 10. That is, the server 10 may acquire information from an information input means different from that of the terminal 30.

Further, in the present embodiment, the biological information acquisition unit 13 acquires biological information from the mat sensor 20, but the present invention is not limited to this. The biological information acquisition unit 13 may acquire biological information from a biological information acquisition means different from that of the mat sensor 20. That is, the functional means for transmitting biometric information to the biometric information acquisition unit 13 is not limited to the mat sensor 20.

Further, in the present embodiment, the output control unit 17 has described that the terminal 30 outputs information, but the present invention is not limited to this.
For example, the output control unit 17 may provide information to the terminal 30, and may not cause the terminal 30 to output the information. In this case, the output control unit 17 is regarded as a providing means for providing both fatigue degree information and fatigue feeling information.

Further, in the present embodiment, the server 10 calculates the fatigue degree and the fatigue sensitivity of the subject, and the fatigue degree information related to the calculated fatigue degree and the fatigue feeling information related to the fatigue sensitivity are both displayed on the display unit 31 of the terminal 30. However, it is not limited to this.
For example, the terminal 30 may have the function of the server 10. In other words, the terminal 30 has functions such as a registration reception unit 11, a storage unit 12, a biological information acquisition unit 13, a sensory information acquisition unit 14, a calculation unit 15, an improvement plan creation unit 16, and an output control unit 17 of the server 10. It may be that.

Further, the program that realizes the embodiment of the present invention may be a computer-readable recording medium such as a magnetic recording medium (magnetic tape, magnetic disk, etc.), an optical recording medium (optical disk, etc.), an optical magnetic recording medium, or a semiconductor memory. Can be provided in a memorized state. It is also possible to provide it by using a communication means such as the Internet.

1 ... Health management system, 10 ... Server, 11 ... Registration reception unit, 12 ... Storage unit, 13 ... Biometric information acquisition unit, 14 ... Sensory information acquisition unit, 15 ... Calculation unit, 16 ... Improvement plan creation unit, 17 ... Output Control unit, 20 ... mat sensor, 30 ... terminal, 31 ... display unit

Claims (10)

Biological information acquisition means for acquiring biological information about the living body when the subject sleeps,
A calculation means for calculating the degree of fatigue of the subject from the biological information acquired by the biological information acquisition means, and
Fatigue information acquisition means for acquiring fatigue information regarding the fatigue feeling of the subject, and
A display output means for displaying and outputting both the fatigue degree information regarding the fatigue degree and the fatigue feeling information.
A health management system equipped with. Further provided with predictive means for predicting at least one of the fatigue level and the fatigue feeling in the future.
The health management system according to claim 1, wherein the display output means displays and outputs both the fatigue degree information and the fatigue feeling information, and further displays and outputs the prediction result by the prediction means. The display output means is characterized in that both the fatigue degree information and the fatigue feeling information are displayed and output, and further, an improvement plan for improving at least one of the fatigue degree and the fatigue feeling is displayed and output. The health management system according to claim 1. Further provided with a predictive means for predicting at least one of the fatigue degree and the fatigue feeling when the improvement plan is implemented on the subject.
The health management system according to claim 3, wherein the display output means displays and outputs a prediction result by the prediction means together with the improvement plan. The improvement plan includes a fatigue level improvement plan for improving the fatigue level more than the fatigue level, and a fatigue level improvement plan for improving the fatigue level more than the fatigue level.
The health management system according to claim 3, wherein the display output means displays and outputs the improvement plan according to the degree of fatigue and the degree of fatigue. The first aspect of claim 1, wherein the fatigue information acquisition means acquires the fatigue information by estimating the fatigue feeling of the subject from the biological information acquired by the biological information acquisition means. Health management system. The display output means displays and outputs both the fatigue degree information and the fatigue feeling information, and compares at least one of the fatigue degree and the fatigue feeling between the subject and a person different from the subject. The health management system according to claim 1, wherein information on the result is displayed and output. The claim is characterized in that the display output means displays and outputs both the fatigue degree information and the fatigue feeling information, and also displays and outputs information on how the subject has the fatigue feeling with respect to the fatigue degree. The health management system according to item 1. Biological information acquisition means for acquiring biological information about the living body when the subject sleeps,
A calculation means for calculating the degree of fatigue of the subject from the biological information acquired by the biological information acquisition means, and
Fatigue information acquisition means for acquiring fatigue information regarding the fatigue feeling of the subject, and
A means for providing both fatigue degree information regarding the fatigue degree and fatigue feeling information, and
A health management system equipped with. On the computer
A biological information acquisition function that acquires biological information about the living body when the subject sleeps,
A calculation function for calculating the degree of fatigue of the subject from the biometric information acquired by the biometric information acquisition function, and
The fatigue information acquisition function for acquiring fatigue information regarding the fatigue feeling of the subject, and
A display output function that displays and outputs both fatigue level information related to the fatigue level and fatigue feeling information.
A program to realize.