JP6858616B2 - Biometric information management system, biometric information management device, and biometric information management method - Google Patents

Description

The present invention relates to a biometric information management system, a biometric information management device, and a biometric information management method.

Conventionally, it has been known that fatal accidents in houses increase in winter. The major cause is the occurrence of circulatory system disorders such as myocardial infarction and cerebral infarction triggered by the temperature difference in the living space, which is equivalent to 3 to 4 times the number of fatalities in traffic accidents. The temperature differences that cause these problems are being eliminated by strengthening the heat insulation of houses and operating heating and cooling equipment in recent years.

Moreover, in recent years, it has been proposed to try early detection of illness by relating housing to the health of residents. If the health condition can be improved before taking medication and going to the hospital, it will be possible to contribute to the enrichment of the lives of the residents. Therefore, it is extremely important to measure the health condition by eliminating the stress of the resident as much as possible. Residents entering some data, activating measuring instruments, attaching to the body, etc. are performed during the initial period of interest in the system or during the treatment period, but are continued. It seems to be rare. Even the scales installed in many homes are sometimes obsolete and even annoying.

For example, Patent Document 1 describes that the measured blood pressure or the like is transmitted to a health check center, and a health judgment result and an improvement instruction are received from the health check center. Further, Patent Document 2 describes that the effect of health and beauty behavior is evaluated based on the state of health and beauty of the user and the behavior history of the user.

Japanese Unexamined Patent Publication No. 2005-65512 Japanese Unexamined Patent Publication No. 2015-204833

However, in the technique described in Patent Document 1, it is necessary to attach a blood vein sack to the finger when measuring blood pressure, and there are many other devices to be attached, which requires a lot of time and effort for the user. There is a problem in getting it done. Further, the technique described in Patent Document 2 has a problem that it processes information in which health and beauty measurement information and behavior history are associated with each other and requires complicated processing.

Furthermore, when biometric information such as blood pressure is stored or transmitted via a communication network, there is a risk of leakage such as unauthorized access to the device that stores the biometric information or eavesdropping on the communication network. .. Therefore, it is required to prevent leakage of biometric information as personal information that is strictly required to be kept secret.

An object of the present invention made in view of such circumstances is a biometric information management system, a biometric information management device, and a biometric information management method capable of preventing leakage of biometric information as personal information that is strictly required to be kept secret. Is to provide.

The biometric information management system as one aspect of the present invention is a biometric information management system in which a measuring device for measuring the biometric information of a user and a biometric information management device for managing the biometric information of the user transmit and receive information to each other. Therefore, the measuring device includes a biological information measuring unit that measures a measured value related to a user's biological information a plurality of times, and a calculating unit that calculates a measurement difference value that is a difference between the measured values measured a plurality of times. The determination unit for determining the health condition of the user based on the plurality of measurement difference values for the user and the wall surface temperature of the wall surface that defines at least a part of the space where the user is located. was measured by the biological information measuring unit are measured have you to measurement of at least one, encrypted measured value, and a storage unit that stores the measured difference values are measured have you to measure the at least one , An encrypted measured value , and a first communication unit that transmits the measured difference value to the biometric information management device, and the biometric information management device is at least one transmitted by the first communication unit. measured have you to measurement times, encrypted measured value, and in which a second communication unit that receives the measurement difference value.

One embodiment of the present invention, the determination unit generates a caution information corresponding to the health condition, the measuring device preferably further comprises an output unit which outputs the caution information.

In one embodiment of the present invention, in the determination unit, the blood pressure difference value, which is the measurement difference value, rises by a first threshold value or more within a predetermined period, and the wall surface temperature rises by a fourth threshold value or more within the predetermined period. If it decreases, it is preferable not to output the caution information.
In one embodiment of the present invention, in the determination unit, the posture difference value, which is the measurement difference value, changes by a second threshold value or more within a predetermined period, and the wall surface temperature drops by a fifth threshold value or more within the predetermined period. If so, it is preferable not to output the caution information.

As one embodiment of the present invention, the measuring device is preferably arranged in a washroom.

As one embodiment of the present invention, it is preferable that the measured value stored in the storage unit is encrypted.

As one embodiment of the present invention, the second communication unit has a difference value for the user and a user ID for identifying the user based on a difference data request transmitted from a specialized institution device. It is preferable to transmit the difference data including and to the specialized engine device.

As one embodiment of the present invention, the biometric information management device is based on difference data for each of the plurality of users and symptom identification information for each of the plurality of users transmitted from a specialized institution device. A correlation estimation unit for estimating the correlation between the difference data and the symptom identification information is provided, and the second communication unit transmits the correlation data indicating the correlation estimated by the correlation estimation unit to the specialized institution device. Is preferable.

The measuring device as one aspect of the present invention calculates a measurement difference value which is a difference between a biological information measuring unit which measures a measured value related to a user's biological information a plurality of times and the measured value measured a plurality of times. A determination unit that determines the health condition of the user based on the calculation unit, a plurality of measurement difference values for the user, and the wall surface temperature of the wall surface that defines at least a part of the space where the user is located. When, as measured by the biological information measuring unit are measured have you to measurement of at least one, encrypted measured value, and a storage unit for storing the measurement difference value, the measurement of the at least one contact are have measured are those comprising encrypted measured value, and a first communication unit that transmits the measured difference in the biological information management apparatus.

The biological information management method as one aspect of the present invention is a measuring method for measuring a user's biological information by a measuring device, and includes a step of measuring a measured value related to the user's biological information a plurality of times and a plurality of times. A step of calculating a measurement difference value which is a difference of the measurement values measured over a period of time, a plurality of the measurement difference values for the user, and a wall surface temperature of a wall surface which defines at least a part of the space where the user is. based on the bets and determining the health condition of the user, the measured, it is measured have you to measurement of at least one, and storing the encrypted measurement, and the measurement difference value the measured have you at least one measurement, those containing encrypted measured value, and, and transmitting the measured difference in the biological information management apparatus.

According to the present invention, it is possible to prevent leakage of biometric information as personal information, and it is possible to acquire biometric information with a simple device without the user wearing a device and without imposing a burden on the user. it can.

It is a block diagram which shows the structural example of the biological information management system which concerns on 1st Embodiment. It is a figure which shows an example of the data which the storage part of the measuring apparatus shown in FIG. 1 stores. FIG. 1 is a diagram showing an example of a graph showing a blood pressure difference value and a time-series change of each blood pressure. FIG. 1 is a diagram showing an example of data stored in a storage unit of a biological information management device. It is a sequence diagram which shows the difference data processing in the biometric information management method of the biometric information management system which concerns on 1st Embodiment. It is a sequence diagram which shows the correlation data processing in the biometric information management method of the biometric information management system which concerns on 1st Embodiment. It is a sequence diagram which shows the medical treatment appointment processing in the biological information management method of the biological information management system which concerns on 1st Embodiment. It is a sequence diagram which shows the biometric information management method of the biometric information management system which concerns on 2nd Embodiment. It is a sequence diagram which shows the biometric information management method of the biometric information management system which concerns on 3rd Embodiment.

Hereinafter, the first embodiment of the present invention will be described with reference to the drawings.

First, the biological information management system 1 of the first embodiment will be described with reference to FIG. FIG. 1 is a schematic configuration diagram of the biological information management system 1 according to the first embodiment.

As shown in FIG. 1, the biometric information management system 1 includes one or more measuring devices 2, a biometric information management device 3, and one or more specialized institutional devices 4. Further, the measuring device 2 and the biological information management device 3 transmit and receive information from each other via a communication network. Further, the biological information management device 3 and the specialized institution device 4 transmit and receive information to and from each other via a communication network.

The measuring device 2 is installed in a place where users are frequently present and is likely to stand upright and stand still for a predetermined time (about several seconds), for example, in a washroom in a house. The measuring device 2 includes an imaging unit 20, an authentication unit 21, a biological information measuring unit 22, a wall surface temperature measuring unit 23, a calculating unit 24, a storage unit 25, a determination unit 26, and an output unit 27. A unit 28 and a communication unit 29 (first communication unit) are provided.

The imaging unit 20 images a user as a subject and generates a visible image (still image and moving image) including an image of the user. The imaging unit 20 generates an infrared image of the user and the wall surface around the user by the infrared rays emitted from the subject. The wall surface around the user may be, for example, a wall on the back surface of the user.

The authentication unit 21 identifies the user ID of the user by authenticating the user. Specifically, the authentication unit 21 authenticates the image of the user's face included in the visible image generated by the imaging unit 20 by a known authentication technique. Specifically, the authentication unit 21 detects a feature amount (authentication information) from the image of the user's face, and when the detected authentication information is not stored in the storage unit 25, the measuring device 2 identifies the user. The user ID to be used is added to the authentication information and stored in the storage unit 25. When the detected authentication information is stored in the storage unit 25, the authentication unit 21 authenticates that the captured user is the user related to the user ID given to the authentication information.

Further, the authentication unit 21 may estimate the gender and age of the user by using a known method based on the image of the user's face included in the visible image generated by the imaging unit 20. .. In this case, the authentication unit 21 stores the estimated gender and age in the storage unit 25 in association with the user ID. The storage unit 25 may store the gender and age by setting in advance by the operation of the user.

The biological information measuring unit 22 measures the measured value related to the biological information a plurality of times. Measured values related to biological information include, for example, blood pressure, posture values indicating posture distortion, and body temperature.

For example, the biological information measuring unit 22 measures the blood pressure of the user. Specifically, the biological information measuring unit 22 detects a change in the brightness of a region representing the user's skin included in the visible image (moving image) generated by the imaging unit 20. Further, the biological information measuring unit 22 calculates the time change of the pulse based on the change in brightness, and determines the blood pressure (maximum blood pressure and diastolic blood pressure) based on the time change of the pulse.

In addition, the biological information measuring unit 22 measures, for example, a posture value indicating a strain of the user's body. Specifically, the camera of the biological information measuring unit 22 is based on an image of at least a part of the user's body included in the visible image generated by the imaging unit 20, and is horizontal to the user's shoulder by a known method. Determine the posture value indicating the strain for each of the line, the vertical spine line, and the anteversion line of the spine.

The biological information measuring unit 22 measures, for example, the body temperature of the user. The biological information measuring unit 22 determines the body temperature of the user by a known method based on the region including the image of the user in the infrared image generated by the imaging unit 20.

The wall surface temperature measuring unit 23 measures the wall surface temperature located in the vicinity of the user when the blood pressure, posture value, or body temperature is measured. Specifically, the wall surface temperature measuring unit 23 determines the wall surface temperature by a known method based on the region including the image of the wall surface in the infrared image generated by the imaging unit 20.

The calculation unit 24 calculates a measurement difference value which is a difference between the measured values measured a plurality of times. Specifically, the calculation unit 24 calculates a measurement difference value which is a difference between the measured values other than the first measurement and the measured values in the first measurement. The measured value in the first measurement is encrypted and stored in the storage unit 25 as described later.

Specifically, the calculation unit 24 calculates the blood pressure difference value, which is the difference from the blood pressure at the time of the first measurement, stored in the storage unit 25 each time the blood pressure is measured by the biological information measurement unit 22.

Further, the calculation unit 24 calculates the posture difference value, which is the difference from the posture value at the time of the first measurement stored in the storage unit 25, every time the posture value is measured by the biological information measurement unit 22. More specifically, the shoulder horizontal difference value, which is the difference between the shoulder horizontal line of the user measured by the biological information measuring unit 22 and the shoulder horizontal line stored in the storage unit 25 at the time of the first measurement, is calculated. Similarly, the calculation unit 24 calculates the spine vertical difference value and the spine anteversion difference value for each of the spine vertical line and the spine anteversion line.

The storage unit 25 stores the difference data. The difference data includes a user ID, a measurement date and time, and a measured value measured and encrypted for the first time. Further, the difference data includes a measurement difference value which is a difference from the initial measurement value calculated by the calculation unit 24 for each measurement by the biological information measurement unit 22. Further, in association with each measurement difference value, the wall surface temperature at the time when the measurement value related to the measurement difference value is measured may be further included. Further, the difference data may include the wall surface temperature at the time when the measured value is measured in association with the measured value measured at the first time. The storage unit 25 may store not the measured value measured at the time of the first measurement, but the measured value for at least one measurement measured at an arbitrary time and the measured difference value which is the difference between the measured values. The measured difference value is, for example, a blood pressure difference value, a posture difference value, and a body temperature difference value.

For example, as shown in FIG. 2, the storage unit 25 stores blood pressure difference data. The blood pressure difference data includes a user ID, a measurement date and time, and a blood pressure that is first measured and encrypted by the biological information measuring unit 22. Further, the blood pressure difference data includes a blood pressure difference value calculated by the calculation unit 24 for each measurement by the biological information measurement unit 22. Further, the blood pressure difference data may include the wall surface temperature at the time when the blood pressure related to the blood pressure difference value is measured in association with each blood pressure difference value. In addition, the blood pressure difference data may include the wall surface temperature at the time when the blood pressure is measured in association with the blood pressure measured at the first time. In the example shown in FIG. 2, the storage unit 25 stores the diastolic blood pressure and the diastolic blood pressure difference value, but the storage unit 25 may store the systolic blood pressure and the diastolic blood pressure difference value. Good.

Similarly, the storage unit 25 stores the posture difference value data. The posture difference value data includes a user ID, a measurement date and time, and a posture value that is first measured and encrypted by the biological information measuring unit 22. In addition, the posture difference value data includes the posture difference value calculated by the calculation unit 24 for each measurement by the biological information measurement unit 22. Further, the wall surface temperature at the time when the posture related to the posture difference value is measured may be included in association with each posture difference value.

Similarly, the storage unit 25 stores the body temperature difference data. The body temperature difference data includes a user ID, a measurement date and time, and a body temperature that is first measured and encrypted by the biological information measuring unit 22. In addition, the body temperature difference data includes the body temperature difference calculated by the calculation unit 24 for each measurement by the biological information measurement unit 22. Further, the body temperature difference data may include the wall surface temperature when the body temperature related to the body temperature difference value is measured in association with each body temperature difference value.

The determination unit 26 determines the health condition of the user based on a plurality of measurement difference values stored in the storage unit 25. Specifically, the determination unit 26 outputs information requiring attention indicating that the patient is in a state requiring attention to health and advice on health based on the amount of change in the measured difference value and the predetermined threshold value within a predetermined period. Output to unit 27.

For example, the determination unit 26 determines whether or not the blood pressure difference value has increased by the first threshold value or more within one week. Then, when the blood pressure difference value rises above the first threshold value within one week, the determination unit 26 outputs the cautionary information to the effect that the dietary restriction is proposed to the output unit 27.

In another example, the determination unit 26 determines whether or not the posture difference value has changed by a second threshold value or more within one month. Then, when the posture difference value changes by the second threshold value or more within one month, the determination unit 26 outputs to the output unit 27 the cautionary information to propose the treatment by outpatient treatment.

In yet another example, the determination unit 26 determines whether or not the body temperature difference value has changed by a third threshold value or more within one day. Then, when the body temperature difference value changes by a third threshold value or more within one day, the determination unit 26 outputs cautionary information to suggest that a commercially available drug is taken and that the patient is at rest. Output to.

The determination unit 26 may determine the health of the user based on the measurement difference value and the wall surface temperature measured by the wall surface temperature measurement unit 23. For example, even if the blood pressure difference value rises by more than the first threshold value within one week, if the wall surface temperature falls by more than the fourth threshold value in the one week, the caution information is not output. It is presumed that the environment surrounding the user has become cold due to the decrease in wall temperature. In general, blood pressure tends to rise when it gets cold, even if you do not have the disease. Therefore, it is expected that the determination unit 26 can make an appropriate determination about health by using the blood pressure difference value and the wall surface temperature rather than simply based on the blood pressure difference value.

Similarly, the determination unit 26 needs to be careful if, for example, the wall surface temperature drops by the fifth threshold value or more in the one week even if the posture difference value changes by the second threshold value or more within one month. Do not output information. In general, even if the pelvis does not contain a large amount or more, the posture difference value tends to change significantly due to the contraction of the body when it gets cold. Therefore, it is expected that the determination unit 26 can make an appropriate determination about health by using the posture difference value and the wall surface temperature rather than simply based on the posture difference value.

The output unit 27 outputs the measurement difference value stored in the storage unit 25 to the display as visual information corresponding to the date and time when the measurement value related to the measurement difference value is measured. For example, as shown in FIG. 3A, the output unit 27 has a plurality of diastolic blood pressure difference values stored in the storage unit 25 on the vertical axis, and the date and time when the diastolic blood pressure related to the diastolic blood pressure difference value is measured. The graph with the horizontal axis is output to the display as visual information. The output unit 27 may display the systolic blood pressure difference value, the posture difference value, and the body temperature difference value on the display.

Further, when the determination unit 26 outputs the caution information, the output unit 27 displays the caution information on the display by outputting the information as visual information to the display. Further, when the determination unit 26 outputs the caution information, the output unit 27 may output the content indicated by the caution information to the speaker as voice information. The display or the speaker may be provided in the output unit 27, or may be separate from the measuring device 2.

The input unit 28 inputs various information by the input operation of the user. Specifically, the input unit 28 inputs a reservation application for a medical institution based on an input operation by the user.

The communication unit 29 transmits the difference data and the measurement device ID for identifying the measurement device 2 that has measured the measured value related to the difference data to the biometric information management device 3 via the communication network. The user ID is not the identification information for identifying the user in each measuring device 2, but the identification information for uniquely identifying the user of the difference data transmitted from the plurality of measuring devices 2 to the biometric information management device 3. If, the measuring device ID does not have to be transmitted.

The communication unit 29 can transmit the difference data to the biometric information management device 3 in real time when the measurement difference value is calculated by the calculation unit 24. Further, the communication unit 29 may transmit the difference data stored in the storage unit 25 to the biometric information management device 3 in batches for a predetermined period, for example, every day or every week.

Further, the communication unit 29 transmits the reservation application including the user ID input by the input unit 28 to the biometric information management device 3. Further, the communication unit 29 transmits the reservation completion notification transmitted from the biometric information management device 3 to the corresponding specialized institution device 4 based on the reservation application.

The biometric information management device 3 manages biometric information relating to a plurality of users. The biological information management device 3 includes a communication unit 31 (second communication unit), a conversion unit 32, a storage unit 33, a correlation estimation unit 34, and a service providing unit 35.

The communication unit 31 receives the difference data transmitted from each of the communication units 29 of one or more measuring devices 2. The reservation application transmitted from each of the communication units 29 of one or more measuring devices 2 is received.

Further, the communication unit 31 transmits / receives data to / from the specialized institution device 4 owned by the specialized institution. A specialized institution is, for example, a medical institution that provides medical care by a doctor or the like. Specifically, when the communication unit 31 receives the difference data request from the specialized institution device 4, the communication unit 31 stores the difference data stored in the storage unit 33 having the user ID included in the difference data request in the specialized institution device 4. Send to. In addition, the communication unit 31 receives the medical record information that is an image of the medical record including the user ID, the symptomatological identification information, and the drug identification information from the specialized institution device 4. The symptom identification information is information for identifying a user's symptom, and can be, for example, a symptom identification number or a symptom name. The drug identification information is information for identifying a drug prescribed by a doctor to a user, and can be, for example, a drug identification number or a drug name.

Further, the communication unit 31 transmits a reservation application to the specialized institution device 4 or receives a reservation completion notification from the specialized institution device 4 based on the reservation application received from the measuring device 2.

The conversion unit 32 digitizes or digitizes the user ID, the user's symptom identification information, and the drug identification information included in the image related to the medical record information received by the communication unit 31.

The storage unit 33 stores the difference data received by the communication unit 31. As a result, as shown in FIG. 4, the storage unit 33 stores the difference data of one or more users transmitted from the one or more measuring devices 2 in association with the measuring device ID and the user ID, respectively. .. In addition, the storage unit 33 stores the user ID, the symptom identification information, and the drug identification information that have been converted into text or numerical values by the conversion unit 32.

The correlation estimation unit 34 uses a plurality of data stored in the storage unit 33, which is composed of the difference data for each of the plurality of users and the medical record information of the plurality of users, as big data, as big data, for the difference data. Estimate the correlation between change trends and symptoms. That is, the correlation estimation unit 34 forms a set of difference data in which the same tendency of change is observed, and identifies a symptom in which many users of the difference data included in the set are diagnosed. The user ID is not included in the big data for the correlation estimation unit 34 to specify the correlation.

When the correlation is estimated by the correlation estimation unit 34, the communication unit 31 may transmit the correlation data indicating the correlation to a preset destination via the communication network. Further, when the correlation is estimated by the correlation estimation unit 34, the storage unit 33 may store the correlation data. The communication unit 31 may transmit the correlation data based on the correlation data request from the specialized engine device 4. The correlation data request is information including the difference data for each user, and is information for requesting the correlation data regarding the difference data showing the same tendency of change as the difference data.

The correlation estimation unit 34 uses a plurality of data stored in the storage unit 33, which is composed of the difference data and the content of the advice provided to the user related to the difference data, as big data, and changes the difference data. Estimate the correlation that appears between the tendency and the content of the advice. For example, the correlation estimation unit 34 determines that the advice is effective if the advice corresponding to the difference data provided to the user tends to improve the health condition, and the health condition is not improved. If there is a tendency, it can be determined that the advice is not valid.

The service providing unit 35 proposes a medical consultation to each user based on the difference data of each user stored in the storage unit 33. Proposals for medical consultation include proposals from medical institutions and departments.

Specifically, the service providing unit 35 extracts a medical institution to be proposed to the user based on the difference data. Further, the service providing unit 35 controls the communication unit 31 so as to transmit the medical institution proposal information including the medical consultation proposal to the user's measuring device 2 related to the difference data. Further, the service providing unit 35 controls the communication unit 31 so as to transmit the reception reservation application for the user ID to the specialized institution device 4 based on the reservation application including the user ID transmitted from the measuring device 2. Then, when the reservation completion notification including the user ID is transmitted from the specialized institution device 4, the communication unit 31 is controlled to transmit the reservation completion notification to the measuring device 2 related to the user ID.

The specialized engine device 4 includes a communication unit 41, an input unit 42, a control unit 43, and a display unit 44.

The communication unit 41 transmits the difference data request to the biometric information management device 3. Further, the communication unit 41 receives the difference data transmitted from the biometric information management device 3 based on the difference data request. Further, the communication unit 41 transmits the correlation data request to the biometric information management device 3.

The input unit 42 inputs the measured value of the user measured by the medical institution which is a specialized institution. In addition, the input unit 42 inputs the medical record information obtained by converting the medical record including the user ID, the user's symptom identification information, and the drug identification information into image information, which is created by the doctor of the medical institution. When the medical record information is input, the communication unit 41 described above transmits the medical record information input by the input unit 42 to the biometric information management device 3.

The control unit 43 controls the communication unit 41 so as to transmit a difference data request including a user ID for identifying the user to the biometric information management device 3. Further, the control unit 43 relates to the minimum blood pressure difference value included in the difference data based on the difference data transmitted from the biometric information management device 3 based on the difference data request and the minimum blood pressure input by the input unit 42. Calculate the diastolic blood pressure. Explaining using the example shown in FIG. 3, the control unit 43 has a minimum blood pressure of "80.5" measured on March 9, and from March 1 as shown in FIG. 3 (a). Based on the difference data showing the time-series change of the diastolic blood pressure difference value measured by March 9, the time-series change of the diastolic blood pressure as shown in FIG. 3 (b) is calculated.

In addition, the control unit 43 can also calculate the time-series change of the diastolic blood pressure based on the difference data calculated based on the measurement by the measuring device 2 after the diastolic blood pressure is measured. For example, on March 17, after the diastolic blood pressure having a value of "79" was measured on March 9, the measurement device 2 makes a difference data request for requesting difference data from March 10 to March 17. The communication unit 29 may be controlled to transmit to. In this case, the control unit 43 is from March 10 to March 17 based on the difference data from March 10 to March 17 received by the communication unit 29 and the diastolic blood pressure on March 9. Calculate the time-series changes in diastolic blood pressure up to.

Similarly, the control unit 43 calculates the systolic blood pressure related to the systolic blood pressure difference value, the posture value related to the posture difference value, and the body temperature related to the body temperature difference value included in the difference data.

The display unit 44 displays the measured value calculated by the control unit 43 together with the corresponding date. For example, the display unit 44 displays the blood pressure calculated by the control unit 43 together with the corresponding date, as shown in FIG. 3 (b). Similarly, the display unit 44 displays the posture value calculated by the control unit 43 together with the corresponding date and time.

Next, the difference data processing of the biometric information management method by the biometric information management system 1 will be described with reference to FIG. FIG. 5 is a sequence diagram showing the difference data processing of the biological information management method.

First, the authentication unit 21 identifies the user ID by authenticating the user (step S11).

When the user is authenticated in step S11, the biometric information measuring unit 22 measures the measured value of the user's biometric information (step S12).

When the measured value of the user is measured in step S12, the wall surface temperature measuring unit 23 measures the wall surface temperature (step S13). Either of the processes of step S12 and step S13 may be performed first.

When the measured value is measured in step S12 and the wall surface temperature is measured in step S13, the calculation unit 24 calculates the measurement difference value based on the initially measured measured value already stored in the storage unit 25. Calculate (step S14).

When the measurement difference value is calculated in step S14, the determination unit 26 makes a determination based on the measurement difference value, and outputs the cautionary information according to the result of the determination to the output unit 27 (step 15).

When the caution information is output in step S15, the output unit 27 displays the caution information on the display or outputs it by voice through the speaker (step S16).

On the other hand, when the measurement difference value is calculated in step S14, the storage unit 17 stores the difference data including the user ID, the first measurement value, the measurement difference value, and the like (step S17).

Further, when the measurement difference value is calculated in step S15, the communication unit 29 transmits the difference data to the biometric information management device 3 (step S18).

When the difference data is transmitted in step S18, the communication unit 31 of the biometric information management device 3 receives the difference data, and the storage unit 33 stores the received difference data (step S19).

On the other hand, the input unit 42 of the specialized institution device 4 inputs the measured value of the biological information measured by the medical institution which is the specialized institution and the user ID (step S20).

When the measured value and the user ID are input in step S20, the communication unit 41 transmits a difference data request including the user ID to the biometric information management device 3 based on the control of the control unit 43 (step S21).

When the difference data request is transmitted in step S21, the communication unit 31 of the biometric information management device 3 transmits the difference data including the user ID to the specialized institution device 4 (step S22).

When the difference data is transmitted in step S22, the communication unit 41 receives the difference data. Then, the control unit 43 calculates the measured value related to the difference value included in the difference data based on the difference data and the measured value input in step S20 (step S23).

When a plurality of measured values are calculated in step S23, the time-series change of the measured values is displayed by displaying each measured value together with the date when each measured value is measured (step S24).

Next, the correlation data processing of the biometric information management method by the biometric information management system 1 will be described with reference to FIG. FIG. 6 is a sequence diagram showing correlation data processing of the biological information management method. When the present correlation data processing is started, the above-mentioned difference data processing has already been performed, and the difference data relating to a plurality of users is stored in the storage unit 33.

First, the input unit 42 of the specialized institution device 4 inputs the medical record information obtained by converting the medical record created by the doctor of the medical institution into image information (step S31).

When the medical record information is input in step S31, the communication unit 41 transmits the medical record information to the biometric information management device 3 (step S32).

When the medical record information is transmitted in step S32, the conversion unit 32 converts the medical record information into text or numerical value (step S33).

When the medical record information is converted into text or quantified in step S33, the storage unit 33 stores the converted or quantified medical record information (step S34).

When the medical record information is stored in step S34, the correlation estimation unit 34 generates big data of a plurality of data stored in the storage unit 33, which is composed of the difference data and the user's medical record information related to the difference data. As a result, the correlation that appears between the tendency of change in the difference data and the symptom is estimated (step S35).

When the correlation is estimated in step S35, the storage unit 33 stores the correlation data showing the correlation (step S36).

On the other hand, the communication unit 41 of the specialized institution device 4 transmits the correlation data request to the biometric information management device 3 (step S37).

When the correlation data request is transmitted in step S37, the correlation estimation unit 34 represents the correlation estimated between the difference data showing the same time-series change as the difference data group included in the correlation data request and the symptom. Data is extracted from the storage unit 33 (step S38).

When the correlation data is extracted in step S38, the communication unit 31 transmits the extracted correlation data to the specialized institution device 4 (step S39).

When the correlation data is transmitted in step S39, the communication unit 41 receives the correlation data, and the display unit 44 displays the correlation data on the display (step S40).

Next, the service provision support process of the biometric information management method by the biometric information management system 1 will be described with reference to FIG. 7. FIG. 7 is a sequence diagram showing a service provision support process of the biological information management method.

First, the communication unit 31 transmits a proposal consultation from a medical institution to the measuring device 2 (step S51).

When the proposal consultation of the medical institution is transmitted in step S51, the measuring device 2 requests the biometric information management device 3 to make a proposal by the input operation of the user (step S52).

When the proposal is requested in step S52, the biometric information management device 3 proposes a medical institution to the user who requests the proposal (step S53).

When the medical institution is proposed in step S53, the measuring device 2 determines the medical institution by the input of the user (step S54).

When the medical institution is determined in step S54, the biometric information management device 3 transmits an application for appointment to the medical institution to the specialized institution device 4 (step S55).

When the reservation application is transmitted in step S55, the specialized institution device 4 performs the reservation process (step S56).

When the reservation process is performed in step S56, the specialized institution device 4 transmits a reservation completion notification to the biometric information management device 3 (step S57).

When the reservation completion notification is transmitted in step S57, the communication unit 31 of the biometric information management device 3 transmits the consultation completion notification to the measuring device 2 (step S58).

When the reservation completion notification is transmitted in step S58, the communication unit 29 of the measuring device 2 receives the reservation completion notification, and the output unit 27 outputs the reservation completion notification to the display to display the reservation completion notification ( Step S59).

As described above, in the first embodiment, the measuring device 2 calculates a difference value which is a difference from the first measured value stored in the storage unit 25 each time the biological information is measured. Then, the measuring device 2 transmits the calculated difference value to the biological information management device 3. Therefore, even if a malicious person attempts unauthorized access or eavesdropping in an attempt to illegally obtain biometric information, only the difference value will be leaked. Therefore, it is possible to prevent others from acquiring biometric information that is important to the individual and should be kept secret.

Further, in the first embodiment, the authentication unit 21 authenticates the user by using the image captured by the camera. Therefore, it is not necessary for the user to perform an operation or contact the authentication device, and the load on the user can be reduced. In addition, the biological information measuring unit 22, the biological information measuring unit 22, and the wall surface temperature measuring unit 23 measure blood pressure, posture value, and body temperature, respectively, using images captured by the camera. Therefore, the blood pressure, the posture value, and the body temperature can be measured without the user coming into contact with the measuring device 2 and without putting on and taking off clothes, which puts a burden on the user such as labor and psychological burden related to the measurement. It can be mitigated.

Further, in the first embodiment, the determination unit 26 determines the health condition of the user by using the wall surface temperature in addition to the amount of change in blood pressure and posture value. In general, the temperature of the environment in which the biometric information of the user is measured may affect the biometric information. In particular, when biological information is measured in the washroom, the temperature of the environment is easily affected by radiation from the wall surface because the washroom is smaller than other rooms. Moreover, the wall surface temperature is more stable than the air temperature. Therefore, the health condition can be more appropriately determined based on the wall surface temperature, which is expected to have a high correlation with the temperature of the environment. Further, since the determination unit 26 does not use the air temperature instead of using the wall surface temperature, the measuring device 2 does not need to be provided with a temperature sensor, and can have a simple configuration.

Further, in the first embodiment, since the measuring device 2 is installed in a place where the user frequently exists, the biological information is measured at a high frequency without stress of the user. Therefore, when an abnormality occurs in the user's health, the possibility of being able to recognize the abnormality at an early stage increases. In addition, the user can avoid the time constraint caused by visiting the hospital regularly to detect any change in health. In addition, by recognizing an abnormality at an early stage, it may be possible to avoid actual harm such as pain and reduce one's own health concerns. In addition, it is possible to contribute to the development of preventive medicine by enriching information on non-diseased areas. In addition, if the user recognizes the change at an early stage and takes appropriate measures, the psychological burden, financial burden, and time constraint of the user's family can be reduced.

Further, in the first embodiment, the specialized institution device 4 can acquire the body temperature, blood pressure, and posture value before the user first receives a medical examination at a medical institution. Until now, the method by which doctors of specialized institutions can know the process leading up to the current symptoms of users has been limited to interview surveys with patients. However, by calculating the past biological information based on the measured value and the difference data by the specialized institution device 4 in this way, the doctor knows the time when the problem was caused, the state of change, and the confirmation of the effect of the treatment. It is possible to respond even more appropriately.

Further, in the first embodiment, since the specialized institution device 4 can receive the difference data transmitted from the measuring device 2 for each user and stored in the biometric information management device 3, the specialized institution device 4 The doctor of the medical institution that owns the information can recognize the difference data of the biometric information without the user visiting the medical institution in order to confirm the progress after the medical examination or treatment. Therefore, the burden on doctors, users and their families can be reduced. That is, the present biometric information management system 1 can be used as a tool for remote diagnosis.

Further, in the first embodiment, the correlation estimation unit 34 of the biological information management device 3 estimates the correlation appearing between the tendency of change in the difference data and the symptom, and stores the correlation data showing the estimated correlation. .. In other words, big data that grasps the process leading to illness will be constructed, which can contribute to the development of preventive medicine. In addition, by using the correlation data based on the difference data, the doctor can quickly and appropriately judge the biological information, which can be one of the workarounds for the busy situation due to the shortage of doctors.

Therefore, it can be said that the biometric information management system 1 has an important role in the super-aging society. In Japan, where the number of young people is declining, maintaining a healthy state for a long time not only for the elderly but also for the working generation is directly linked to reducing the burden on young people. This is because there is a high possibility that the medical expenses of the current elderly and the elderly 10 years from now, the human burden of medical institutions, and the financial burden will be placed on the pensions of young people. It is beneficial for young people to reduce the time and money spent on nursing care and attendance for the elderly. Naturally, if a healthy state can be maintained, the number of middle-aged and elderly people who can work will increase, which will contribute to curbing the decline in the working population.

Further, in the first embodiment, the biometric information management device 3 estimates the correlation that appears between the tendency of change in the difference data and the content of the advice. For this reason, it is possible to confirm daily advice and its effects regarding preventive medicine. For example, if the advice "exercise" is not effective, you can know that this advice itself is meaningless. Therefore, the advice shown in the caution information output by the determination unit 26 can be improved.

Further, in the first embodiment, the biological information measuring unit 22 measures the blood pressure and the posture value. In general, diabetes is considered to be a common disease, and there is a high need for caution. Hypertension is strongly associated with diabetes. High blood pressure can also cause cardiovascular disorders, so it is advisable to look for signs before medication is needed. In addition, it is known that body strain may cause symptoms such as stiff shoulders and headaches, and may lead to depression. The body may be distorted due to diseases of internal organs, and it is effective to grasp the distortion of the body at an early stage for maintaining health. Therefore, it is considered that the biometric information measuring unit 22 outputting the information requiring attention based on the blood pressure and the posture value greatly contributes to the maintenance of health.

Further, in the first embodiment, the correlation estimation unit 34 estimates the correlation that appears between the plurality of difference data and the symptomatology of the plurality of users. At this time, the correlation estimation unit 34 estimates the correlation without using the user ID, and the storage unit 33 stores the correlation data without using the user ID. Therefore, even if there is unauthorized access or eavesdropping on the correlation data, the biometric information and the information for identifying the user corresponding to the symptom will not be leaked. Therefore, it is possible to prevent the leakage of information regarding an individual's illness or the like, which is required to be kept secret.

Next, a second embodiment of the present invention will be described with reference to the drawings.

The biometric information management system 5 in the second embodiment has one or more measuring devices 2, a biometric information management device 3, and one or more specialized institutions, similarly to the biometric information management system 1 in the first embodiment. The device 4 is provided. Further, the measuring device 2 and the biological information management device 3 transmit and receive information from each other via a communication network. Further, the biological information management device 3 and the specialized institution device 4 transmit and receive information to and from each other via a communication network. The same reference numerals as those of the biological information management system 1 in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

The second embodiment differs from the first embodiment in that the specialized institution that owns the specialized institution device 4 is a food service providing institution.

The communication unit 31 of the biological information management device 3 transmits various information to the measuring device 2 and the specialized institution device 4 based on the control by the service providing unit 35. Further, the communication unit 31 receives various information from the measuring device 2 and the specialized engine device 4.

The storage unit 33 stores a food service proposal table in which the change amount of the difference data is associated with the food service proposal information indicating the food service proposal.

The service providing unit 35 makes a dietary habit proposal to the user of the measuring device 2.

Specifically, the service providing unit 35 consults with the user's measuring device 2 relating to the difference data stored in the storage unit 33 for a food service proposal. The food service proposal is a proposal regarding a dietary habit suitable for the health of the user, and is, for example, a proposal for a meal menu, nutrition to be ingested, and the like.

More specifically, the service providing unit 35 controls the communication unit 31 so as to transmit the eating habits proposal consultation information to the measuring device 2. The timing at which the service providing unit 35 transmits the dietary habits proposal consultation is appropriately designed, and for example, the communication unit 31 may set the change amount of the difference data to be equal to or greater than a predetermined threshold value. Further, the timing at which the service providing unit 35 transmits the dietary habits proposal consultation may be every predetermined period, or may be when the communication unit 31 receives the difference data from the measuring device 2.

When the communication unit 31 receives the request for proposal from the measuring device 2, the service providing unit 35 proposes the food service. For example, the service providing unit 35 extracts the food service proposal information associated with the amount of change in the difference data stored in the storage unit 33 corresponding to the user ID included in the proposal request. Then, the service providing unit 35 controls the communication unit 31 so as to transmit the extracted food service proposal information to the measuring device 2.

Further, the service providing unit 35 proposes food when the communication unit 31 receives the food service decision information. For example, the service providing unit 35 extracts food based on the food service included in the food service decision information. Then, the service providing unit 35 controls the communication unit 31 so as to transmit the food proposal information indicating the food to the measuring device 2.

Further, when the communication unit 31 receives the food decision information, the service providing unit 35 arranges the delivery of the food included in the food decision information. More specifically, the service providing unit 35 controls the communication unit 31 so as to transmit the food delivery instruction to the specialized institution device 4. The service providing unit 35 may receive the reservation reception information indicating the reception of the delivery instruction from the specialized institution device 4, and in this case, the service providing unit 35 controls the communication unit 31 so as to transmit the reservation completion report to the measuring device 2. To do. Further, when the communication unit 31 receives the billing information from the specialized institution device 4, the service providing unit 35 totals the billing amounts included in the billing information and calculates the total amount. Then, the communication unit 31 transmits the billing information indicating the total amount to the measuring device 2 under the control of the service providing unit 35.

The communication unit 41 of the specialized institution device 4 receives various information from the biometric information management device 3. Further, the communication unit 41 transmits various information to the biological information management device 3 based on the control of the control unit 43.

When the communication unit 41 receives the delivery instruction from the biometric information management device 3, the control unit 43 makes a delivery request to a predetermined destination or displays it on the display in order to deliver the requested product based on the received delivery instruction. The display unit 44 is controlled to display the information related to the delivery instruction. Further, when the delivery of the requested product is completed, the control unit 43 controls the communication unit 41 so as to transmit the billing information indicating the requested product and the amount of money related to the delivery to the biometric information management device 3.

Here, the service provision support process of the biometric information management method by the biometric information management system 5 will be described. FIG. 8 is a flowchart showing an example of the service provision support process.

First, the communication unit 31 transmits a dietary habit proposal consultation to the measuring device 2 (step S71).

When the proposal consultation is transmitted in step S71, the measuring device 2 requests the biometric information management device 3 to make a proposal by the input operation of the user (step S72).

When the proposal is requested in step S72, the biometric information management device 3 proposes the food service to the user who requests the proposal (step S73).

When the food service is proposed in step S73, the measuring device 2 determines the food service by the input of the user (step S74).

When the food service is determined in step S74, the biological information management device 3 proposes the food corresponding to the food service to the user (step S75).

When the food is proposed in step S75, the measuring device 2 determines the food by the input of the user (step S76).

When the food is determined in step S76, the biometric information management device 3 arranges the delivery of the food (step S77).

When the delivery of the food is arranged in step S77, the specialized institution device 4 performs the delivery process (step S78).

When the delivery process is performed in step S78, the specialized institution device 4 performs the billing process (step S79).

When the billing process is performed in step S79, the biometric information management device 3 totals the billing amounts included in the billing information and calculates the total amount (step S80).

When the total amount is calculated in step S80, the biometric information management device 3 transmits billing information indicating the total amount to the measuring device 2 (step S81).

When the billing information is transmitted in step S81, the output unit 27 of the measuring device 2 displays the billing information on the display (step S82).

As described above, in the second embodiment, since the measuring device 2 is installed in a place where the user frequently exists, the health condition is measured with high frequency without stress of the user. In addition, by proposing a food service at an appropriate timing based on the difference data indicating a change in the health condition, the user can receive the food service according to the health condition at an early stage. In addition, since the processed foods related to the proposed food service are delivered from the food service providing organization, which is a specialized organization, it is suitable for the health of the user without increasing the burden on the user. You can have a diet.

Further, in the second embodiment, the biometric information management device 3 can manage the difference data of the user in association with the content of the proposal to the user and the information such as the food provided to the user. Further, since the biological information management device 3 arranges the delivery of food to the food service providing organization based on the user's decision, the food service providing organization can stably secure customers. In addition, the user can receive a stable supply of foodstuffs. In addition, the user can receive a proposal of a menu according to the health condition based on the difference data, instead of deciding the meal by self-judgment based on his / her physical condition. Along with this, the user can save the trouble of thinking about the meal menu.

Subsequently, the third embodiment of the present invention will be described with reference to the drawings.

The biometric information management system 6 in the third embodiment has one or more measuring devices 2, a biometric information management device 3, and one or more specialized institutions, similarly to the biometric information management system 1 in the first embodiment. The device 4 is provided. Further, the measuring device 2 and the biological information management device 3 transmit and receive information from each other via a communication network. Further, the biological information management device 3 and the specialized institution device 4 transmit and receive information to and from each other via a communication network. The same reference numerals as those of the biological information management system 1 in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

The third embodiment differs from the first embodiment in that the specialized institution that owns the specialized institution device 4 is an exercise guidance institution such as a sports club.

The communication unit 31 of the biological information management device 3 transmits various information to the measuring device 2 and the specialized institution device 4. Further, the communication unit 31 receives various information from the measuring device 2 and the specialized engine device 4.

The storage unit 33 stores an exercise menu table in which the change amount of the difference data is associated with the exercise menu information indicating the exercise menu.

The service providing unit 35 controls the communication unit 31 so as to transmit the eating habits proposal consultation to the measuring device 2. The timing at which the service providing unit 35 transmits the dietary habits proposal consultation is appropriately designed, and for example, the communication unit 31 may set the change amount of the difference data to be equal to or greater than a predetermined threshold value. Further, the timing at which the service providing unit 35 transmits the dietary habits proposal consultation may be every predetermined period, or may be when the communication unit 31 receives the difference data from the measuring device 2.

Further, when the communication unit 31 receives the consent proposal request corresponding to the exercise proposal consultation, the service providing unit 35 changes the difference data stored in the storage unit 33 in association with the user ID included in the consent proposal request. Suggest an exercise menu based on quantity. Specifically, the service providing unit 35 controls the communication unit 31 so as to transmit the exercise menu information associated with the change amount of the difference data in the exercise menu table to the measuring device 2.

Further, when the communication unit 31 receives the exercise guidance institution recommendation request, the service providing unit 35 transmits the exercise guidance institution information indicating the sports club or the like that provides the exercise guidance based on the exercise guidance institution recommendation request to the measuring device 2. The communication unit 31 is controlled so as to do so. When the service providing unit 35 receives the decision information indicating the exercise guidance institution selected from the exercise guidance institution information from the measuring device 2, the service providing unit 35 transmits the subscription application information including the user ID or the reservation application information to the specialized institution device 4.

The service providing unit 35 controls the communication unit 31 so that when the communication unit 31 receives the reception information indicating the acceptance of the subscription application or the reservation application from the specialized institution device 4, the communication unit 31 transmits the completion report to the measuring device 2. Further, when the communication unit 31 receives the billing information from the specialized institution device 4, the service providing unit 35 totals the billing amounts included in the billing information to calculate the total amount, and measures the billing information including the total amount. It is transmitted to the device 2.

The communication unit 41 of the specialized institution device 4 receives various information from the biometric information management device 3. Further, the communication unit 41 transmits various information to the biological information management device 3 based on the control of the control unit 43.

When the communication unit 41 receives the subscription application information or the reservation application information from the biometric information management device 3, the control unit 43 controls the display unit 44 so that the received subscription application information or reservation application information is displayed on the display.

Here, the biometric information management method by the biometric information management system 6 will be described with reference to FIG. FIG. 9 is a flowchart showing an example of biometric information management.

First, the communication unit 31 transmits a proposal consultation for the exercise menu to the measuring device 2 (step S91).

When the exercise menu proposal consultation is performed in step S91, the measuring device 2 requests the biological information management device 3 for the exercise menu proposal consultation by the user's input operation (step S92).

When a proposal is requested in step S92, the biometric information management device 3 proposes an exercise menu to the user who requests the proposal (step S93).

When the exercise menu is proposed in step S93, the measuring device 2 determines the exercise menu based on the exercise guidance institution recommendation request input by the user (step S94).

When the exercise menu is determined in step S94, the biometric information management device 3 proposes an exercise guidance institution that provides the exercise menu to the user (step S95).

When the exercise guidance institution is proposed in step S95, the measuring device 2 determines the exercise guidance institution by the input of the user (step S96).

When the exercise guidance institution is determined in step S96, the biometric information management device 3 transmits an application for joining or participation in the exercise guidance institution to the specialized institution device 4 (step S97).

When the application for joining or participating in the exercise guidance institution is transmitted in step S97, the specialized institution device 4 performs the procedure for joining or participating (step S98).

When the procedure for joining or participating is performed in step S98, the specialized institution device 4 performs billing processing (step S99).

When the billing process is performed in step S99, the biometric information management device 3 totals the billing amounts included in the billing information and calculates the total amount (step S100).

When the total amount is calculated in step S100, the biometric information management device 3 transmits billing information indicating the total amount to the measuring device 2 (step S101).

When the billing information is transmitted in step S101, the output unit 27 of the measuring device 2 displays the billing information on the display (step S102).

As described above, in the third embodiment, since the measuring device 2 is installed in a place where the user frequently exists, the biological information is measured with high frequency without stress of the user. In addition, by proposing an exercise menu at an appropriate timing based on the difference data indicating changes in the health condition, the user can exercise according to the health condition at an early stage. In addition, a specialized institution capable of performing exercise related to the proposed exercise menu is proposed, and the use of the specialized institution can be reserved with a simple operation. Therefore, it is possible to perform exercise suitable for the health of the user without increasing the burden on the user.

Further, in the third embodiment, the biological information management device 3 can manage the difference data of the user by associating the information such as the content of the proposal to the user and the exercise menu provided to the user. In addition, since the biometric information management device 3 performs procedures for joining and participating in the exercise guidance institution based on the user's decision, the exercise guidance institution can stably secure customers. In addition, the user can immediately start exercising according to his / her health condition based on the difference data. In addition, the user can receive a proposal of an appropriate exercise menu according to the health condition based on the difference data, instead of deciding the exercise menu by self-judgment based on his / her physical condition. In addition, along with this, the user can save the trouble of thinking about the exercise menu.

Further, in the above-described embodiment, the determination unit 26 of the measuring device 2 determines the health condition of the user based on the difference data calculated by the calculation unit 24, but this is not the case. For example, the biological information management device 3 may include a determination unit. In this case, the determination unit of the biological information management device 3 may determine the health state based on the difference data. Further, the communication unit 31 of the biological information management device 3 may transmit the information requiring attention corresponding to the health condition to the measurement device 2.

Further, in the above-described embodiment, the specialized institutions are medical institutions, food service providing institutions, and exercise guidance institutions, but the present invention is not limited to this. For example, the specialized institution may be a life insurance institution. In this case, the service providing unit 35 may control the communication unit 31 to transmit the insurance plan to the measuring device 2 based on the amount of change in the difference data measured by the measuring device 2 and stored in the storage unit 33. it can.

Further, in the above-described embodiment, the measuring device 2 includes the output unit 27, but the present invention is not limited to this. For example, the measuring device 2 may not include the output unit 27, and the biological information management system 1 may include an output device including a display or a speaker separately from the measuring device 2. In this case, the output device executes the function of the output unit 27 described above.

Although the above-described embodiments and examples have been described as representative examples, it will be apparent to those skilled in the art that many modifications and substitutions can be made within the spirit and scope of the present invention. Therefore, the present invention should not be construed as being limited by the above-described embodiments, and various modifications and modifications can be made without departing from the scope of claims. For example, it is possible to combine the plurality of constituent blocks described in the embodiments and examples into one, or to divide one constituent block into one.

1 Biometric information management system 2 Measuring device 20 Imaging unit 21 Authentication unit 22 Biometric information measurement unit 23 Wall surface temperature measurement unit,
24 Calculation unit 25 Storage unit 26 Judgment unit 27 Output unit 28 Conversion unit 29 Communication unit 3 Biological information management device 31 Communication unit 32 Conversion unit 33 Storage unit 34 Correlation estimation unit 35 Service provision unit 4 Specialized engine device 41 Communication unit 42 Input unit 43 Control unit 44 Display unit

Claims (10)

A biometric information management system in which a measuring device that measures a user's biometric information and a biometric information management device that manages the user's biometric information transmit and receive information to each other.
The measuring device is
A biometric information measuring unit that measures measured values related to the user's biometric information multiple times,
A calculation unit that calculates a measurement difference value, which is a difference between the measured values measured multiple times, and a calculation unit.
A determination unit that determines the health condition of the user based on the plurality of measurement difference values for the user and the wall surface temperature of the wall surface that defines at least a part of the space where the user is located.
Measured by the biological information measuring unit are measured have you to measurement of at least one, a storage unit for storing encrypted measured value, and the measurement difference value,
The measured have you at least one measurement, including the encrypted measurement, and a first communication unit that transmits the measured difference value to the biological information management apparatus,
The biological information management device is
Measured have you to measure the at least one transmitted by the first communication unit, the encrypted measurement, and the biological information management, characterized in that it comprises a second communication unit that receives the measurement difference value system. The determination unit generates information requiring attention corresponding to the health condition, and generates information requiring attention.
The biometric information management system according to claim 1, wherein the measuring device further includes an output unit that outputs the information requiring attention. When the blood pressure difference value, which is the measurement difference value, rises by the first threshold value or more within a predetermined period and the wall surface temperature decreases by the first temperature threshold value or more within the predetermined period, the determination unit requires caution. The biometric information management system according to claim 2, wherein no information is output. When the attitude difference value, which is the measurement difference value, changes by a second threshold value or more within a predetermined period, and the wall surface temperature drops by a second temperature threshold value or more within the predetermined period, the determination unit requires caution information. The biometric information management system according to claim 2, wherein the biometric information management system is characterized in that the data is not output. The biometric information management system according to any one of claims 1 to 4 , wherein the measuring device is arranged in a washroom. The biometric information management system according to any one of claims 1 to 5 , wherein the measured value stored in the storage unit is encrypted. Based on the difference data request transmitted from the specialized institution device, the second communication unit obtains the difference data including the measurement difference value for the user and the user ID for identifying the user. The biometric information management system according to any one of claims 1 to 6 , wherein the data is transmitted to a specialized institution device. The biological information management device is
Correlation estimation that estimates the correlation between the difference data and the symptom identification information based on the difference data for each of the plurality of users and the symptom identification information of each of the plurality of users transmitted from the specialized agency device. With a part
The biometric information management according to any one of claims 1 to 7 , wherein the second communication unit transmits correlation data indicating the correlation estimated by the correlation estimation unit to the specialized institution apparatus. system. A biometric information measuring unit that measures measured values related to the user's biometric information multiple times,
A calculation unit that calculates a measurement difference value, which is a difference between the measured values measured multiple times, and a calculation unit.
A determination unit that determines the health condition of the user based on the plurality of measurement difference values for the user and the wall surface temperature of the wall surface that defines at least a part of the space where the user is located.
Measured by the biological information measuring unit are measured have you to measurement of at least one, a storage unit for storing encrypted measured value, and the measurement difference value,
The measured have you to measurement of at least one, and a first communication unit for transmitting encrypted measured value, and the measured difference in the biological information management apparatus,
A measuring device comprising. It is a measurement method that measures the biological information of a user with a measuring device.
Steps to measure the measured value of the user's biological information multiple times,
A step of calculating a measurement difference value, which is a difference between the measured values measured multiple times, and
A step of determining the health condition of the user based on the plurality of measurement difference values for the user and the wall surface temperature of the wall surface that defines at least a part of the space where the user is located.
The measured, and storing the measured have you to measurement of at least one, encrypted measured value, and the measurement difference value,
Transmitting the measured have you to measurement of at least one, encrypted measured value, and the measured difference in the biological information management apparatus,
A measurement method comprising.

Images