JP7586316B2 - Wireless relay device and biometric/medical information management system - Google Patents

Description

The present invention relates to a wireless relay device that wirelessly relays biometric information or medical information, and a biometric information/medical information management system.

There is known a technology for wirelessly relaying to a server device biological information from a wearable biological information sensor worn by a user or medical information from a wearable medical device worn by a user. Such biological information sensors include sensors that measure the biological information (vital information, vital signs) of the user. In addition, such medical devices include devices that monitor the biological information of the user and provide medical care to the user, such as a pacemaker that monitors and compensates for bradyarrhythmia of the heart, or a continuous glucose sensor (CGS) that monitors fluctuations in blood glucose levels and administers insulin. Medical information includes information about medical care provided to the user, such as the number of compensations (number of arrhythmias) or the number of insulin administrations (number of abnormal blood glucose levels).

Regarding such technology, Patent Document 1 discloses a biometric information management system. This biometric information management system includes a sensor that collects biometric information, a mobile phone (corresponding to a wireless relay device), and a data center. The mobile phone receives biometric information from the sensor by wirelessly communicating with the sensor, and transmits the biometric information together with the mobile phone's unique information (e.g., a telephone number) to the data center. In other words, the mobile phone wirelessly relays the biometric information from the sensor to the data center. The mobile phone also uses the mobile phone's unique information to authenticate the wireless communication between the sensor and the mobile phone.

JP 2006-263181 A

However, the unique information of a mobile phone does not necessarily match the personal information of the user. Therefore, as described in Patent Document 1, simply authenticating wireless communication between a sensor and a mobile phone using unique information of the mobile phone (corresponding to a wireless relay device) does not provide sufficient security.

The present invention aims to provide a wireless relay device and a biometric information/medical information management system that improves security.

The wireless relay device of the present invention comprises a first communication unit capable of receiving biometric information from a biometric sensor worn by a user, a second communication unit capable of receiving medical information from a medical device worn by a user, a third communication unit that transmits at least one of the biometric information received by the first communication unit and the medical information received by the second communication unit to a server device, a control unit that controls the first communication unit, the second communication unit, and the third communication unit, and a holding mechanism that can hold a device having an ID, wherein the control unit performs authentication based on the ID, and if authentication is successful, transmits at least one of the biometric information and the medical information from the third communication unit to the server device.

The biometric information/medical information management system of the present invention comprises a biometric sensor that is worn by a user and used to measure the user's biometric information, or a medical device that is worn by a user and used to monitor the user's biometric information and provide medical care to the user, a server device, and the above-mentioned wireless relay device that wirelessly relays at least one of the biometric information from the biometric sensor and the medical information from the medical device to the server device.

According to the present invention, security can be improved in a wireless relay device that wirelessly relays biometric information or medical information, and in a biometric information/medical information management system.

1 is a diagram showing a biological information/medical information management system according to an embodiment of the present invention. 1 is a diagram illustrating a wireless relay device according to an embodiment of the present invention. FIG. 2 is a front external view of the wireless relay device according to the embodiment. FIG. 2 is a rear view of the wireless relay device according to the embodiment; 4 is a cross-sectional view of the wireless relay device shown in FIG. 3 along the line V-V. FIG. 13 is a rear external view of a wireless relay device according to a modified example of the present embodiment. 11 is a flowchart showing ID authentication.

An example of an embodiment of the present invention will be described below with reference to the attached drawings. Note that the same or corresponding parts in each drawing are designated by the same reference numerals.

First Embodiment
<Biometric/Medical Information Management System>
Fig. 1 is a diagram showing a biological information/medical information management system according to this embodiment. The biological information/medical information management system 1 shown in Fig. 1 includes at least one of a biological information sensor 10 and a medical device 12. That is, the biological information/medical information management system 1 may include one or more biological information sensors 10, may include one or more medical devices 12, or may include one or more biological information sensors 10 and one or more medical devices 12. The biological information/medical information management system 1 also includes a wireless relay device 20 and a server device 30.

The biometric information/medical information management system 1 relays the biometric information of the user measured by the biometric information sensor 10 via a wireless relay device 20, and manages it via a server device 30. The biometric information/medical information management system 1 also relays medical information related to medical care provided to the user by a medical device 12 via the wireless relay device 20, and manages it via the server device 30.

The biometric sensor 10 is a wearable sensor that is worn by a user. The biometric sensor 10 measures the biometric information (vital information, vital signs) of the user. The biometric sensor 10 transmits the measured biometric information to the authenticated wireless relay device 20.

Such a biological information sensor 10 may be a sensor that measures biological information such as deep body temperature, pulse rate, blood oxygen saturation (SpO ₂ ), and electrocardiogram (ECG).

The medical device 12 is a wearable device that is worn by a user. The medical device 12 monitors the user's biometric information and provides medical care to the user. The medical device 12 transmits medical information related to the medical care provided to the user to the authenticated wireless relay device 20.

Examples of such medical devices 12 include a pacemaker and a continuous glucose sensor (CGS). A pacemaker is worn by a user to monitor and compensate for bradyarrhythmia in the heart. Medical information from the pacemaker includes the number of arrhythmias, i.e., the number of compensations. A blood glucose sensor is worn by a user to monitor fluctuations in blood glucose levels and administer insulin. Medical information from the blood glucose sensor includes the number of abnormal blood glucose levels, i.e., the number of insulin administrations.

The biometric information or medical information may include identification information of the user's ID card or ID information of the medical device. Furthermore, the biometric information sensor 10 may transmit environmental information such as temperature or illuminance in addition to the biometric information. Furthermore, the medical device 12 may transmit environmental information such as temperature or illuminance in addition to the medical information. It is not limited to an ID card, and may be other devices (such as tags) equipped with an ID.

The wireless relay device 20 is a device that wirelessly relays between one or more biometric sensors 10 and/or one or more medical devices 12 and the server device 30. The wireless relay device 20 receives biometric information from an authenticated biometric sensor 10. The wireless relay device 20 also receives medical information from an authenticated medical device 12. The wireless relay device 20 transmits the received biometric information and/or medical information to the server device 30 via the network 5.

In addition, the wireless relay device 20 performs personal authentication of the user based on the personal identification information in the ID card, and relays biometric information and/or medical information if personal authentication has been performed. At this time, the wireless relay device 20 associates the biometric information and/or medical information with the personal identification information in the ID card and transmits them to the server device 30. Details of the wireless relay device 20 will be described later.

Examples of server device 30 include information processing devices such as PCs and large computers. Server device 30 receives biometric information and personal identification information, and/or medical information and personal identification information from wireless relay device 20 via network 5. Server device 30 stores the received biometric information and personal identification information, and/or medical information and personal identification information. Server device 30 provides (e.g., displays) biometric information and/or equipment information in response to a request (e.g., input of personal identification information) from a doctor performing remote medical care or the user himself/herself.

The communication standard between the bioinformation sensor 10 or medical device 12 and the wireless relay device 20 is not particularly limited, but examples thereof include so-called short-range wireless communication standards such as Bluetooth (registered trademark) or Wi-Fi (registered trademark). In addition, the communication standard between the wireless relay device 20 and the server device 30 is not particularly limited, but examples thereof include wireless communication standards such as wireless LAN (Local Area Network), LTE (Long Term Evolution), 3G or 5G, which are performed via an access point AP and a network 5.

<<Radio relay device>>
The wireless relay device 20 will be described in detail below. Fig. 2 is a diagram showing the wireless relay device according to the present embodiment. The wireless relay device 20 shown in Fig. 2 includes communication units 21, 22, and 23, a control unit 24, a storage unit 26, an operation unit 28, and a display unit 29.

The communication unit 21 performs wireless communication with the biometric sensor 10 or the medical device 12. The communication unit 21 functions as a first communication unit capable of receiving biometric information from the biometric sensor 10. Alternatively, the communication unit 21 functions as a second communication unit capable of receiving medical information from the medical device 12. The communication unit 21 is an interface that complies with so-called short-range communication standards such as Bluetooth or Wi-Fi.

The communication unit 22 performs wireless communication with the ID card. The communication unit 22 is an interface that complies with a communication standard for so-called contactless IC cards, such as NFC (Near Field Communication). The communication unit 22 may also be an interface that complies with a communication standard for contact-type IC cards.

The communication unit 23 communicates with the server device 30, for example, via the access point AP and the network 5. The communication unit 23 functions as a third communication unit that transmits the biometric information or medical information received by the communication unit 21 to the server device 30. The communication unit 23 is an interface that performs wireless communication in accordance with a communication standard such as a wireless LAN (Local Area Network), LTE (Long Term Evolution), 3G or 5G.

The control unit 24 controls these communication units 21 , 22 , and 23 .
The control unit 24 reads the personal identification information (ID) on the ID card (a device having an ID) via the communication unit 22, and performs personal authentication of the user based on the read personal identification information. For example, the control unit 24 compares the read personal identification information with pre-registered personal identification information. The control unit 24 performs this personal authentication repeatedly and continuously on a regular or irregular basis.

When personal authentication has been performed, the control unit 24 connects to the biometric sensor 10 or the medical device 12 in accordance with the communication standard via the communication unit 21. For example, the control unit 24 connects based on pre-registered sensor identification information or device identification information.

When personal authentication has been performed and connection has been established (authentication has been successful), the control unit 24 wirelessly relays the biometric information from the biometric sensor 10 or the medical information from the medical device 12 to the server device 30. At this time, the control unit 24 associates the biometric information or medical information with the personal identification information read from the ID card and transmits it to the server device 30.

A flowchart for ID authentication is shown in Figure 7. When the wireless relay device 20 detects the biometric sensor 10 or medical device 12 (S11, S21), it performs ID authentication (S12, S22). When the ID authentication is not successful (S13, S23), the wireless relay device 20 ends communication (S16, S26). When the ID authentication is successful (S13, S23), the wireless relay device 20 receives data from the biometric sensor 10 or medical device 12 (S14, S24), stores the received data (S15, S25), and ends communication (S16, S26).

After that, the wireless relay device 20 performs ID authentication again (S31), and if the ID authentication is successful (S32), it transmits the stored data to the server device 30 (S33) and ends the communication (S34). If the ID authentication is not successful (S32), the wireless relay device 20 ends the communication (S34). In this way, security can be improved by performing ID authentication every time communication is performed.

In the embodiment, the wireless relay device 20 allows communication when ID authentication is successful, but the present invention is not limited to this, and the wireless relay device 20 may restrict communication depending on the ID. For example, the wireless relay device 20 (control unit 24) may be able to classify the ID to be authenticated into a first ID that does not allow communication with the medical device 12 and a second ID that does not allow communication with the biometric sensor 10. For example, if the ID that has been successfully authenticated is the first ID that does not allow communication with the medical device 12, the wireless relay device 20 (control unit 24) does not allow communication with the medical device 12 even if ID authentication is successful. Similarly, if the ID that has been successfully authenticated is the second ID that does not allow communication with the biometric sensor 10, the wireless relay device 20 (control unit 24) does not allow communication with the biometric sensor 10 even if ID authentication is successful. By providing a hierarchy as described above, security can be further improved.

The control unit 24 may also detect the attachment or detachment of the ID card from the card holding mechanism 230, and may stop communication between the communication unit 21 and the communication unit 33 when it detects that the ID card has been removed from the card holding mechanism 230. After detecting that the ID card has been removed from the card holding mechanism 230, the control unit 24 may maintain the suspension of communication between the communication unit 21 and the communication unit 23 until it detects that the ID card has been attached to the card holding mechanism 230.

The control unit 24 is composed of an arithmetic processor such as a CPU (Central Processing Unit), a DSP (Digital Signal Processor), and an FPGA (Field-Programmable Gate Array). The various functions of the control unit 24 are realized, for example, by executing a program (application) stored in the memory unit 26. The program (application) may be provided via a network, or may be provided recorded on a computer readable storage medium 40 such as a CD-ROM (Compact Disc Read only memory) or a DVD (Digital Versatile Disc). Examples of the recording medium include non-transitory tangible media.

The storage unit 26 stores personal identification information of a user that is registered in advance for personal authentication. The storage unit 26 also stores sensor identification information of a biometric sensor that is registered in advance for connection with the biometric sensor 10. The storage unit 26 also stores device identification information of a medical device that is registered in advance for connection with the medical device 12. The storage unit 26 may also store personal identification information read from an ID card.

The storage unit 26 also stores programs (applications) executed by the control unit 24. The storage unit 26 is configured with a recording medium such as a ROM (Read Only Memory), a HDD (Hard Disk Drive), a SSD (Solid State Drive), or a removable memory card.

The operation unit 28 is an operation unit that is operated by the user. The operation unit 28 is composed of, for example, a keyboard or mouse having physical operation buttons, or a touch panel having virtual operation buttons.

The display unit 29 is a notification unit that notifies the user of information. The display unit 29 is composed of, for example, a liquid crystal display or an organic EL display. Note that the notification unit is not limited to this, and may be a speaker that notifies with a sound such as a buzzer, or a light-emitting element such as an LED that notifies with light such as light emission, flashing, or color, etc.

Next, the physical configuration of the wireless relay device 20 will be described in detail. FIG. 3 is a front external view of the wireless relay device according to this embodiment, and FIG. 4 is a rear external view of the wireless relay device according to this embodiment. FIG. 5 is a V-V line cross-sectional view of the wireless relay device shown in FIG. 3. As shown in FIGS. 3 to 5, the wireless relay device 20 is a wearable device having a card holder type shape, more specifically, a name holder type shape. The wireless relay device 20 comprises a housing 210, a user holding mechanism 220, and a card holding mechanism 230. The user holding mechanism 220 and the card holding mechanism 230 are both also referred to as holding mechanisms.

3 and 4, the housing 210 has a user holding mechanism 220 and a card holding mechanism 230 on the outside. Specifically, the housing 210 has the user holding mechanism 220 on the top and the card holding mechanism 230 on the outer surface of the front side.

5, the housing 210 has therein a circuit board 212 and an NFC antenna 214. The circuit board 212 is equipped with electronic components (arithmetic processor) that realize the various functions of the control unit 24 described above, electronic components (memory, etc.) as the storage unit 26 described above, electronic components (interfaces) as the communication units 21, 22, and 23 described above, electronic components as the operation unit 28 described above, electronic components as the display unit 29 described above, etc.

The NFC antenna 214 is an antenna for performing short-range communication with an ID card and reading personal identification information on the ID card. The NFC antenna 214 is disposed on the card holding mechanism 230 side of the circuit board 212 inside the housing 210. The NFC antenna 214 may be fixed to the card holding mechanism side of the inner surface constituting the interior of the housing 210, or may be fixed to the circuit board 212.

Note that in Figure 5, the antenna that communicates with the bioinformation sensor 10 or the medical device 12, and the antenna that communicates with the access point AP are omitted.

As shown in Figures 3 and 4, the user holding mechanism 220 is a mechanism for being held by a user. The user holding mechanism 220 functions as a member for fixing the user and the card holding mechanism 230. For example, the user holding mechanism 220 includes a user attachment mechanism 222 for being attached to the user, and has a shape that fits with the user attachment mechanism 222. Examples of the user attachment mechanism 222 include a neck strap, a hook, etc., and examples of the user holding mechanism 220 include a fitting hole.

This allows the wireless relay device 20 to be wearable. Therefore, the user can wear the wireless relay device 20 at all times, and the bioinformation from the wearable bioinformation sensor 10 or the medical information from the wearable medical device 12 can be continuously relayed to the server device 30.

In addition, the user support mechanism 220 is not limited to a wearable mechanism attached to the user, but may be a portable mechanism held by the user. In this case, the user support mechanism 220 may not be provided.

As shown in Figures 3 and 5, the card holding mechanism 230 receives and holds an ID card. The card holding mechanism 230 functions as a card case into which an ID card can be inserted. For example, the card holding mechanism 230 is formed so that an ID card can be inserted from the side or from above. In addition, the outer surface of the card holding mechanism 230 includes a transparent member 232 or an opening 234.

This allows the wireless relay device 20 to be a card holder type. Therefore, the user can always carry the ID card and perform personal authentication continuously. In addition, the ID card can be visually checked, and the wireless relay device 20 can function as a name holder.

The card holding mechanism 230 may include a switch for turning the power of the wireless relay device 20 ON/OFF. The switch may be positioned at a position where it is pressed when the ID card is held in the card holding mechanism 230.

The wireless relay device 20 may also be equipped with a notification device 240, a display device 242, and an operation button 244.

As shown in Fig. 3, the notification device 240 is provided on the front side of the housing 210 and notifies the result of personal authentication. The notification device 240 is an example of the display unit (notification unit) 29 described above, and is composed of a light-emitting element such as an LED that notifies by emitting light, flashing light, coloring light, etc.

As shown in Fig. 4, the display device 242 is provided on the back side of the housing 210 and displays various information such as the communication status. The display device 242 is an example of the display unit (notification unit) 29 described above, and is configured, for example, by a liquid crystal display or an organic EL display.

As shown in FIG. 4, the operation button 244 is provided on the back side of the housing 210 and is an operation unit for performing various operations such as pairing. The operation button 244 is an example of the operation unit 28 described above and is configured, for example, by a physical operation button.

The wireless relay device 20 may also include a buzzer 250 and an error notification device 252. The wireless relay device 20 may also include a battery, a charging connector 254, and a charging status notification device 256.

As shown in FIG. 4, the buzzer 250 is provided on the back side of the housing 210 and notifies various information such as an alarm in the event of an abnormality. The buzzer 250 is an example of the display unit (notification unit) 29 described above.

As shown in Fig. 4, the error notification device 252 is provided on the back side of the housing 210 and notifies various errors. The error notification device 252 is an example of the display unit (notification unit) 29 described above, and is composed of a light-emitting element such as an LED that notifies by emitting light, flashing light, coloring light, etc.

As shown in FIG. 4, the charging connector 254 is provided on the side of the housing 210 and is a connector for charging.

As shown in Fig. 4, the charging status notification device 256 is provided on the back side of the housing 210 and notifies the charging status. The charging status notification device 256 is an example of the display unit (notification unit) 29 described above, and is composed of a light-emitting element such as an LED that notifies by emitting light, flashing light, coloring light, etc.

Next, we will explain the personal authentication operation and relay operation by the above-mentioned wireless relay device 20.

(Personal authentication operation)
First, the user mounts the wireless relay device 20 using the user holding mechanism 220 and the user mounting mechanism 222, and sets the ID card in the card holding mechanism 230. The wireless relay device 20 then reads the personal identification information on the ID card and performs personal authentication of the user. At this time, the wireless relay device 20 performs personal authentication based on the user's personal identification information that has been registered in advance, for example. The wireless relay device 20 periodically and continuously performs this personal authentication operation.

(Relay operation)
If personal authentication has been performed, the wireless relay device 20 connects to the biometric sensor 10 or the medical device 12 in accordance with a communication standard such as Bluetooth or Wi-Fi. At this time, the wireless relay device 20 establishes the connection based on, for example, pre-registered sensor identification information or device identification information.

Once connected, the wireless relay device 20 relays the biometric information from the biometric sensor 10 or the medical information from the medical device 12 to the server device 30. At this time, the wireless relay device 20 associates the biometric information or medical information with the personal identification information read from the ID card and transmits it.

As described above, the wireless relay device 20 of this embodiment performs personal authentication of the user based on the personal identification information in the ID card, and relays biometric information or medical information if personal authentication has been performed. This makes it possible to confirm the user and prevent the user's personal information from being mixed up with the biometric information or medical information, thereby improving security.

From the viewpoint of security, when adding a function for personal authentication of a user to the system disclosed in Japanese Patent Laid-Open No. 2003-233999, the following method is considered.
- Personal authentication by password using input devices such as keyboards and display devices such as displays;
- Personal authentication using a fingerprint sensor, or - Personal authentication using a camera, etc.

However, these personal authentication methods require interfaces such as input devices like keyboards, display devices like displays, fingerprint sensors, cameras, etc. These interfaces make it difficult to make wireless relay devices smaller, thinner, less power-consuming, and less costly.

In this regard, according to the wireless relay device 20 of this embodiment, the user can perform personal authentication by the simple operation of simply inserting an ID card. More specifically, the wireless relay device 20 does not perform personal authentication using a password. This makes it possible to omit or minimize the size of interfaces such as input devices such as a keyboard, display devices such as a display, fingerprint sensors, and cameras for personal authentication. As a result, it is possible to make the wireless relay device 20 smaller, thinner, and more energy-efficient and less costly.

Furthermore, the wireless relay device 20 of this embodiment is a wearable type with a user holding mechanism 220, and a card holder type, more specifically a name holder type, with a card holding mechanism 230. This allows the user to hold an ID card at all times and perform personal authentication continuously. Furthermore, the user can wear the wireless relay device at all times, and biometric information from the wearable biometric sensor 10 or medical information from the wearable medical device 12 can be continuously relayed to the server device 30.

Here, for example, as described in Patent Document 1, with a mobile phone, when the user moves away from the mobile phone, the communication cannot be authenticated and relaying is no longer possible.

In this regard, according to the wireless relay device 20 of this embodiment, the ID card is always inserted into the card holding mechanism 230, and the wireless relay device 20 is held by the user. Therefore, personal authentication of the user can be performed periodically and repeatedly, and biometric information can be continuously relayed.

In addition, according to the wireless relay device 20 of this embodiment, personal authentication is periodically and continuously performed, thereby improving security. For example, it is possible to detect if the ID card is replaced during the authentication.

In addition, according to the wireless relay device 20 of this embodiment, a notification device 240 is provided that notifies the result of personal authentication, so that the result of personal authentication can be visually confirmed.

In addition, according to the wireless relay device 20 of this embodiment, the NFC antenna 214 for short-distance communication with the ID card is arranged on the card holding mechanism 230 side of the circuit board 212 inside the housing 210. It is preferable that the circuit board 212 and metal parts are not arranged between the NFC antenna 214 and the card holding mechanism 230. This allows the communication distance between the NFC antenna 214 and the ID card to be close, and the power of the transmission signal for reading the personal identification information of the ID card can be reduced. This makes it possible to reduce the power consumption of the wireless relay device 20. In addition, the NFC antenna 214 can be made small and thin, improving the freedom of layout within the housing 210, and as a result, the wireless relay device 20 can be made small. In addition, it is possible to reduce erroneous connections with other ID cards and the like in distant locations, improving security.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications, variations, and combinations are possible. For example, the above-described embodiments exemplified a wireless relay device 20 that performs personal authentication of a user based on personal identification information on an ID card. That is, the wireless relay device 20 exemplified omits input devices such as a keyboard, display devices such as a display, and interfaces such as a fingerprint sensor and a camera, or minimizes their size. However, the wireless relay device according to the present invention is not limited to this, and may also include an input device such as a keyboard and a display device such as a display.

Figure 6 is a rear external view of a wireless relay device according to a modified example of the embodiment described above. As shown in Figure 6, the modified wireless relay device 20 includes an operation device 244 and a display device 242. The operation device 244 is an example of an operation unit 28 operated by a user. The operation device 244 is configured, for example, as a keyboard or mouse having physical operation buttons, or a touch panel having virtual operation buttons. The display device 242 is an example of a notification unit 29 that notifies the user of information. The display device 242 is configured, for example, as a liquid crystal display or an organic EL display.

According to the wireless relay device 20 of this modified example, in addition to personal authentication of the user based on the personal identification information of the ID card, a second personal authentication may be performed by a password using the operation device 244 and the display device 242. This can further improve security.

REFERENCE SIGNS LIST 1 Biometric information/medical information management system 5 Network 10 Biometric information sensor 12 Medical device 20 Wireless relay device 21, 22, 23 Communication unit 24 Control unit 26 Memory unit 28 Operation unit 29 Display unit (notification unit)
30 Server device 40 Recording medium 210 Housing 212 Circuit board 214 NFC antenna 220 User holding mechanism 222 User attachment mechanism 230 Card holding mechanism 232 Transparent member 234 Opening 240 Notification device 242 Display device 244 Operation button 250 Buzzer 252 Error notification device 254 Charging connector 256 Charging state notification device AP Access point

Claims (10)

a communication unit including at least one of a first communication unit capable of receiving biological information from a biological information sensor worn by a user and used, and a second communication unit capable of receiving medical information from a medical device worn by a user and used, and a third communication unit transmitting at least one of the biological information received by the first communication unit and the medical information received by the second communication unit to a server device;
a card holding mechanism capable of holding a device having an ID and including a transparent member or an opening on an outer surface;
a control unit that controls the communication unit and the third communication unit and transmits at least one of the biological information and the medical information from the third communication unit to the server device based on the authentication of the ID;
a housing having an antenna and a circuit board therein for short-distance communication with a device having the ID, and having the card holding mechanism on an outer surface;
Equipped with
the antenna is disposed on the transparent member side or the opening side of the circuit board inside the housing, or is fixed to the transparent member side or the opening side of an inner surface constituting the interior of the housing, and overlaps with the transparent member or the opening in a plan view;
The control unit is
The attachment/detachment of a device having the ID can be detected from the card holding mechanism;
when detecting that a device having the ID has been removed from the card holding mechanism, stopping communications between the first communication unit, the second communication unit, and the third communication unit;
Radio repeater device. a communication unit including at least one of a first communication unit capable of receiving biological information from a biological information sensor worn by a user and used, and a second communication unit capable of receiving medical information from a medical device worn by a user and used, and a third communication unit transmitting at least one of the biological information received by the first communication unit and the medical information received by the second communication unit to a server device;
a card holding mechanism capable of holding a device having an ID and including a transparent member or an opening on an outer surface;
a control unit that controls the communication unit and the third communication unit and transmits at least one of the biological information and the medical information from the third communication unit to the server device based on the authentication of the ID;
a housing having an antenna and a circuit board therein for short-distance communication with a device having the ID, and having the card holding mechanism on an outer surface;
A wireless relay device comprising :
the antenna is disposed on the transparent member side or the opening side of the circuit board inside the housing, or is fixed to the transparent member side or the opening side of an inner surface constituting the interior of the housing, and overlaps with the transparent member or the opening in a plan view;
the card holding mechanism includes a switch for turning on/off a power supply of the wireless relay device;
the switch is disposed at a position where it is pressed when a device having the ID is held in the card holding mechanism;
Radio repeater device. 3. The wireless relay device according to claim 1, wherein the card holding mechanism includes a member for fixing a user to the card holding mechanism. The wireless relay device according to claim 1 , wherein, when the ID has been authenticated, the control unit associates at least one of the biometric information and the medical information with the ID and transmits the associated biometric information and medical information to the server device. The wireless relay device according to claim 1 , wherein the control unit repeatedly performs authentication of the ID. The wireless relay device according to claim 1 , further comprising a notification device for notifying a result of said ID authentication. A wireless relay device as described in any one of claims 1 to 6, wherein the control unit maintains suspension of communication between the first communication unit, the second communication unit and the third communication unit after detecting that a device having the ID has been removed from the card holding mechanism, until the device having the ID detects the attachment of the card holding mechanism. The wireless relay device according to any one of claims 1 to 7, wherein the control unit performs authentication based on the ID before at least one of the first communication unit, the second communication unit, and the third communication unit performs communication, and stops communication if the authentication is not successful. The wireless relay device according to any one of claims 1 to 8, wherein the control unit is capable of classifying the ID to be authenticated into a first ID that does not allow communication with the medical device and a second ID that does not allow communication with the biometric sensor . A biometric sensor that is worn by a user and used to measure the biometric information of the user, or a medical device that is worn by a user and used to monitor the biometric information of the user and provide medical care to the user;
A server device;
A wireless relay device according to any one of claims 1 to 9 , which wirelessly relays at least one of the biological information from the biological information sensor and the medical information from the medical device to the server device;
A biometric information/medical information management system comprising:

Images