WO2021235109A1

WO2021235109A1 - Wearable equipment and biometric information management equipment

Info

Publication number: WO2021235109A1
Application number: PCT/JP2021/013662
Authority: WO
Inventors: 哲視星川
Original assignee: トリニティ株式会社
Priority date: 2020-05-22
Filing date: 2021-03-30
Publication date: 2021-11-25
Also published as: JPWO2021235109A1

Abstract

[Problem] To provide wearable equipment that can be easily and economically combined with peripheral equipment. [Solution] Wearable equipment comprising a sensor for acquiring biometric information of a wearer, a data processing unit for processing application information pertaining to the biometric information and the biometric information, and a communication unit for transmitting to and receiving from peripheral equipment, wherein application information that matches the peripheral equipment is provided to the peripheral equipment, and application information that does not match the peripheral equipment is not provided to the peripheral equipment. A biometric information usage device including the wearable equipment and peripheral equipment.

Description

Wearable devices and biometric information management devices

The present invention relates to a wearable device. The present invention particularly relates to a wearable device capable of acquiring biometric information of a wearer and transmitting information of an optimum application related to the biometric information to a peripheral device. Further, the present invention is a wearable device that provides the above-mentioned optimum application information to a peripheral device by a short-range wireless communication method, and pairs the above-mentioned peripheral device by the short-range wireless communication method having a longer communication distance to perform the above-mentioned biometric information. Regarding. The present invention also relates to a biometric information management device including the wearable device and the peripheral device.

A terminal device that can detect various physical conditions of the user and store / transmit the detected data while in close contact with or close to the user's body is generally called a wearable device. Physical observation and management using wearable devices are used in various situations, such as physical condition management in outdoor work (Patent Document 1), healthcare and medical diagnosis (Patent Document 2), and monitoring and determination of heat stroke (Patent Document 2). Patent Document 3) is known.

In such physical observation and management, the wearable device wearer himself or a user other than the wearable device wearer manages personal data acquired by the wearable device with an application installed on the second terminal device (peripheral device). can do. A smartphone can be used as the second terminal device. For example, management of personal data of children by nursery teachers and parents (Patent Document 4), and sensory, motor, and cognitive analysis devices for humans and animals other than humans (Patent Document 5) are known. In such a management method, the application installed in the second terminal device can be used to analyze the personal data from various angles, and the personal data can be used for more various purposes. However, in reality, when the connection between the wearable device and the peripheral device is started, and when the peripheral device is changed, it is a burden for the wearable device user to select and download only the application that can be actually used by the peripheral device.

Devices and methods for selectively transmitting application information suitable for user equipment are known. For example, when connecting a digital device such as a TV to a peripheral device such as a smartphone, the digital device receives system information from the peripheral device and analyzes this system information to generate a connection program list that can be executed by this peripheral device. , A device and a method for transmitting this connection program information to a peripheral device have been proposed (Patent Document 6). However, in the method and device described in Patent Document 6, a wearable device is not assumed as a digital device.

JP-A-2015-154920 Japanese Unexamined Patent Publication No. 2017-18595 Japanese Unexamined Patent Publication No. 2017-104327 Japanese Unexamined Patent Publication No. 2018-93977 JP-A-2017-520358 Japanese Patent Publication No. 2014-503926

The biometric information management / observation system that acquires the wearer's biometric information with the sensor of the wearable device and uses the biometric information in the application installed in the peripheral device is used in various situations such as sports, medical care, welfare, games, and household affairs. It is a technology that can be used in. In order for such technology to become widespread, it is desirable that not only young people who are accustomed to using IT devices but also anyone can easily operate wearable devices and peripheral devices. However, as described above, there is room for improvement in the operation of downloading an application for using biometric information on a peripheral device. Furthermore, in recent years, the number and variations of personal mobile terminals such as smartphones owned by users have increased, and with the addition of devices and model changes, synchronization between wearable devices and other devices and applications for each device have increased. The effort of updating is great. Therefore, the present inventor has sought a wearable device that can reduce the work of the user due to the addition or change of peripheral devices.

The present inventor has solved the above problem by introducing a new function into a wearable device. That is, the present invention is as follows.
(Invention 1) Communication for transmitting and receiving between a sensor for acquiring the wearer's biometric information, a data processing unit for processing the application information related to the biometric information and the biometric information, and a peripheral device. Has a part,
Provide application information compatible with the peripheral device to the peripheral device, and do not provide application information not compatible with the peripheral device to the peripheral device.
Wearable device.
(Invention 2) In the communication unit, the model information of the peripheral device is received by the NFC method, only the application information suitable for the peripheral device is extracted from the data processing unit, and the extracted application information is extracted from the communication unit. The wearable device of the invention 1 that transmits to peripheral devices by the NFC method.
(Invention 3) A wearable device according to

invention

1 or 2, wherein in the communication unit, the peripheral device is paired and the biological information is transmitted to the peripheral device by a method other than NFC.
(Invention 4) A wearable device according to any one of Inventions 1 to 3, wherein the communication unit pairs the peripheral device with the Bluetooth (registered trademark) method and transmits the biological information to the peripheral device.
(Invention 5) The communication unit pairs a first communication unit for providing only application information suitable for the peripheral device to the peripheral device and the peripheral device, and transmits the biological information to the peripheral device. The wearable device according to any one of the inventions 1 to 4, which includes a second communication unit for switching the communication means with the peripheral device between the first communication unit and the second communication unit.
(Invention 6) The wearable device according to any one of the inventions 1 to 5, wherein the communication unit can start communication with the peripheral device by the NFC method when the peripheral device is not paired with the peripheral device.
(Invention 7) The biometric information is based on the wearer's heartbeat state, pulse state, respiratory state, body temperature state, blood oxygen concentration state, electrocardiographic state, body tilting state, body activity state, horizontal direction and / or vertical. A wearable device according to any one of inventions 1 to 6, which is one or more selected from a moving state in a direction.
(Invention 8) A wearable device according to any one of Inventions 1 to 7, wherein the peripheral device is a smartphone.
(Invention 9) A wearable device according to any one of the inventions 1 to 8, wherein the peripheral device is an android (registered trademark) -equipped smartphone or an iOS-equipped smartphone (registered trademark).
(Invention 10) A wearable device according to any one of Inventions 1 to 9, which is a wristwatch type.
(Invention 11) A biometric information utilization device including the wearable device according to any one of the inventions 1 to 10 and at least one peripheral device.

The application information received by the peripheral device using the wearable device of the present invention is limited to the information suitable for the model of the peripheral device. When this application information is displayed on the peripheral device, the user can select the desired application without wondering whether the application is suitable for the model.

Further, the wearable device of the present invention has such an efficient application providing function and a function of analyzing and managing biometric information. Moreover, these two functions can be switched by a simple mechanism.

FIG. 1 schematically shows an example (1) of the wearable device of the present invention. FIG. 2 schematically shows an application providing step performed between a wristwatch-type wearable device (101), which is an example of a wearable device of the present invention, and a smartphone (701), which is an example of a peripheral device. FIG. 3 schematically shows a switching step and a pairing step performed between the wristwatch-type wearable device (101) and the smartphone (701). FIG. 4 schematically shows a switching step performed between the wristwatch-type wearable device (101) and the smartphone (701), and a standby state of the wristwatch-type wearable device (101). FIG. 5 schematically shows an application providing step performed between the wristwatch-type wearable device (101) in a standby state and a new smartphone (702). FIG. 6 is for a running classroom including a wristwatch-type wearable device (111, 121, 131), a smartphone (711, 721, 731), and a teacher's computer (15), which is an example of the biometric information utilization device of the present invention. The device (12) is schematically shown. FIG. 7 schematically shows an example of a communication method between the wearable device and the peripheral device of the present invention. FIG. 8 schematically shows an example (16) of a wearable device of the present invention which is a wristwatch type. (A) shows a state seen from the front, and (b) shows a state seen from the side.

[Wearable device] The wearable device of the present invention includes a sensor for acquiring the wearer's biometric information, a data processing unit for storing the biometric information and application information related to the biometric information, and a peripheral device. It has a communication unit for transmitting and receiving between.

[Sensor] The above sensor detects the wearer's biological information. The type and number of the biometric information and the sensor are not particularly limited. The biometric information is selected from, for example, heartbeat state, pulse state, respiratory state, body temperature state, blood oxygen concentration state, electrocardiographic state, body tilting state, body activity state, horizontal and / or vertical movement state. Refers to one or more biometric information. When the sensor detects, for example, a heartbeat state, a heartbeat detection sensor is used as the sensor, and the heartbeat detection sensor includes a detection program. When the sensor detects, for example, a pulse state, a pulse detection sensor is used as the sensor, and the pulse detection sensor includes a detection program. When the sensor detects, for example, a body temperature state, a body temperature detection sensor is used as the sensor, and the body temperature detection sensor includes a detection program. When the sensor detects, for example, a tilted state of the body, an active state of the body, a horizontal and / or vertical moving state, an acceleration sensor is used as the sensor, and the acceleration sensor includes a detection program. Similarly, a detection sensor equipped with a detection program is used as a sensor for detecting other biometric information.

[Data processing unit] The above data processing unit has an application processing unit. The application processing unit stores information of various applications (so-called "applications") effective for analyzing and managing the biometric information as a database. Search this database to extract application information appropriate for peripheral models. Such an application is not limited as long as the biometric information can be used. For example, it includes so-called health-related applications such as a heart rate monitor app, a thermometer app, a running app, and a pedometer app. The application processing unit stores URLs, compatible models (for example, Android (registered trademark) -equipped smartphones or iOS (registered trademark) -equipped smartphones), icon information, version information, and the like corresponding to these applications.

The application processing unit executes a search program, searches the database based on the model information received by the communication unit (first communication unit) described later, and extracts only application information matching the model of the peripheral device. .. The extracted application information is sent from the application processing unit to a communication unit (first communication unit) described later.

The data processing unit further has a biometric information processing unit. In the biometric information processing unit, the biometric information detected by the sensor is edited and stored by the storage program using the wearer information (wearer ID), the detection time information, the wearer's position information, and the like. The biometric information extracted from the biometric information processing unit is sent to a communication unit (second communication unit) described later.

[Communication unit] The wearable device of the present invention communicates with peripheral devices via the above communication unit. As the communication method used for the communication unit, a so-called short-range wireless communication method is preferable. For example, NFC (Near field communication) having a communication distance of about 10 cm, infrared communication having a communication distance of about 30 cm to 1 m, and a longest communication distance. A Bluetooth (registered trademark) method having a maximum communication distance of about 10 m and a wireless LAN method having a maximum communication distance of about 100 m are preferable. By adopting such a short-range wireless communication method, the possibility of making a mistake in the combination of the wearable device and the peripheral device is reduced.

The communication unit has a first function of transmitting application information to the peripheral device and a second function of pairing with the peripheral device and transmitting the biometric information to the peripheral device. In the present invention, the portion of the communication unit having the first function is referred to as a "first communication unit", and the portion having the second function is referred to as a "second communication unit".

[First communication unit, application provision] The wearable device of the present invention provides application information compatible with the peripheral device to the peripheral device via the first communication unit, and provides application information not compatible with the peripheral device. Not provided for the above peripherals. The first communication unit receives the model information of the peripheral device, extracts only the application information suitable for the peripheral device from the data processing unit, and transmits the extracted application information from the communication unit to the peripheral device. .. As described above, the communication unit of the present invention transmits selected and limited application information to peripheral devices. Such transmission of application information from the communication unit of the present invention to a peripheral device is referred to as "application provision".

NFC is preferable as the communication method between the first communication unit and the peripheral device. By adopting the NFX method, it is possible to accurately identify the peripheral device to which the application should be transmitted. When the first communication unit communicates by the NFC method and the peripheral device is a smartphone, the application provision is so-called "one-touch" (holding the peripheral device over the wearable device or bringing the peripheral device into contact with the wearable device). It is completed in one operation). When the user touches the wearable device of the present invention with a peripheral device, the first communication unit receives a signal including model information (user agent). The matching program included in the wearable device of the present invention extracts application information matching the user agent from the application information stored in the data processing unit. The extracted application information is transmitted from the first communication unit to the smartphone. The information of the application that is stored in the data processing unit and cannot be used on the smartphone is not transmitted to the smartphone. The smartphone that has received the application information displays the received application information (URL, icon, name, description text, etc.) on the display unit by the display program, and waits in a state of waiting for the user's download instruction. The applications displayed on the smartphone are limited to those that can be operated on the touched smartphone. The user does not have to consider whether the displayed application is suitable for the smartphone model. The user can specify the application information on the display screen, download the application suitable for this smartphone, and complete the setup of the wearable device and the smartphone.

By such an application providing method, the effort of the user to download the application to the peripheral device to the peripheral device is greatly reduced. Ultimately, even users who do not know the model of the new peripheral device (for example, a smartphone equipped with Android (registered trademark) or a smartphone equipped with iOS (registered trademark)) can use "one-touch" for NFC communication and peripherals. With "one touch" on the display of the device, the setup of the wearable device and peripheral devices can be completed.

[Second communication unit, pairing] The wearable device of the present invention and the peripheral device are paired via the second communication unit, and the biometric information stored in the biometric information processing unit is transmitted to the peripheral device. It will be ready. The paired peripheral device receives the biometric information acquired by the wearable device of the present invention via the second communication unit, and can observe, analyze, and manage the biometric information by various applications. In the present invention, as a combination of a wearable device and a peripheral device, when the wearable device wearer handles the peripheral device while acquiring biometric information (for example, a runner wearing a watch-type wearable device is a watch-type wearable device. When running while observing speed and distance with a smartphone paired with a wearable device), when transmitting biometric information stored in a wearable device to a paired PC or tablet terminal (for example, providing biometric information from a patient to a doctor) When pairing multiple wearable devices with one peripheral device (for example, to prevent heat stroke and accidents, teachers and managers of the physical condition of multiple children and workers) When observing), various situations are assumed. Therefore, it is preferable that the second communication unit can communicate with the peripheral device not only by the NFC method but also by a method other than the NFC, for example, a Bluetooth (registered trademark) method.

When transmitting biometric information from one wearable device to one peripheral device that is relatively close to each other for the purpose of sports, medical care, welfare, entertainment, etc., the communication method between the second communication unit and the peripheral device is A short-range wireless communication method having a longer notification distance than the NFC, for example, a wireless LAN method or a Bluetooth (registered trademark) method is preferable. The wearable device of the present invention preferably provides the above application by the NFC method via the first communication unit, and performs the above pairing by the Bluetooth (registered trademark) method via the second communication unit. By selecting the communication method of the first communication unit and the second communication unit in this way, the wearable device of the present invention accurately recognizes the model information of the application providing destination, and the peripheral device at a further distant position. You can avoid erroneous pairing with.

[Switching] The wearable device of the present invention preferably has a means for switching the function of the communication unit between the first function and the second function. The switching means is, for example, a mechanism for receiving a switching command from a peripheral device, a switch such as a button or a dial attached to the wearable device main body, a selection display on a sub screen or a main screen, a switching necessity determination program, or the like. When the switching means is activated, the switching program is activated at the portion that manages the communication unit, and the communication unit shifts from the first communication unit to the second communication unit or from the second communication unit to the first communication unit.

In the wearable device of the present invention, the first communication unit communicates by the NFC method, and the second communication unit communicates by a method other than NFC, specifically, a method having a longer communication distance than the NFC method. Therefore, in a typical wearable device of the present invention, the state in which the second communication unit is valid (pairable state, other than NFC) is higher than the state in which the first communication unit is valid (application can be provided, NFC method). Power consumption is high. In order to avoid unnecessary power consumption, the communication unit of the wearable device of the present invention stands by with the peripheral device in a state in which the first communication unit is valid (NFC method) (default state). Only when the switching means is activated, the communication unit of the wearable device of the present invention is switched from the first communication unit to the second communication unit. When pairing with a peripheral device is stopped or pairing with a peripheral device is not started, the communication unit is switched from the second communication unit to the first communication unit by the switching means, and the wearable of the present invention is used. The device returns to standby.

In this case, for example, after installing the application on the peripheral device via the first communication unit, when the user presses the switching button provided on the wearable device of the present invention, the switching program is activated. The switching program shifts the communication unit from the first communication unit to the second communication unit, and starts pairing between the wearable device and the peripheral device via the second communication unit. The paired peripheral device receives the biometric information according to the application from the second communication unit, and the biometric information is edited and displayed by the application. The user can manage and observe the biometric information of the wearer of the wearable device of the present invention by the biometric information displayed on the peripheral device.

When the user operates the switching means, the peripheral device is naturally placed in an appropriate position (the user himself / herself brings the target peripheral device closer to the wearable device, or the target peripheral device is from the wearable device. (Make sure it is in the right position). Therefore, even if the communication is performed by a method having a longer communication distance via the second communication unit, the possibility of pairing the wrong peripheral device is low.

Further, in this case, for example, if the peripheral device disconnects the pairing while the second communication unit is enabled, or if the pairing with the peripheral device is not established for a certain period of time, the switching program is activated and the second communication is described. The unit is switched to the first communication unit, and the wearable device returns to the standby state (default state) in which communication can be performed by the NFC method. In this way, the user does not need to directly operate the wearable device to switch the communication unit from the second communication unit to the first communication unit. As a result, to the user, the wearable device of the present invention automatically seems to be maintained in a communication state with low power consumption.

In this case, the wearable device of the present invention that has returned to the standby state can provide an application by the NFC method to a peripheral device different from or the same as the peripheral device. When pairing the wearable device that has returned to the standby state with the peripheral device again, the user operates the switching means again to switch the first communication unit to the second communication unit.

[Communication method] In the communication between the wearable device and the peripheral device of the present invention, the state of communication in the first communication unit, the state of communication in the second communication unit, and the state of switching between the first communication unit and the second communication unit are switched. State, including. That is, in the communication method between the wearable device and the peripheral device of the present invention, the communication unit receives the model information of the peripheral device, and the data processing unit extracts and extracts only the application information suitable for the peripheral device. The application provision step of transmitting the applied application information from the communication unit to the peripheral device, and the pairing step of pairing the wearable device and the peripheral device so that the peripheral device can receive the biometric information. , The switching step for switching between the application providing step and the pairing step. Such a communication method frees the user from the work of separating the application information that is compatible with the peripheral device and the application information that is not compatible with the peripheral device.

Communication between the wearable device and the peripheral device of the present invention preferably starts from a standby state in which the first communication unit that communicates by the NFC method is valid, and communicates with the peripheral device by the NFC method in the above application providing step. do. Only when the switching means is operated, the first communication unit is switched to the second communication unit that communicates by a method other than NFC having a longer communication distance, and the pairing step is started. Then, when it is determined by the switching determination program that the pairing step should not be maintained, the second communication unit shifts to the first communication unit, and the wearable device of the present invention communicates with the peripheral device. Returns to the standby state using the NFC method. The communication method used in the second communication unit is preferably a Bluetooth (registered trademark) method.

In this case, the operations required of the user to control the communication between the wearable device and the peripheral device of the present invention are one touch for starting the application providing step and one button pressing for starting the pairing step. It's just a time. From the user's point of view, the wearable device of the present invention is automatically maintained in a low power consumption state.

[Bioavailability device] The wearable device of the present invention and at least one peripheral device can be combined as an element of the bioavailability device. Here, "use" refers to all of the actions of using the biometric information of the wearable device wearer of the present invention and the data based on the biometric information, and the operations necessary for such actions. The bioutilizing device of the present invention is, for example, a device used for acquiring, processing, transmitting and receiving biometric information of the wearer of the wearable device of the present invention, and observing, analyzing, managing, and diagnosing the biometric information. The bioavailable device of the present invention includes the wearable device of the present invention and at least one peripheral device capable of performing the above-mentioned communication with the wearable device. The combination of the biological use device of the present invention is, for example, a wearable device / smartphone / PC, a wearable device / smartphone / PC / hard disk, a wearable device / smartphone / videophone system, and the like.

An example of communication between the wearable device of the present invention and the wearable device of the present invention and a peripheral device will be described with reference to FIGS. 1 to 8. 1 to 7 merely schematically show an example of the present invention, and the present invention is not limited thereto. In particular, the shapes and arrangements of the various devices shown in FIGS. 1 to 5 are emphasized and processed for reference in order to understand the functions and effects of the present invention, and do not necessarily match those of the actual devices.

[Example of wearable device] The wearable device (1) has a sensor (2), and the sensor (2) includes a heart rate detection sensor (201), a pulse detection sensor (202), and a body temperature detection sensor (203). It consists of an acceleration sensor (204) and a sensor for detecting the electrocardiographic state (205). The biometric information detected by the sensors (2,201,202,203,204,205) is sent to the biometric information processing unit (302) of the data processing unit (3) and stored in the memory of the biometric information processing unit (302). Will be done. The application processing unit (301) of the data processing unit (3) stores information on an application that can use the biometric information detected by the sensor (2,201,202,203,204,205). The wearable device (1) and the peripheral device (not shown) communicate data via the communication unit (4).

In the communication unit (4), the first communication unit (401) that communicates by the NFC method is enabled, and the transmission / reception circuit of the second communication unit (402) that communicates by a method other than NFC is in the off state. When the switching means (5) is activated, the transmission / reception circuit of the first communication unit (401) is turned off, the transmission / reception circuit of the second communication unit (402) is turned on, and communication by a method other than NFC becomes possible.

[Example of application provision] When the smartphone (701) is brought close to (touched) by the wristwatch-type wearable device (1) in the standby state, the first communication unit (401) receives and receives the model information of the smartphone (701). The model information is sent to the application processing unit (301). The application processing unit (301) extracts application information (801) conforming to the model information from the database (application data 8) stored in the memory by the application search program and sends it to the first communication unit (401). .. The first communication unit (401) transmits the application information (801) to the smartphone (701). When the smartphone (701) receives the application information (801), the download application information (802) is displayed on the smartphone (701). In this way, the application provision is completed. The user can download an application compatible with the smartphone (701) to the smartphone (701) connected to the Internet (9).

[Examples of switching step and pairing step] When the switching button (501) is pressed, the switching program is activated and the communication unit (4) is switched from the first communication unit (401) to the second communication unit (402). Instead, the pairing of the wristwatch-type wearable device (101) and the smartphone (701) is started by the Bluetooth (registered trademark) method. The paired smartphone (701) acquires the biometric information stored in the biometric information processing unit (302). The application (801) installed on the smartphone (701) edits the acquired biometric information to generate the biometric information management / observation screen display (10).

[Example of switching step and returning to standby state] The smartphone (701) moves out of the Bluetooth (registered trademark) communication range, or the user turns off the Bluetooth (registered trademark) function of the smartphone (701), and the watch-type wearable device. When the pairing between (101) and the smartphone (701) is canceled, or even though the switching button (501) is pressed, the wristwatch-type wearable device (101) and the smartphone (701) are within a certain period of time. ), The switching program is started by the switching determination program. The switching program switches the communication unit (4) of the wristwatch-type wearable device (101) from the second communication unit (402) to the first communication unit (401). As a result, the wristwatch-type wearable device (101) returns to a state in which communication can be performed by the NFC method. The smartphone (701) shown in FIGS. 4 and 5 is not within a distance that allows communication with the wristwatch-type wearable device (101) by the NFC method, and is not paired with the wristwatch-type wearable device (101) by the Bluetooth® method. .. The display (11) of the smartphone (701) shown in FIGS. 4 and 5 indicates a standby state.

[Example of restarting the application step from the standby state] When the user brings (touches) the wristwatch-type wearable device (101) with another smartphone (702), the first communication unit (401) becomes the model of the smartphone (702). The information is received, and the received model information is sent to the application processing unit (301). The application processing unit (301) extracts application information (803) conforming to the above model information from the database (application data 8) stored in the memory by the application search program, and sends it to the first communication unit (401). .. The first communication unit (401) transmits the application information (803) to the smartphone (702). When the smartphone (702) receives the application information (803), the download application information (804) is displayed on the smartphone (701). In this way, the provision of another application is completed. The user can install an application compatible with the smartphone (702) on the smartphone (702) connected to the Internet (9).

[Example of bio-utilizing device] FIG. 6 shows a device (running classroom device) (12) for managing and instructing the running state of a runner as an example of the bio-utilizing device of the present invention. The running classroom device (12) includes a wristwatch-type wearable device (111,121,131), a smartphone (711,721,731), and a teacher's computer (15). Users of the running classroom device (12) include runners (110, 120, 130) and teachers (14). The wristwatch-type wearable device (111,121,131) is a device designated or provided by the running classroom, but the smartphone (711,721,731) may be the device selected by the runner (110,120,130) and is unified. do not have to.

The runner (110) wears a wristwatch-type wearable device (111) to measure the physical condition (movement distance, speed, pulse, etc.) during running, and pairs the measurement data with the wristwatch-type wearable device (111) after the running is completed. Send to the ringed smartphone (711). The smartphone (711) analyzes and processes the received measurement data with a running management application. The runner (110) refers to the result as a running record. Similarly, the runner (120) can refer to the running record by using the wristwatch-type wearable device (121) and the smartphone (721). Similarly, the runner (130) can refer to the running record by using the wristwatch-type wearable device (131) and the smartphone (731). The running records of the runners (110, 120, 130) are transmitted from the smartphone (711,721,731) to the server (131) of the Internet cloud (13), and are stored and stored in the database (132) of the cloud (13). NS. The teacher (14) is a runner who uses the personal data and standard data stored and stored in the database (132) of the cloud (13) via the teacher computer (15) connected to the Internet with the given authority. Guidance and advice on (110, 120, 130).

In such a running classroom device (12), the wristwatch-type wearable device (111, 121, 131) can provide information on a running management application suitable for each of the smartphones (711,721,731). Regardless of changes in the operating system of the smartphone (711,721,731) or the smartphone (711,721,731), all runners (110,120,130) have a common simple task (for example, one-touch NFC method). You can set up your smartphone on each wristwatch-type wearable device.

[Example of wristwatch-type wearable device] The wristwatch-type wearable device (16) has a main body (161), a belt (162), a fastener (163), and a switching button (164). The main body (161) communicates with peripheral devices. The material and shape of the belt (162) and the fastener (163) are not limited as long as the main body (161) can be attached to the user's wrist or the vicinity of the wrist like a wristwatch. Not limited to the structure schematically shown in FIG. 8, the main body (161), the belt (162), and the belt (162) can be used according to various usage situations of the wristwatch-type wearable device (161) such as office work, sports, entertainment, and rest. The size, shape, and arrangement of the fastener (163) and the switching button (164) can be variously designed.

The wearable device of the present invention is an application providing device superior to the conventional product in terms of operability and economy, and is a biometric information utilization device. Further, the wearable device of the present invention can meet the needs of consumers in recent years in that it can flexibly respond to the replacement of peripheral devices by the user. Therefore, the market value of the wearable device of the present invention is extremely high. The biometric information utilization device of the present invention can economically utilize biometric information with a simple operation regardless of the model of the peripheral device to be paired with the wearable device or the change of the peripheral device. It is expected that the present invention will spread the use of wearable devices in various fields such as health, medical care, welfare, sports, and entertainment.

1

Wearable device

101, 111, 121, 131 Watch-type wearable device 2 Sensor 201 Heart rate detection sensor 202 Pulse detection sensor 203 Body temperature detection sensor 204 Accelerometer 205 Accelerometer 205 Cardiovascular state detection sensor 3 Data processing unit 301 Application processing unit 302 Biometric information processing unit 4 Communication unit 401 1st communication unit 402 2nd communication unit 5 Switching means 501 Switching button 601,602 Antenna 701,702 Smartphone 711,721,731 Smartphone 8 Application data 801,802,803,804 Application information 9 Internet 10 Biometric information management / observation screen display 11 Standby status display 12 Running classroom device 13 Internet cloud 131 Internet cloud server 132

Internet cloud database

110, 120, 130 Users (runners)
14 User (teacher)
15 Teacher's computer 16 Watch-type wearable device 161 Main unit 162 Belt 163 Fastener 164 Switch button

Claims

Sensors for acquiring the wearer's biological information,
A data processing unit for processing application information related to the biometric information and the biometric information.
Has a communication unit, for transmitting and receiving to and from peripheral devices,
Provide application information compatible with the peripheral device to the peripheral device, and do not provide application information not compatible with the peripheral device to the peripheral device.
Wearable device.
The communication unit receives the model information of the peripheral device by the NFC method and receives it.
Only the application information that matches the above peripheral devices is extracted from the above data processing unit, and
The extracted application information is transmitted from the communication unit to the peripheral device by the NFC method.
The wearable device according to claim 1.
In the communication unit, the peripheral device is paired by a method other than NFC, and the biometric information is transmitted to the peripheral device.
The wearable device according to claim 1 or 2.
In the communication unit, the peripheral device is paired and the biological information is transmitted to the peripheral device by the Bluetooth (registered trademark) method.
The wearable device according to any one of claims 1 to 3.
The communication unit is a first communication unit for providing only application information compatible with the peripheral device to the peripheral device, and a first communication unit for pairing the peripheral device and transmitting the biometric information to the peripheral device. Including 2 communication parts
It has a means for switching the communication means with the peripheral device between the first communication unit and the second communication unit.
The wearable device according to any one of claims 1 to 4.
When the peripheral device is not paired, the communication unit can start communication with the peripheral device by the NFC method.
The wearable device according to any one of claims 1 to 5.
The above biometric information is the wearer's heartbeat state, pulse state, respiratory state, body temperature state, blood oxygen concentration state, electrocardiographic state, body tilting state, body activity state, horizontal and / or vertical movement state. One or more selected from
The wearable device according to any one of claims 1 to 6.
The wearable device according to any one of claims 1 to 7, wherein the peripheral device is a smartphone.
The wearable device according to any one of claims 1 to 8, wherein the peripheral device is an android (registered trademark) -equipped smartphone or an iOS-equipped smartphone (registered trademark).
The wearable device according to any one of claims 1 to 9, which is a wristwatch type.
A biometric information utilization device including the wearable device according to any one of claims 1 to 10 and at least one peripheral device.