JP5995018B2 - Biometric device - Google Patents

Description

    The present invention relates to a biometric apparatus and a biometric system.

  In order to maintain health, it is effective to perform biological measurements such as body weight and blood pressure on a regular basis, and blood pressure used by an unspecified number of people in various facilities such as accommodation facilities, public baths, and public facilities. Biological measuring devices such as a scale and a weight scale are placed.

JP 2010-014737 A

  In such a biometric apparatus used by a large number of unspecified people, there are many people who do not like displaying the immediate value of measurement data, but the current situation is that such privacy is not taken into consideration.

  In addition, in the case of a biometric device used by an unspecified number of people, since the past measurement history data of the user is not recorded in the biometric device, the immediate value of the measurement data can only be displayed, and the user's past It was difficult to perform display and setting based on the measurement data.

  The present invention has been made in view of such problems. According to some aspects of the present invention, even in a biometric apparatus used by an unspecified number of persons, a relative value or evaluation with respect to past measurement data can be provided, or a biometric that can be measured while maintaining privacy information It is possible to provide a device or perform display or setting based on past measurement data of the user.

(1) One embodiment of the present invention is a wireless communication unit that wirelessly communicates with a portable information communication terminal having a wireless communication function, a biological measurement unit that measures given biological information, and a measurement result that outputs a measurement result An output unit, a measurement history data request unit for requesting transmission of measurement history data to the portable information communication terminal, measurement history data received in response to the transmission request for measurement history data, and a biometric unit measured The present invention relates to a biometric apparatus including a measurement result output control unit that performs measurement data evaluation processing based on measurement data and outputs an evaluation result to the measurement result output unit.

  According to the present invention, the measurement history data of the user is received from the portable information communication terminal, the measurement data is evaluated based on the measurement history data and the measurement data measured by the biometric measurement unit, and the evaluation result is the measurement result. Output to the output section. Therefore, since a relative value, evaluation, etc. with respect to past measurement data can be provided even in a biometric device used by an unspecified number of people, it is possible to provide a biometric device capable of performing biometric measurement while maintaining privacy information. it can.

(2) In this biometric apparatus, the measurement result output control unit may perform control to output an evaluation result instead of the immediate value of the measurement data. Since the measurement result display control unit does not display an immediate value of measurement data, it is possible to provide a privacy-conscious biometric apparatus that allows a user to take a biometric measurement without worrying about the surroundings.

(3) In this biometric apparatus, the measurement result output control unit obtains a difference between the measurement history data and the measurement data as an evaluation process of the measurement data, and calculates a difference between the measurement history data and the measurement data as an evaluation result. You may perform control to output.

  In this way, the measurement result can be displayed in a format that only the measurer can understand.

(4) In this biometric apparatus, the measurement result output control unit creates a message based on a difference between the measurement history data and the measurement data as an evaluation process of the measurement data, and outputs the message as an evaluation result May be performed.

(5) The biometric apparatus further includes a power saving control unit that performs control to shift to a power saving mode that is a mode that operates at a lower power than at the time of measurement except during measurement, and the wireless communication unit includes the wireless communication unit, Including a slave processing unit that controls a slave state in which a predetermined wireless signal can be received in a state where synchronization between the portable information communication terminal and the wireless communication is not established, and the power saving control unit includes the wireless communication unit When the wireless signal is received, the power saving mode may be canceled.

(6) In this biometric apparatus, a personal authentication process is performed by performing personal authentication based on the measurement data storage processing unit that stores the measurement data in the storage unit, the received measurement history data, and the measurement data stored in the storage unit May be included.

(7) The biometric apparatus may include a setting control unit that performs setting control of the biometric measurement unit based on the personal authentication result.

  In this way, it is not necessary for the user to perform a user switching operation or a setting operation that has been performed on the biometric device so far, and thus a highly convenient biometric device can be provided.

(8) In this biometric apparatus, setting control of the biometric unit may be performed based on the received measurement history data.

  When measurement data is stored in the storage unit of the biometric device, setting control of the biometric unit may be performed based on the received measurement history data and measurement data stored in the storage unit.

(9) One aspect of the present invention is a biometric system including any of the biometric devices described above and a portable information communication terminal, wherein the information communication terminal performs wireless communication with the biometric device. A wireless communication unit, a measurement history data storage processing unit that stores measurement history data received from a given biological information measuring device in a storage unit, and a storage unit that stores a measurement history data transmission request from the biometric device The present invention relates to a biometric system including a measurement history data transmission control unit that transmits measured measurement data to the biometric apparatus.

The figure which shows the specific example of the biometric system which concerns on this embodiment. The figure which shows an example of the functional block diagram of the biometric apparatus of this embodiment. The figure which shows an example of the measurement log | history data of this Embodiment. 4A and 4B are diagrams for explaining measurement result output control according to the present embodiment. The figure for demonstrating an example of the personal authentication of this Embodiment. The figure which shows an example of the functional block diagram of the portable information communication terminal of embodiment. An example of a correspondence table of difference values and messages. The flowchart which shows the flow of the control processing of a biometric apparatus. The flowchart which shows the flow of the control processing (when performing personal authentication processing) of a biometric apparatus.

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

  FIG. 1 is a diagram illustrating a specific example of a biometric system according to the present embodiment.

  The biometric system 1 according to the present embodiment may be configured to include the biometric apparatus 100 and the portable information communication terminal 10. A case where the biometric device 100 is a scale that can be used by an unspecified number of people will be described as an example. The portable information communication terminal 10 can be realized by a mobile phone that can wirelessly communicate with the biometric device 100, and measurement data of past weight of the user Y is stored as measurement history data. The portable information communication terminal 10 may acquire past measurement data by communication or the like from a scale or a personal computer.

  When the user Y carrying the portable information communication terminal 10 enters a range where the biometric device 100 and the portable information communication terminal 10 can communicate, synchronization of wireless communication between the portable information communication terminal 10 and the body measuring device 100 is established. When synchronization is established, the power saving mode of the biometric device 100 may be canceled. When synchronization is established, the biometric apparatus 100 requests the portable information communication terminal 10 to transmit measurement history data, and the portable information communication terminal 10 sends the stored measurement history data to the biometric apparatus 100 in response to this request. When the biometric device 100 receives the data, measurement by the evaluation output method of the present embodiment becomes possible.

  FIG. 2 shows an example of a functional block diagram of the biometric apparatus. The biometric apparatus 100 according to the present embodiment may have a configuration in which some of the components (each unit) in FIG.

  The biometric apparatus 100 according to the present embodiment includes a wireless communication unit 160, a processing unit 110, a biometric measurement unit 120, a measurement result output unit 130, a storage unit 150, an antenna 170, and the like.

  The wireless communication unit 160 performs various controls for performing wireless communication with an external device, and the function can be realized by various processors, a communication ASIC, and the like. The wireless communication unit 160 realizes short-range wireless communication using a method such as Bluetooth, wireless LAN, or ANT. The wireless communication unit 160 is a functional module that performs wireless communication with the outside in accordance with a command from the processing unit (CPU) 110, for example, and transmits a baseband block that controls signal transmission and a predetermined RF frequency signal via the antenna 170. An RF block or the like may be provided. Further, for example, a general-purpose logic device such as an FPGA (Field Programmable Gate Array) that allows the user to change the internal logic by a program after completion of the IC can be used. The wireless communication unit 110 may perform multicast and broadcast communication processing.

  The wireless communication unit 160 includes a slave processing unit 162 that controls a slave state in which a predetermined wireless signal can be received in a state where synchronization of the wireless communication with the portable information communication terminal is not established.

The antenna 170 may be a half-wave dipole antenna or the like.
The storage unit 150 (memory) serves as a work area for the processing unit 110, and stores programs, data, and the like for causing the information communication terminal 10 to function as each unit of the processing unit 110. Etc. can be realized.

  The storage unit 150 (memory) includes a measurement data storage unit 152 for storing measurement data measured by the biometric measurement unit 120, user attribute information (gender, height, date of birth, etc.), and user setting information (user The user information storage unit 154 that stores the measurement options, etc. selected every time may be included. Note that the measurement data storage unit 152 and the user information storage unit 154 may be configured by a nonvolatile memory such as a rewritable EEPROM (Electrically Erasable Programmable Read-Only Memory).

  The living body measurement unit 120 measures given biological information such as the weight, blood pressure, and pulse of the measurer, and includes a measurement sensor 122. The measurement result output unit 130 outputs the measurement result. For example, the measurement result output unit 130 may be a display unit that displays the measurement result, may be an audio output unit that outputs the measurement result by voice, or outputs the measurement result in another format. An output unit may be used.

  The processing unit 110 performs given information processing, and the function is realized by hardware such as various processors (CPU, etc.) or ASIC (gate array, etc.) and a given program (microprogram, etc.). it can.

  The processing unit 110 includes a measurement history data request unit 111, a measurement result output control 112, a measurement data transmission control unit 113, a power saving control unit 114, a personal authentication processing unit 115, a setting control unit 116, and a measurement data storage processing unit 117. .

  The measurement history data request unit 111 makes a transmission request for measurement history data to the portable information communication terminal, and the measurement result output control unit 112 receives the measurement history data received in response to the transmission request for measurement history data, and the biometric measurement unit The measurement data is evaluated based on the measured data, and the evaluation result is output to the measurement result output unit.

  The measurement data transmission control unit 113 may perform measurement data transmission control for transmitting measurement data to an external information communication device after measurement. After the measurement data is transmitted, the measurement data and the received measurement history data may be deleted.

  The measurement result output control unit 112 may perform control to output the evaluation result instead of the immediate value of the measurement data.

  The measurement result output control unit 112 may perform control for obtaining a difference between the measurement history data and the measurement data and outputting the difference between the measurement history data and the measurement data as an evaluation result as the measurement data evaluation process.

  In addition, the measurement result output control unit 112 may perform control for generating a message based on the difference between the measurement history data and the measurement data and outputting the message as an evaluation result as the measurement data evaluation process.

  The power saving control unit 114 performs control to shift to a power saving mode that is a mode that operates at lower power than at the time of measurement except during measurement, and when the wireless communication unit 160 receives a predetermined wireless signal, May be canceled.

  The measurement data storage processing unit 117 performs processing for storing the measurement data in the storage unit.

  The personal authentication processing unit 115 performs personal authentication based on the received measurement history data and the measurement data stored in the storage unit.

The setting control unit 116 performs setting control of the biometric measurement unit. The setting control of the biometric measuring unit is, for example, setting control of various parameters of the biometric measuring unit (for example, parameters for measuring body fat and obesity together with body weight, setting of detailed measurement range, etc.), measurement data recording destination, etc. But you can. In addition, for example, measurement availability (power on / off) may be controlled according to the authentication result. As a result of personal authentication, the corresponding personal record data file may be automatically selected to record the measurement data. Further, a measurement option registered corresponding to an individual may be selected and executed based on the personal authentication result.

  The setting control unit 116 performs setting control of the biometric measurement unit based on the received measurement history data.

When measurement data is stored in the storage unit of the biometric device, setting control of the biometric unit may be performed based on the received measurement history data and the measurement data stored in the storage unit 150. . For example, based on the received measurement history data, an expected range of measurement data of a user to be measured may be determined, and a measurement range may be set such that detailed data is measured for the expected range.

  FIG. 6 shows an example of a functional block diagram of the portable information communication terminal of this embodiment. In addition, the information communication terminal 10 of this embodiment is good also as a structure which abbreviate | omitted a part of component (each part) of FIG.

  The portable information communication terminal 10 according to the present embodiment performs wireless communication with the biometric apparatus 100, and includes a processing unit 20, a storage unit 30, a wireless communication unit 40, an antenna 50, and the like.

  The processing unit 20 performs various types of information processing of the portable information communication terminal, and functions thereof are hardware such as various processors (CPU, etc.) or ASIC (gate array, etc.), and a given program (microcomputer). Program).

  The wireless communication unit 40 performs various controls for wireless communication with an external device (including the biometric device 10 of FIG. 1), and the function is realized by various processors, communication ASICs, and the like. can do. The wireless communication unit 40 realizes short-range wireless communication by a method such as Bluetooth, wireless LAN, or ANT. The wireless communication unit 40 is a functional module that performs wireless communication with the outside in accordance with, for example, a command from the processing unit (CPU) 120, and transmits a baseband block that controls signal transmission and a predetermined RF frequency signal via the antenna 50. An RF block or the like may be provided. Further, for example, a general-purpose logic device such as an FPGA (Field Programmable Gate Array) that allows the user to change the internal logic by a program after completion of the IC can be used. The wireless communication unit 40 may perform multicast and broadcast communication processing.

  The wireless communication unit 40 may include a wireless communication synchronization establishment unit 42 that transmits a synchronization signal for establishing synchronization of wireless communication with an external device and establishes synchronization of wireless communication with the external device.

The antenna 50 may be a half-wave dipole antenna or the like.
The storage unit 30 (memory) serves as a work area of the processing unit 100, and stores programs and data for causing the information communication terminal 10 to function as each unit of the processing unit 110. Etc. can be realized.

The storage unit 150 (memory) includes a measurement history data storage unit 32 in which measurement data of the past weight of the user Y is stored. The measurement history data storage unit 32 may be configured by a non-volatile memory such as a rewritable EEPROM (Electrically Erasable Programmable Read-Only Memory).

  The processing unit 20 includes a measurement history data storage processing unit 22 and a measurement history data transmission control unit 24. The measurement history data storage processing unit 22 performs processing for storing the measurement history data received from a given biological information measuring device in the storage unit. When receiving a measurement history data transmission request from the biometric device 100, the measurement history data transmission control unit 24 performs control to transmit the measurement history data stored in the storage unit to the biometric device.

  FIG. 3 is a diagram illustrating an example of measurement history data according to the present embodiment.

  The measurement history data 200 may include past measurement data 230 (measurement data (for example, weight measurement data) 234 and measurement date 232) and user identification information 210 of the user corresponding to the measurement data.

  4A and 4B are diagrams for explaining the measurement result output control of the present embodiment. The case where the measurement history data 200 as shown in FIG. 3 is received will be described as an example.

  FIG. 4A shows an example of measurement result output when the immediate value 250 of the user's measurement value is 63 kg (250-1). In such a case, “62 kg” 236 (see FIG. 3) which is the latest measurement data (an example of the measurement history data 230) in the measurement history data (see FIG. 3) and the measurement data measured this time by the biometric measurement unit. Based on “63 kg” 250-1, which is an immediate value 250, the measurement data may be evaluated and the evaluation result may be output to the measurement result output unit.

  As the evaluation process, for example, a predetermined evaluation calculation may be performed based on the immediate value 250 of the measurement value of the user and the measurement history data, and the calculation result may be used as the evaluation result. A predetermined message or evaluation value (level, etc.) These may be selected as evaluation results. Further, the latest measurement data (previous measurement data) of the received measurement history data may be used as the measurement history data, or the average value or the maximum value of the measurement data may be used.

  For example, as an evaluation process of measurement data, “+1” 260 − which is a difference between “62 kg” 232 which is the latest measurement data in the measurement history data (see FIG. 3) and “63 kg” 250-1 which is an immediate value of the measurement data. It is also possible to perform control for obtaining 1 and outputting it as an evaluation result.

  Further, for example, as an evaluation process of measurement data, “+1” 260 which is a difference between “62 kg” 232 which is the latest measurement data in the measurement history data (see FIG. 3) and “63 kg” 250-1 which is an immediate value of the measurement data. -1 may be obtained, and a message corresponding to this may be selected and output "select a little more!" 270-1 may be performed.

  The message to be output may be set in advance corresponding to the difference value.

  FIG. 4B shows an example of measurement result output when the immediate value 250 of the user's measurement value is 61 kg (250-2). In such a case, for example, as a measurement data evaluation process, the difference between “62 kg” 232 which is the latest measurement data in the measurement history data (see FIG. 3) and “61 kg” 250-2 which is an immediate value of the measurement data. Control may be performed to obtain "-1" 260-2 and output it as an evaluation result.

  Further, for example, as an evaluation process of measurement data, “−1” which is a difference between “62 kg” 232 which is the latest measurement data in the measurement history data (see FIG. 3) and “61 kg” 250-2 which is an immediate value of the measurement data. It is also possible to perform control for obtaining 260-2 and selecting and outputting the message “Slightly increased!” 270-2, which is a message corresponding thereto.

  The message to be output may be set in advance corresponding to the difference value.

  FIG. 7 is an example of a correspondence table between difference values and messages.

The correspondence table 300 shown in FIG. 7 shows an example of the correspondence between the difference value of the first message output pattern (when maintaining weight for the purpose of health management) and the message. As shown in the figure, the difference 310 between the measurement data and the latest measurement data in the measurement history data and the corresponding data of the message 320 may be prepared as table data in advance. Then, a difference between the measurement data and the latest measurement data in the measurement history data may be obtained according to the measurement data, and a message corresponding to the obtained difference 310 may be selected and output with reference to the correspondence table. In the case of FIG. 4A, since the difference is “+1” and is 2 or more and less than 3, the corresponding message 322 may be output. In the case of FIG. 4B, since the difference is “−1” and is not less than −2 and less than −3, the corresponding message 324 may be output.
It should be noted that a different correspondence table may be prepared for the purpose of weight loss for dieting or for other purposes. For example, the content of the message may be changed, or the width of the numerical value of the table difference may be changed.

  Note that a plurality of correspondence tables according to the purpose may be prepared so that the user can appropriately set them. For example, message pattern selection information (table selection information) to be used may be provided as user information.

  The difference values 260-1, 260-2 and the messages 270-1, 270-2 may be output instead of the immediate values 250-1, 250-2 of the measurement data, or the immediate values 250-1, 250-2 of the measurement data. -2 may be output together with difference values 260-1, 260-2 and messages 270-1, 270-2.

  The biometric apparatus may be set based on the received measurement history data.

  Based on the received measurement history data and the measurement data stored in the storage unit, setting control (parameter and measurement data recording destination) of the biometric measurement unit may be performed.

  When measurement data is stored in the storage unit of the biometric device, setting control of the biometric unit may be performed based on the received measurement history data and measurement data stored in the storage unit.

  For example, based on the received measurement history data, an expected range of measurement data of a user to be measured may be determined, and a measurement range may be set such that detailed data is measured for the expected range.

  Conventionally, when performing biometric measurement using a biometric device such as a sphygmomanometer or a weight scale, which is used by unspecified majority, the immediate value of the measurement data is displayed, and no consideration has been given to privacy. In the case of a biometric device used by an unspecified number of users, since the user's past measurement history data is usually not recorded, the immediate value of the measurement data can only be displayed. Etc could not be provided.

  However, according to the present embodiment, a biometric device used by an unspecified number can provide a relative value, an evaluation, and the like with respect to past measurement data. A measuring device can be provided.

  FIG. 5 is a diagram for explaining an example of personal authentication according to the present embodiment.

  The biometric apparatus 100 may store measurement data in a storage unit (measurement data storage unit) and perform personal authentication based on the stored measurement data. When storing measurement data of a plurality of users, this is done for each user. Then, personal authentication may be performed based on the measurement history data received from the portable information terminal and the measurement data stored in the storage unit.

  400-1, 400-2, and 400-3 include a plurality of user measurement data 410-1, 410-2, and 410-3 and user information 410-1, 410-2, and 410-3 in the files D1 and D2. , D3 is stored in the example. The measurement data 420 may include a measurement date 422 and measurement data 424. The user information may include a user name (may be a nickname) 432, a gender 434, a date of birth 436, a height 160, and the like.

  In such a case, when the measurement history data as shown in FIG. 3 is received, the measurement data 420-1, 420-2, 420-3 stored in each file is compared with the received measurement history data, It may be determined whether there is measurement data of the same user as the received measurement history data. For example, the latest measurement data in the received measurement history data may be compared with the latest measurement data stored for each user, and may be determined to be the same user measurement data when the difference is within a predetermined range. . Further, for example, the average value within a predetermined period (for example, data within the past n months) in the received measurement history data and the predetermined value among the stored measurement data of each user (for example, data within the past n months) May be determined to be measurement data of the same user when the difference is within a predetermined range.

  In the case of FIG. 5, the difference between the latest measurement data value “62.2 kg” of the measurement data of the file D1 and the latest measurement data value “62 kg” in the received measurement history data is within a predetermined range (for example, Therefore, it may be determined that the user is the same as the user of the file D1.

  When the measurement data is stored in the file of the biometric device, the file storing the measurement result may be determined based on the personal authentication result and automatically stored in the corresponding file.

  Further, setting control (parameter and measurement data recording destination) of the biometric measurement unit may be performed based on the same user information as the measurement history data. For example, when determining body fat percentage, obesity, etc. together with measurement data, the judgment depends on gender, age, and height, so refer to the gender, age, and height of the user information to determine body fat percentage and obesity. The degree or the like may be determined.

  In this way, it is not necessary for the user to perform a user switching operation or a setting operation that has been performed on the biometric device so far, and thus a highly convenient biometric device can be provided.

  FIG. 8 is a flowchart showing a flow of control processing of the biometric apparatus.

  The portable information communication terminal intermittently transmits a synchronization signal at a predetermined interval.

  When the biometric device is in the slave state in the power saving mode (step S10), when the synchronization signal is received from the portable information communication terminal and the synchronization with the portable information communication terminal is established (step S20), the power saving is performed. The mode is canceled (step S30).

Next, a transmission request for measurement history data is transmitted to the portable information communication terminal (step S40). When measurement history data is received from the portable information communication terminal (step S50) and a measurement event occurs (step S60), based on the measurement history data received in response to the request for transmission data and the measurement data measured by the biometric measurement unit. Then, evaluation data of the measurement result notified to the measurer is created, and the evaluation data is output to the measurement result output unit (step S70). Then, the current measurement data is transmitted to the portable information terminal, and the current measurement data and the received measurement history data are deleted (step S80).

  FIG. 9 is a flowchart showing the flow of control processing (when performing personal authentication processing) of the biometric apparatus.

  The portable information communication terminal intermittently transmits a synchronization signal at a predetermined interval.

  When the biometric apparatus is in the slave state in the power saving mode (step S110), when the synchronization signal is received from the portable information communication terminal and synchronization with the portable information communication terminal is established (step S120), the power saving is performed. The mode is canceled (step S130).

  Next, a transmission request for measurement history data is transmitted to the portable information communication terminal (step S140).

The measurement history data is received (step S150), and personal authentication is performed based on the received measurement history data and the measurement data stored in the storage unit. (Step S160). Then, based on the personal authentication result, the control information (parameter and measurement data recording destination) of the biometric measurement unit is set (step S170).

  When a measurement event occurs (step S180), based on the measurement history data received in response to the transmission data request and the measurement data measured by the biometric measurement unit, measurement result evaluation data to be notified to the measurer is created, and measurement is performed. The evaluation data is output to the result output unit (step S190). Then, the current measurement data is transmitted to the portable information terminal and stored in the corresponding user file in the storage unit (step S200).

  The technical scope of the present invention is not limited to the above-described embodiment, and appropriate modifications can be made without departing from the spirit of the present invention.

  For example, in the above embodiment, the case where the biometric apparatus is a scale has been described as an example, but the present invention is not limited to this. For example, the biometric device may be a blood pressure monitor, a pulse meter, a visual acuity measuring machine, or the like.

DESCRIPTION OF SYMBOLS 1 Biometric system, 10 Portable information communication terminal, 20 Processing part (CPU), 22 Measurement history data storage processing part, 24 Measurement history data transmission control part, 100 Portable information communication terminal, 110 Processing part, 111 Measurement history data request part , 112 Measurement result output control, 113 Measurement data transmission control unit, 114 Power saving control unit, 115 Personal authentication processing unit, 116 Setting control unit, 117 Measurement data storage processing unit, 120 Biometric measurement unit, 122 Sensor, 130 Measurement result output Unit, 150 storage unit, 152 measurement data storage unit, 154 user information storage unit, 160 wireless communication unit, 162 slave processing unit, 170 antenna

Claims (8)

A biological measurement unit for measuring biological information;
A communication unit that communicates with an information communication terminal and obtains measurement history data measured in the past by the biometric measurement unit from the information communication terminal;
The measurement history data acquired by the communication unit and the measurement data measured this time by the biometric measurement unit are acquired, and an evaluation result that is a result of evaluating the measurement data measured this time based on the measurement history data is acquired. And a processing unit
The biometric apparatus according to claim 1, wherein the processing unit performs personal authentication based on the measurement history data and the measurement data measured this time. The biometric apparatus according to claim 1,
A biometric apparatus for displaying difference information between the measurement data measured this time and the measurement history data on a display unit. The biometric apparatus according to claim 1 or 2, wherein the biometric information is at least one of body weight, body fat, blood pressure, pulse rate, and visual acuity. In the biometric apparatus as described in any one of Claims 1-3,
A biometric apparatus that displays a message corresponding to the evaluation result. The biometric apparatus according to any one of claims 1 to 4 ,
The biometric apparatus, wherein the processing unit makes a transmission request for the measurement history data to the information communication terminal. In the biometric apparatus according to any one of claims 1 to 5 ,
The biometric apparatus, wherein the communication unit communicates with the information communication terminal by wireless communication. The biometric apparatus according to any one of claims 1 to 6 ,
The processing unit operates at a lower power than when measuring the biological information when the biological information is not measured or when synchronization between the communication unit and the information communication terminal is not established A biometric apparatus characterized by being moved to. The biometric apparatus according to claim 7 ,
The biometric apparatus, wherein the processing unit cancels the power saving mode when the communication unit receives a predetermined signal.

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