JP2023160398A - Wearable terminal communication system, and program of wearable terminal communication system - Google Patents

Abstract

To provide a wearable terminal communication system that allows a user to check how much he or she is approaching a target, and keep his or her motivation.SOLUTION: A wearable terminal communication system 100 includes a plurality of wearable terminals 110 and a server 120. Target value information MK on user information on each user of the plurality of wearable terminals and information on the health of the user is registered in a database 121 of the server in advance. The wearable terminal worn on the arm of the user detects information on the health of the user and transmits the information detected from the user to the server. The server records the information received from the wearable terminal in the database. When a user terminal 130 of the user accesses the server, the user terminal displays information on the health of the user and the target value information MK on the basis of the database of the server.SELECTED DRAWING: Figure 1

Description

The present invention relates to a wearable terminal communication system including a plurality of wearable terminals and a server in which data of the wearable terminals is managed by the server, and a program therefor.

Conventionally, wearable information processing devices that are smart watches or smart wristbands worn on the arm as user terminals have been known (for example, Patent Document 1).
The user terminal is equipped with an accelerometer to measure the acceleration of the user's body and a pulse meter to detect the user's pulsation. The needle of the health meter was moved by combining information such as pulse rate measured by the patient.

JP 2022-27133 (especially see paragraphs 0098 to 0102)

However, in the conventional wearable information processing device described above, a health meter related to only the user's own health is displayed on a user terminal such as a smart watch or smart wristband worn on the arm, or on a handheld smartphone terminal paired with this. Because of this structure, there was a problem in that it was difficult to maintain motivation.

SUMMARY OF THE INVENTION Therefore, the present invention solves the problems of the prior art as described above, and an object of the present invention is to provide a wearable terminal that allows users to maintain motivation by checking how far they are in achieving their goals. To provide a communication system and its program.

The invention according to claim 1 is a wearable terminal communication system that includes a plurality of wearable terminals and a server and manages data of the wearable terminals with the server, the system comprising: user information of each user of the plurality of wearable terminals; target value information of health-related information is registered in advance in a database of a server, the wearable terminal is worn on the user's arm, detects the user's health-related information, and transmits the detected information from the user to the server; The server records the information received from the wearable terminal in a database, and when the server is accessed from the user terminal of the user, the user terminal records information regarding the user's health and target values based on the database of the server. By having a configuration that displays information, the above-mentioned problem is solved.

The invention according to claim 2 is characterized in that, in addition to the configuration of the wearable terminal communication system according to claim 1, the information regarding the health of the user includes information regarding the amount of blood oxygen and information regarding the estimated skin temperature during sleep. , information about breathing rate, information about exercise heart rate, information about resting heart rate, information about the user's age and activity score based on intensity of activity based on resting heart rate, information about sleep The above-mentioned problem is further solved by providing at least one of information about a sleep score based on quality and time and information about a stress score.

In addition to the configuration of the wearable terminal communication system described in claim 2, the invention according to claim 3 is characterized in that the server records information received from the wearable terminal in a database and associates it with user information to obtain the latest information. By creating a ranking of information related to the user's health within a predetermined period of time, and when the server is accessed from the user's user terminal, the user terminal is configured to display the ranking based on the database of the server. , which further solves the above-mentioned problems.

In addition to the configuration of the wearable terminal communication system described in claim 3, the invention according to claim 4 is characterized in that the server records information received from the wearable terminal in a database and associates it with user information to obtain the latest information. A ranking is created regarding the degree of achievement of the target value information regarding the user's health information within a predetermined time, and when the server is accessed from the user's user terminal, the user terminal The above-mentioned problem is further solved by having a configuration in which rankings regarding the degree of achievement of target value information and rankings regarding information regarding the user's health can be displayed in a switchable manner.

The invention according to claim 5 provides, in addition to the configuration of the wearable terminal communication system described in any one of claims 1 to 4, wherein the wearable terminal is configured to monitor the sleep status of the user who is the wearer. It detects the deep sleep state at the 1st depth, the light sleep state at the 2nd depth shallower than the 1st depth, the REM state, and the awake state, and wakes up from the deep sleep state, light sleep state, or REM state using the vibration function. measuring the time from the start of the vibration function until the user becomes awake when the user is in the awake state, and the information regarding the health of the user is information about the time from the start of the vibration function until the user becomes awake; The above-mentioned problem is further solved by displaying time information on the user terminal from the start of the vibration function until the user becomes awake.

The invention according to claim 6 is a program for a wearable terminal communication system that includes a plurality of wearable terminals and a server and manages data of the wearable terminals with the server,
a pre-registration step in which the server registers in advance user information of each user of the plurality of wearable terminals and target value information of the user's health information in a database of the server, and the wearable terminal is worn on the user's arm. , a recording step in which information related to the user's health is detected, the detected information from the user is sent to the server, and the server records the information received from the wearable terminal in a database; and a recording step in which the server is accessed from the user's user terminal. In this case, the above-mentioned problem is solved by the user terminal comprising a display step of displaying information regarding the user's health and target value information based on the database of the server.

By including a plurality of wearable terminals and a server, the wearable terminal communication system of the present invention not only allows the data of the wearable terminals to be managed by the server, but also has the following unique effects. can.

According to the wearable terminal communication system of the invention according to claim 1, not only information regarding the user's health that changes daily but also target value information is displayed, so the user can check how far he or she is in relation to the target. You can do it and stay motivated.

According to the wearable terminal communication system of the invention according to claim 2, in addition to the effects achieved by the invention according to claim 1, information on blood oxygen amount, estimated sleeping skin temperature, and respiration rate can be obtained. information, information about exercise heart rate, information about resting heart rate, information about activity score based on intensity of activity based on the user's age and resting heart rate, information about sleep quality and duration At least one of the following information is displayed: sleep score information, stress score information, and target value information, so the user wearing the wearable terminal can use the wearable device to respond to the goal for any one of the health-related information. You can check how much water you have and promote your own health.

According to the wearable terminal communication system of the invention according to claim 3, in addition to the effects achieved by the invention according to claim 2, ranking of information detected by the wearable terminal of a plurality of users using the wearable terminal is achieved. is displayed on the user terminal, allowing multiple users to know their rankings and compete for results.
Furthermore, by accessing the server, the rankings will be displayed on the user terminals of users who are not wearing wearable terminals, so users on other user terminals will be able to see and support the rankings of participants.

According to the wearable terminal communication system of the invention according to claim 4, in addition to the effects achieved by the invention according to claim 3, ranking of the degree of achievement of the target value information of a plurality of users using the wearable terminal is achieved. will be displayed on the user terminal, allowing multiple users to know their rankings and compete against each other to achieve their goals.
Furthermore, by accessing the server, the rankings will be displayed on the user terminals of users who are not wearing wearable terminals, so users on other user terminals will be able to see and support the rankings of participants.
Furthermore, if users simply compete based on their performance based on information about their health, there is a risk that users will tend to give up due to personal circumstances such as their health or chronic illness, or that competition will become excessive. However, by competing based on the results of each individual's goals, users can maintain their own pace and compete according to their individual level and circumstances.
Furthermore, by switching the display freely, you can see not only the ranking of the information detected by the wearable terminal, but also the ranking of the degree of achievement, which shows each individual's daily efforts and awareness towards their goals, encouraging excessive competition. Instead, users can evaluate each individual's daily effort and awareness toward their goals, support that user, and encourage each other as friends.

According to the wearable terminal communication system of the invention according to claim 5, in addition to the effects achieved by the invention according to any one of claims 1 to 4, the alertness is displayed on the user terminal. By focusing on getting a good night's sleep, users can avoid heavy drinking and hangovers, and as a result, be more content and healthy when they wake up.

According to the program of the wearable terminal communication system of the invention according to claim 6, similar to the effect achieved by the invention according to claim 1, not only information regarding the user's health that changes daily but also target value information is displayed. , users can see how far they are in achieving their goals and stay motivated.

1 is a diagram showing the concept of a wearable terminal communication system that is an embodiment of the present invention. 1 is a chart diagram showing an example of the operation of a wearable terminal communication system according to an embodiment of the present invention. FIG. 3 is a diagram showing an example of information regarding a user's health and target value information displayed on a user terminal of a wearable terminal communication system that is an embodiment of the present invention. FIG. 2 is a diagram showing an example of an individual ranking displayed on a user terminal of a wearable terminal communication system according to an embodiment of the present invention. FIG. 3 is a diagram illustrating an example of a ranking of achievement levels for individual target value information displayed on a user terminal of a wearable terminal communication system according to an embodiment of the present invention. FIG. 2 is a diagram showing an example of a company's departmental ranking displayed on a user terminal of a wearable terminal communication system according to an embodiment of the present invention. (A) and (B) are diagrams showing an example of displaying the members of the department that are displayed when the corresponding part of the ranking in Figure 6 is operated, and the user that is displayed when the corresponding part of the member is operated. The figure which shows an example of the profile information of. FIG. 2 is a diagram showing a relationship between a graph of a detected sleep condition of a user wearing a wearable terminal of the wearable terminal communication system according to an embodiment of the present invention and a vibration function.

The wearable terminal communication system of the present invention includes a plurality of wearable terminals and a server, and the user information of each user of the plurality of wearable terminals and the target value information of the user's health information are registered in advance in the database of the server, The wearable terminal is attached to the user's arm, detects information related to the user's health, and sends the detected information from the user to the server.The server records the information received from the wearable terminal in a database, and the user's When the server is accessed from the terminal, the user terminal is configured to display the user's health information and target value information based on the server's database, so the user can check how much he or she is achieving against the target. The specific implementation may be of any kind as long as it allows you to do this and maintain your motivation.
Further, the program of the wearable terminal communication system of the present invention includes a pre-registration step in which the server registers user information of each user of the plurality of wearable terminals and target value information of the user's health information in a database of the server in advance; a recording step in which the wearable terminal is worn on the user's arm, detects information related to the user's health, transmits the detected information from the user to a server, and the server records the information received from the wearable terminal in a database; When the server is accessed from the user's user terminal, the user terminal is equipped with a display step for displaying the user's health information and target value information based on the database of the server, so that the user can reach the goal. Any specific implementation may be used as long as it allows you to check how much you are doing and maintain your motivation.

For example, a wearable terminal is a wristwatch-type terminal that is worn on the user's arm, and includes, for example, a device that has a light-emitting element and a light-receiving element (photo sensor) to measure blood flow using light, or a device that has a temperature sensor. If it uses some type of sensor, such as one that measures body temperature with or without contact with the epidermis of the wrist or arm, to obtain information about the user's health and transmit it to the server by communicating directly or indirectly with the server. It doesn't matter what it is.
Furthermore, the wearable terminal may be one that acquires position information such as GPS.
Furthermore, the user terminal is one that displays data on a screen in a browser on the display section of the user terminal, such as a desktop personal computer terminal, a notebook personal computer terminal, a smartphone terminal, a tablet terminal, a wristwatch terminal, or a glasses terminal. , a wide area network such as the so-called Internet, a local network, a telephone line, etc., as long as it connects to a server and transmits and receives data.
Further, the server may be a cloud server created in a cloud environment, and the number of physical servers configuring the server may be one or more.

Below, a wearable terminal communication system 100 that is an embodiment of the present invention will be described based on FIGS. 1 to 8.
Here, FIG. 1 is a diagram showing the concept of a wearable terminal communication system 100 that is an embodiment of the present invention, and FIG. 2 is a chart diagram showing an example of the operation of the wearable terminal communication system 100 that is an embodiment of the present invention. FIG. 3 is a diagram showing an example of user health information and target value information MK displayed on the user terminal 130 of the wearable terminal communication system 100 which is an embodiment of the present invention, and FIG. FIG. 5 is a diagram showing an example of an individual ranking RK displayed on the user terminal 130 of the wearable terminal communication system 100 which is an embodiment of the invention. FIG. FIG. 6 is a diagram showing an example of a ranking MR regarding the degree of achievement with respect to the individual competition target value information MK displayed on the terminal 130. FIG. 7A is a diagram showing an example of a displayed ranking RK of a company's divisions, and FIG. 7A is an example of displaying the members of the department that are displayed when the relevant part of the ranking RK in FIG. 6 is operated. FIG. 7B is a diagram showing an example of the user's profile information PF that is displayed when the member shown in FIG. FIG. 2 is a diagram showing a relationship between a vibration function and a graph that detects the sleep status of a user wearing a wearable terminal of the wearable terminal communication system 100 according to an embodiment of the present invention.

As shown in FIG. 1, a wearable terminal communication system 100 that is an embodiment of the present invention includes a plurality of wristwatch-type wearable terminals 110 that are examples of wearable terminals, a server 120, and a user terminal 130.
A server 120 is provided to manage the data of the wristwatch-type wearable terminal 110.
Specifically, user information US of each user of the plurality of wristwatch-type wearable terminals 110 and target value information MK of information regarding the user's health are registered in advance in the database 121 of the server 120.
Note that the timing of registration of each user's target value information MK may not be the same as the timing of registration of each user's user information US.

Here, the wristwatch-type wearable terminal 110 is worn on the user's wrist, which is an example of the user's body.
The wristwatch-type wearable terminal 110 has one or more sensors, detects information related to the user's health, and transmits the detected information from the user to the server 120.
Note that information data may be sent from the wristwatch-type wearable terminal 110 to the server 120 directly from the wristwatch-type wearable terminal 110 to the server 120, or by using the user terminal 130 paired with the wristwatch-type wearable terminal 110. The information may also be indirectly transmitted from the wristwatch-type wearable terminal 110 to the server 120 via the user terminal 130.

Then, the server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121.
When the server 120 is accessed from the user terminal 130 of the user, the user terminal 130 is configured to display information related to the user's health and target value information MK based on the database 121 of the server 120.
As a result, not only information regarding the user's health that changes daily, but also target value information MK is displayed.
As a result, users can see how close they are to their goals and stay motivated.

Next, an example of the operation of the wearable terminal communication system 100 will be described in more detail.
As shown in FIG. 2, in step S1, as a pre-registration step, the server 120 sends the user information US of each user of the plurality of wristwatch-type wearable terminals 110 and the target value information MK of the user's health information to the server. 120 in the database 121 in advance.
Specifically, the identification number of the wristwatch-type wearable terminal 110 and the user information US are registered in association with each other.
The user information US may be registered by inputting it on the user terminal 130 and then transmitting it to the server 120, or the administrator may register it in the database 121 of the server 120 using the administrator terminal. .

In step S2, as a recording step, the wearable terminal is attached to the user's arm, detects information regarding the user's health, and transmits the detected information from the user to the server 120.
Then, the server 120 determines whether information regarding each user's health has been received from the plurality of wristwatch-type wearable terminals 110.
If it is determined that the information has been received, the process proceeds to step S3; on the other hand, if it is determined that the information has not yet been received, step S2 is repeated.

In step S3, as a recording step, the server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121.
In step S4, as shown in FIG. 3, as a display step, when the user terminal 130 of the user accesses the server 120, the user terminal 130 displays the user's health information and goals based on the database 121 of the server 120. The value information MK is displayed on the display section 131.
As a result, as described above, not only the user's health-related information that changes daily, but also the target value information MK is displayed.
As a result, users can see how close they are to their goals and stay motivated.

As shown in FIG. 3, the display unit 131 of the user terminal 130 displays a stress score of 72pt as an example of information related to the user's health, and a target stress score of 90pt as an example of target value information MK. ing.
Further, changes in stress scores from when the target value information MK was set to the present are displayed as an example in a line graph, and the target value information MK is displayed as an example in a dotted line.
Furthermore, based on the stress score of 33pt and the target value of 90pt as an example of user health information when setting the target value information MK, "achievement rate 68%" is the goal achievement information for the stress score of 72pt. Displayed.

Furthermore, in this embodiment, information related to the user's health includes information about blood oxygen content, information about estimated sleeping skin temperature, information about breathing rate, information about heart rate during exercise, and information about heart rate at rest. information about the user's age and resting heart rate, information about the activity score based on intensity of activity load, information about the sleep score based on sleep quality and duration, and information about the stress score. Either one.

This provides information about blood oxygen content, estimated sleeping skin temperature, breathing rate, exercise heart rate, resting heart rate, user age and resting heart rate. At least one of the following: information about activity scores based on strength of activity load based on numbers, information about sleep scores based on sleep quality and time, information about stress scores, and target value information MK is displayed.
As a result, the user wearing the wristwatch-type wearable terminal 110 can check how much of the health-related information he or she is achieving toward his or her goal, and can promote his or her own health.

Information about the amount of oxygen in the blood (blood oxygen saturation) can be obtained, for example, by using a light-emitting element and a light-receiving element (photosensor) to irradiate light onto the blood and determine the degree of redness of the blood. By measuring the amount of oxygen in the blood (blood oxygen saturation), it is possible to measure the amount of oxygen in the blood (blood oxygen saturation).
Information on estimated sleeping skin temperature can be obtained by measuring the pulse rate (heart rate) using a light-emitting element and a light-receiving element (photosensor), for example, and measuring the pulse rate (heart rate) until it reaches the reference value level at rest. It is determined (estimated) that the person is sleeping when a predetermined amount of time has elapsed, or the 3-axis acceleration sensor is used to determine (estimated) that the person is asleep when there is almost no movement for a predetermined period of time, and the skin temperature is measured using a temperature sensor. be able to.

Information about the respiration rate can be measured by using a chest sensor in combination and measuring the movement of the chest sensor.
For information on heart rate during exercise, a 3-axis acceleration sensor is used to determine when the device is exercising, and a light-emitting element and a light-receiving element (photo sensor) are used to illuminate the blood and detect the pulse. This allows you to measure your heart rate.
Information about resting heart rate is determined by using a 3-axis acceleration sensor to determine that the person is at rest when there is almost no movement, and uses a light-emitting element and a light-receiving element (photo sensor) to illuminate the blood. The heart rate can be measured by emitting radiation and detecting the pulse.

For information about the activity score based on the strength of the activity load based on the user's age and resting heart rate, input the user's age on the wristwatch-type wearable terminal 110, and use the input age information and the pre-measured resting heart rate. Based on the heart rate information during exercise, the activity load level for the user is calculated, and the activity score is determined by determining which level of the activity load level corresponds to the heart rate measurement information during exercise and the measurement information of exercise time. It can be calculated. A high activity score means that the user performed exercise with a high activity load level.
For information on sleep scores based on sleep quality and time, for example, a standard value level at rest can be obtained by measuring pulse rate (heart rate) using a light-emitting element and a light-receiving element (photo sensor). It is determined that the user is sleeping when a predetermined amount of time has elapsed, or when there is almost no movement for a predetermined time using a 3-axis acceleration sensor, and the sleep time is measured. Detects and records REM sleep, NREM sleep, and sleep depth from information and movement information, and evaluates sleep quality based on the cycle of sleep depth fluctuations, the number of fluctuations, and sleep depth. represents. A higher sleep score means better sleep quality.

For the stress score, for example, an electrical sensor is used to detect electrical changes on the skin, and "reactivity" is calculated using heart rate measurement information. The higher the "reactivity" value, the less the fight or flight response in the past few days.
Next, for example, the pulse rate (heart rate) is measured using a light emitting element and a light receiving element (photo sensor), the amount of exercise is measured using a 3-axis acceleration sensor, and the amount of physical activity is determined from these. Measure. Too little physical activity causes stress, while too much physical activity causes stress. "Activity balance" is calculated based on the amount of physical activity based on a moderate amount. The higher the ``activity balance'' value, the more appropriate the balance is.
Next, a "sleep pattern" is calculated from the cycle of sleep depth fluctuations, the number of fluctuations, and the sleep depth described above. The higher the number, the more prepared you are for stress.
A stress score is then calculated based on "reactivity,""activitybalance," and "sleep pattern." A higher number means fewer signs of a physical response to stress.

In addition, the Energy Score calculates a score by comparing the level of recent activity, sleep, and heart rate variability with individual reference values, and evaluates whether the state is suitable for exercise or whether recovery should be prioritized. ing. A high score means you are ready for more intense exercise, while a low score means you are more likely to exercise hard, lack sleep, stress, strain on your body, or a combination of these factors. , means a state of accumulated fatigue.

Note that the information regarding the user's health may be information on the number of steps taken, estimated calorie consumption information, estimated movement distance information during exercise, estimated movement speed information during exercise, or the like.
Regarding step count information, the number of steps is measured using a 3-axis acceleration sensor.
Also, regarding estimated calorie consumption information, the amount of exercise is estimated using a 3-axis acceleration sensor based on the user's weight information and age information, and the calorie consumption is calculated.
Furthermore, regarding estimated movement distance information during exercise, the pulse rate (heart rate) is measured to determine whether or not the person is exercising, and the amount of exercise during exercise is estimated using a 3-axis acceleration sensor to calculate the movement distance. Changes in location information due to the GPS function may also be used.
Regarding the estimated movement speed information during exercise, the pulse rate (heart rate) is measured to determine whether or not the person is exercising, and the amount of exercise during exercise is estimated using a 3-axis acceleration sensor to calculate the movement speed. Similar to the estimated movement distance information during exercise, changes in position information due to the GPS function may be used.

Further, in this embodiment, the server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121 and associates it with the user information US to create a ranking RK of information regarding the user's health within the most recent predetermined time period. .
As shown in FIG. 4, when the server 120 is accessed from the user terminal 130 of the user, the user terminal 130 is configured to display the ranking RK based on the database 121 of the server 120.
Note that the user of the user terminal 130 may be the same as the user of the wristwatch-type wearable terminal 110, or may be different.

As a result, the ranking RK of information detected by the wristwatch-type wearable terminal 110 of a plurality of users using the wristwatch-type wearable terminal 110 is displayed on the user terminal 130.
As a result, multiple users can learn their rankings and compete for results.
Furthermore, by accessing the server 120, the ranking RK is also displayed on the user terminal 130 of a user who is not wearing the wristwatch type wearable terminal 110.
As a result, users of other user terminals 130 can view and support the ranking RK of the participants.

Furthermore, in the present embodiment, the server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121, associates it with the user information US, and sets target value information MK regarding the user's health information within the most recent predetermined time period. Create a ranking MR regarding the degree of achievement.
Then, as shown in FIG. 5, when the user terminal 130 of the user accesses the server 120, the user terminal 130 calculates the ranking MR regarding the degree of achievement for the target value information MK based on the database 121 of the server 120. configured to display.

As a result, the ranking MR regarding the degree of achievement of the plurality of users using the wristwatch-type wearable terminal 110 with respect to the target value information MK is displayed on the user terminal 130.
As a result, multiple users can learn their rankings and compete against each other to achieve their goals.
Furthermore, by accessing the server 120, the ranking MR is also displayed on the user terminal 130 of a user who is not wearing the wristwatch type wearable terminal 110.
As a result, users of other user terminals 130 can view and support the ranking MR of the participants.
Furthermore, if users simply compete based on their performance based on information about their health, there is a risk that users will tend to give up due to personal circumstances such as their health or chronic illness, or that competition will become excessive. However, by competing based on the results of each individual's goals, users can maintain their own pace and compete according to their individual level and circumstances.
In addition, the display of the ranking MR regarding the degree of achievement for the target value information MK shown in FIG. 5 and the display of the ranking RK regarding the information detected by the wristwatch type wearable terminal 110 shown in FIG. 4 are switched by the user's operation. It is set freely.
As a result, the daily efforts and awareness of each individual toward their goals can be seen not only from the ranking RK regarding the information detected by the wristwatch-type wearable terminal 110 but also from the ranking MR regarding the degree of achievement.
As a result, rather than supporting excessive competition, users can evaluate each individual's daily effort and awareness toward their goals, support the user, and encourage each other as friends.
Furthermore, the server 120 is configured to create a ranking MR regarding the degree of achievement of a user who has achieved the goal by regarding the user as having completed the goal and excluding the user from the ranking MR regarding the degree of achievement for the target value information MK. Good too.
Since the target users (remaining participants) will be ranked higher, the target users will be able to increase their motivation.

Further, in this embodiment, the user information US of each user of the plurality of wristwatch-type wearable terminals 110 is registered in the database 121 of the server 120 by company department or group.
Then, based on the information received from the wristwatch-type wearable terminal 110, the server 120 creates a ranking RK for company divisions or groups regarding information regarding the user's health within the most recent predetermined period of time.
Then, as shown in FIG. 6, when the server 120 is accessed from the user terminal 130 of the user, the user terminal 130 calculates the ranking RK of the company's divisional competition or group competition based on the database 121 of the server 120. It is configured to be displayed on the display section 131.

As a result, the ranking RK is displayed on the display unit 131 of the user terminal 130 in a company division competition or group competition.
As a result, a sense of camaraderie and solidarity can be enhanced among users wearing the wristwatch-type wearable terminals 110 within a company's department or within a group.
In particular, even in workplaces where people rarely meet face-to-face due to remote work, having a common mindset within company departments or groups can increase a sense of camaraderie and solidarity.

Further, in this embodiment, profile information PF, which is user information US of each user of the plurality of wristwatch-type wearable terminals 110, is registered in the database 121 of the server 120.
When the user terminal 130 that displays the ranking RK based on the database 121 of the server 120 performs an operation on the corresponding part of the ranking RK, the user terminal 130 displays the user of the ranking RK of the corresponding part based on the database 121 of the server 120. The profile information PF of the user is configured to be displayed.

Specifically, for example, when a user taps the "Management Department Team" section shown in Figure 6, name information ( User information (US) is displayed.
Then, when the user taps the part labeled "Emi Suzuki" shown in FIG. 7(A), Emi Suzuki's profile information PF is displayed as shown in FIG. 7(B).
Emi Suzuki's profile information PF includes, for example, information about her hobbies and things she likes.

As a result, the profile information PF of the user of the ranking RK of the corresponding location is displayed on the user terminal 130 where the operation was performed.
As a result, the user of the user terminal 130 can know the profile information PF of the user of the ranking RK.
In particular, users who support can learn about the users who are being supported, and on the other hand, by being able to see profile information PF, users with ranking RK can gain fans while being conscious of health-related matters. I can do it.
Furthermore, regarding the user introduction page shown in Figure 7 (B), in addition to the profile information PF, links to the users' blogs can be posted, and messages can be exchanged publicly and private individual messages can be exchanged. It may be configured as follows.

Further, in the present embodiment, as shown in FIG. 8, the wristwatch-type wearable terminal 110 has a deep sleep state at a first depth of sleep status of the user who is the wearer, a light sleep state at a second depth shallower than the first depth, and a light sleep state at a second depth shallower than the first depth. Detects REM state and awakened state shallower than the second depth.
Here, the wristwatch-type wearable terminal 110 has a vibration function.
As the first alarm function, you can set the vibration to turn on at a predetermined time.
For example, it is possible to set the vibration to turn on at 6:00 in the morning.
As the second alarm function, you can set the vibration to turn on at the optimal timing, taking into account your sleep cycle, sleep depth, number of sleep cycles, and sleep time.
For example, if a user wishes to wake up around 6:00 a.m., since the sleep depth cycle is approximately 90 minutes, the timing of REM state closest to 6:00 a.m. or 6:00 a.m. It is possible to set the wristwatch-type wearable terminal 110 to predict the most recent timing before 00 when the device enters the REM state, and to turn on the vibration at that timing.
For example, if the user wishes to sleep for 8 hours, since the sleep depth cycle is approximately 90 minutes, the closest REM state timing will be 8 hours after the start of sleep is detected, or 8 hours. It is possible to set the wristwatch-type wearable terminal 110 to predict the timing of entering the REM state most recently before the end of the hour, and to turn on the vibration at that timing.
The depth of sleep in one cycle tends to gradually become shallower each time the cycle is repeated, and when it is detected that it has become shallow to a certain extent, vibrations are activated when the sleep depth is at the second depth of light sleep or when the REM state is shallower than the second depth. It may be set to be ON.
Note that the vibration is not necessarily turned on at the timing of the REM state, but may be turned on at the timing of the light sleep state.
Furthermore, for the third nap, the vibration is turned on during the light sleep state of the first non-REM sleep, or during the intermediate sleep state between the first light sleep and deep sleep. It can be freely set so that
Here, it is possible to determine whether the user is in an intermediate sleep state or a deep sleep state based on the sleep depth and cycle of the sleep graph recorded by the user so far.

When the wristwatch-type wearable terminal 110 is woken up by the vibration function from any of the deep sleep state, light sleep state, and REM state, the time from the start of the vibration function to the time when the wristwatch type wearable terminal 110 becomes the awake state. The TM is measured and the measured time information is transmitted to the server 120.
The information regarding the user's health is information on the time TM from the start of the vibration function until the user becomes awake, and the information on the time TM from the start of the vibration function until the user becomes awake is displayed on the display of the user terminal 130. 131.
Thereby, the feeling of wakefulness is displayed on the user terminal 130.
As a result, by focusing on getting a good night's sleep, users can avoid heavy drinking and hangovers, and as a result, be more content and healthy when they wake up.

Note that a target value is also set for the time TM from the start of the vibration function until the state becomes awake, and the information on the time TM from the start of the vibration function until the state becomes awake, and the target value information MK. , may be configured to be displayed on the display unit 131 of the user terminal 130.
Furthermore, the server 120 may create a ranking MR regarding the degree of achievement with respect to the target value information MK with respect to the information on the time TM from the time when the vibration function is started until the state becomes an awake state.
This forces the user to be conscious of good awakening.
As a result, by focusing on getting a good night's sleep, participants can avoid heavy drinking and hangovers, and as a result, be more content and healthy when they wake up.

Further, the server 120 may create a ranking RK regarding information on the time TM from the start of the vibration function until the user becomes awake.
Information on the time TM from the start of the vibration function until the user becomes awake may be configured to be displayed on the display unit 131 of the user terminal 130 in the ranking RK.
As a result, the level of alertness is displayed in the ranking RK.
As a result, by focusing on getting a good night's sleep, participants can avoid heavy drinking and hangovers, and as a result, be more content and healthy when they wake up.
Furthermore, if users simply compete based on performance based on information about their health, there is a risk that users will tend to give up due to personal circumstances such as health conditions or chronic illnesses, or that competition will become excessive. However, by competing based on the results of each individual's goals, users can maintain their own pace and compete according to their individual level and circumstances.

Regarding the measurement of the time TM from the start of the vibration function until the state becomes awake, it may be in any case of alarm function 1, alarm function 2, or alarm function 3, but alarm function 2 It is especially easy to evaluate how alert you are when you are awake.
Also, in the case of alarm function 3, you can check your progress in recovering from fatigue by taking a nap.
In other words, the shorter the time TM from the start of the vibration function until the patient becomes awake, the better the fatigue recovery from a nap will be.
Furthermore, the degree of fatigue recovery due to sleep of the user may be calculated and evaluated as a score based on the time TM from the start of the vibration function detected a plurality of times until the user becomes awake.
In addition, if both alarm function 2 and alarm function 3 are evaluated as a set, it becomes possible to properly evaluate the user's level of fatigue and recovery from fatigue, which affects concentration at work and quality of work. It is preferable to evaluate both alarm clock function 2 and alarm clock function 3 as a set.

The wearable terminal communication system 100 according to the embodiment of the present invention thus obtained includes a plurality of wristwatch-type wearable terminals 110 and a server 120, and stores user information US of each user of the plurality of wristwatch-type wearable terminals 110. and target value information MK of information related to the user's health are registered in advance in the database 121 of the server 120, and the wristwatch-type wearable terminal 110 is worn on the user's arm to detect the information related to the user's health and detect it from the user. The server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121, and when the user's user terminal 130 accesses the server 120, the user terminal 130 By displaying the user's health-related information and target value information MK based on the database 121 of 120, the user can check how far he or she is in relation to the target, and can maintain motivation.

In addition, the user's health information includes information about blood oxygen content, estimated sleeping skin temperature, breathing rate, heart rate during exercise, resting heart rate, and information about the user's health. at least one of the following: information about an activity score based on the intensity of activity load based on age and resting heart rate; information about a sleep score based on sleep quality and time; and information about a stress score. By doing so, the user wearing the wristwatch-type wearable terminal 110 can check how much of the health-related information is in relation to the target and promote his or her health.

Further, the server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121 and creates a ranking RK regarding the user's health information within the most recent predetermined time by associating it with the user information US. When the server 120 is accessed from the terminal 130, the user terminal 130 is configured to display the ranking RK based on the database 121 of the server 120, so that multiple users can know the ranking and compete for results. Users of other user terminals 130 can see the ranking RK of the participants and support them.

Further, the server 120 records the information received from the wristwatch-type wearable terminal 110 in the database 121 and associates it with the user information US to determine the degree of achievement of the target value information MK regarding the user's health information within the most recent predetermined period of time. When the server 120 is accessed from the user terminal 130 of the user, the user terminal 130 creates the ranking MR of the achievement level for the target value information MK based on the database 121 of the server 120, and the user By displaying the ranking RK regarding health information in a flexible manner, multiple users can learn the ranking, etc., and compete for performance against goals at their own pace according to each user's individual level and circumstances. Users of other user terminals 130 can watch and support the participants' ranking MR, and instead of supporting excessive competition, they can encourage each individual's daily effort and awareness towards their goals. You can rate users, support them, and encourage each other as friends.

In addition, the wristwatch-type wearable terminal 110 detects a deep sleep state at a first depth, a light sleep state at a second depth shallower than the first depth, an REM state, and an awake state of the sleep state of the user who is the wearer. When the user wakes up from a sleep state, light sleep state, or REM state by the vibration function, the time TM from the start of the vibration function until the user becomes awake is measured, and information regarding the user's health is obtained. is information on the time TM from the start of the vibration function until the user becomes awake, and the information on the time TM from the start of the vibration function until the user becomes awake is configured to be displayed on the user terminal 130. By focusing on getting a good night's sleep, users can avoid heavy drinking and hangovers, and as a result, be more fulfilled and healthy when they wake up.

Further, the program of the wearable terminal communication system 100 which is an embodiment of the present invention is such that the server 120 sends the user information US of each user of the plurality of wristwatch-type wearable terminals 110 and the target value information MK of the user's health information to the server. 120 database 121, the wristwatch-type wearable terminal 110 is worn on the user's arm, detects information related to the user's health, and transmits the detected information from the user to the server 120, Recording steps S2 and S3 in which the server 120 records information received from the wristwatch-type wearable terminal 110 in the database 121, and when the user terminal 130 of the user accesses the server 120, the user terminal 130 records the information received from the wristwatch-type wearable terminal 110 in the database 121. 121, the user can check how far he or she is in achieving the goal, and can maintain motivation. The effects are enormous.

100... Wearable terminal communication system 110... Wristwatch type wearable terminal 120... Server 121... Database 130... User terminal 131... Display section MK... Target value information RK... ( Ranking MR (about the user's health information itself) ... Ranking TM (about the degree of achievement) ... Time from the start of the vibration function until the user becomes awake US ... User information PF ... Profile information

Claims (6)

A wearable terminal communication system comprising a plurality of wearable terminals and a server and managing data of the wearable terminals with the server,
User information of each user of the plurality of wearable terminals and target value information of the user's health information are registered in advance in a database of a server,
The wearable terminal is attached to a user's arm, detects information regarding the user's health, and transmits the detected information from the user to a server,
the server records information received from the wearable terminal in a database;
A wearable terminal communication system characterized in that, when a server is accessed from a user's user terminal, the user terminal displays information regarding the user's health and target value information based on a database of the server. The information related to the user's health may include information about blood oxygen level, estimated sleeping skin temperature, breathing rate, heart rate during exercise, resting heart rate, At least one of the following: information about an activity score based on intensity of activity load based on age and resting heart rate; information about a sleep score based on sleep quality and time; and information about a stress score. The wearable terminal communication system according to claim 1, characterized in that: The server records the information received from the wearable terminal in a database and associates it with user information to create a ranking of information regarding the user's health within the most recent predetermined time;
3. The wearable terminal communication system according to claim 2, wherein when the server is accessed from a user terminal of a user, the user terminal displays a ranking based on a database of the server. The server records the information received from the wearable terminal in a database and associates it with user information to create a ranking of the degree of achievement of the target value information regarding the user's health information within the most recent predetermined time;
When the server is accessed from the user's user terminal, the user terminal can freely switch between the ranking of the degree of achievement of the target value information and the ranking of the user's health information based on the database of the server. The wearable terminal communication system according to claim 3, characterized in that the wearable terminal communication system is configured to display. The wearable terminal detects a deep sleep state at a first depth, a light sleep state at a second depth shallower than the first depth, an REM state, and an awake state of the sleep state of the user who is the wearer, and detects a deep sleep state and a light sleep state. When the device becomes awake due to the vibration function from either the sleep state or the REM state, the time from the start of the vibration function until the state becomes awake is measured.
The information regarding the user's health is time information from the start of the vibration function until the user becomes awake,
5. The wearable terminal communication system according to claim 1, wherein time information from the start of the vibration function until the user becomes awake is displayed on the user terminal. A program for a wearable terminal communication system that includes a plurality of wearable terminals and a server and manages data of the wearable terminals with the server,
a pre-registration step in which the server pre-registers user information of each user of the plurality of wearable terminals and target value information of the user's health information in a database of the server;
a recording step in which the wearable terminal is worn on the user's arm, detects information related to the user's health, transmits the detected information from the user to a server, and the server records the information received from the wearable terminal in a database; ,
The method further comprises a display step in which, when the server is accessed from the user terminal of the user, the user terminal displays information related to the user's health and target value information based on the database of the server. Wearable terminal communication system program.