JP5249273B2 - Biological information measurement system - Google Patents

Description

  The present invention provides a measurement unit that measures biological information of a measurement subject, a calculation unit that performs calculation processing using the measured biological information, and outputs a measurement result of biological information based on the calculation result of the calculation unit The present invention relates to a biological information measurement system including an output unit.

  As a system for measuring biometric information, for example, as described in Patent Document 1, a system that includes a personal recognition unit for specifying a subject and performs measurement preparation work using personal authentication as a trigger is known.

JP 2005-168720 A

  By the way, when measuring biological information after performing authentication of a measurement subject, if the biological information is measured after authentication, it takes a long time to output a measurement result based on the biological information. If the biological information is measured without authentication, the time until the measurement result is output can be shortened, but the information of the person to be measured obtained by personal authentication cannot be used for measurement.

  The present invention has been made in view of such circumstances, and the purpose of the present invention is to reduce the time required to output the measurement result and to measure the living body information according to the measurement subject. To provide an information measurement system.

In order to solve the above problems, a biological information measurement system according to the present invention includes a measurement unit that measures biological information of a measurement subject, a calculation unit that performs calculation processing using the measured biological information, A biological information measurement system comprising: an output unit that outputs a measurement result of the biological information based on a calculation result; a measurement start instruction unit that instructs the measurement unit to start measuring the biological information; and a measurement start of the biological information A measurement start instruction unit for instructing the measurement unit, and a personal authentication unit for photographing the measurement subject and authenticating the measurement subject based on the photographed image data. Based on the measurement of the biometric information by the measurement unit and the authentication of the person to be measured by the personal authentication unit, the body of the person to be measured by the analysis of the image data by the personal authentication unit Obtain at least one of information Mukuo and voicing information, at least one, to be measured acquired by the personal authentication unit of the output mode of the arithmetic processing aspects and the output of the measurement aspects and the arithmetic unit of the measuring unit characterized in that it is changed based on at least one of said body Dojo Mukuo and the voicing information's.

  In the biological information measurement system, when the measurement of the person to be measured by the personal authentication unit is completed, the measurement mode of the measurement unit and the calculation unit It is preferable that at least one of the calculation processing mode and the output mode of the output unit is changed.

  In the biological information measurement system, it is preferable that the measurement unit measures the blood pressure using a cuff and controls the pressure of the cuff based on the measurement result of the blood pressure of the measurement subject.

  In the biometric information measurement system, it is preferable that the measurement unit measures a plurality of items as the biometric information and changes an item to be measured based on an authentication result by the personal authentication unit.

  In the biological information measuring system, it is preferable that the measurement unit measures the weight and body composition of the measurement subject as the plurality of items.

  According to the present invention, it is possible to provide a biological information measuring system capable of shortening the time until outputting a measurement result and measuring biological information corresponding to the measurement subject.

The schematic diagram which shows the usage condition of the blood pressure meter which is the biological information measuring device of the 1st Embodiment of this invention. The block diagram which shows schematic structure of the biological information measuring device of the embodiment. (A) (b) The schematic diagram which shows the usage condition of the body weight body composition meter which is a biological information measuring device of the 2nd Embodiment of this invention. The block diagram which shows schematic structure of the biological information measuring device of the embodiment.

(First embodiment)
A first embodiment of the present invention will be described with reference to FIGS. 1 and 2.
As shown in FIG. 1, a sphygmomanometer 10 as a biological information measurement system includes a main body 11 that performs arithmetic processing and the like, and a cuff 14 that is a bag-like belt. The sphygmomanometer 10 is a biological information measuring device that measures blood pressure as biological information of the measurement subject.

  As shown in FIG. 2, the sphygmomanometer 10 includes a measurement unit 21 that measures blood pressure using a cuff 14. The sphygmomanometer 10 includes, as components provided in the main body unit 11, a calculation unit 22, an output unit 23, a measurement start instruction unit 24, a personal authentication unit 25, an authentication data storage unit 26, and a blood pressure data storage. A unit 27 and a control unit 28 are provided.

  The measurement unit 21 is a blood pressure measurement device including a cuff 14 that expands and contracts by controlling the internal pressure, and a mechanism (not shown) that controls the cuff pressure that is the pressure in the cuff 14. A mechanism for controlling the cuff pressure is provided in the main body 11. The measurement unit 21 starts measurement based on an instruction to start measurement by the measurement start instruction unit 24 and measures blood pressure using the cuff 14 that is a compression band attached to the measurement subject. The blood pressure data measured by the measurement unit 21 is subjected to calculation processing in the calculation unit 22.

  The calculation unit 22 is an electronic circuit that performs calculation processing on the blood pressure value measured by the measurement unit 21. That is, the calculation unit 22 performs calculation processing using the measured blood pressure data and performs information processing on the biological information. The blood pressure data processed by the calculation unit 22 is output as a measurement result by the output unit 23 and stored in the blood pressure data storage unit 27.

  The output unit 23 includes a monitor as a display unit, and is a user interface that displays and outputs blood pressure data as a measurement result. When the calculation result about blood pressure is output from the calculation unit 22, the output unit 23 displays the calculation result on the monitor as a blood pressure measurement result. The output unit 23 also outputs user information specified by personal authentication, information to be notified to the user, and the like.

  The measurement start instruction unit 24 is an operation unit operated by a user of the sphygmomanometer 10 and includes a start button 13 (see FIG. 1) provided on the main body unit 11. The measurement start instruction unit 24 instructs the measurement unit 21 to start measurement by outputting a signal for instructing measurement start when the start button 13 is operated.

  The personal authentication unit 25 is an authentication device that includes a camera 12 (see FIG. 1) that is a photographing device and an electronic circuit (not shown) that authenticates a person to be measured so as to enable measurement according to the individual. . The personal authentication unit 25 starts authentication of the measurement subject based on the authentication start instruction from the control unit 28, and specifies the measurement subject using the camera 12. Specifically, the personal authentication unit 25 collates data of the measurement subject imaged by the camera 12 with data related to the measurement subject stored in advance in the authentication data storage unit 26, and Identify the measurer. In this way, the personal authentication unit 25 identifies the subject and the subject is authenticated. Note that authentication of the measurement subject is completed in the initial operation stage of measurement by the measurement unit 21. That is, before the measurement of the blood pressure by the measurement unit 21 is completed, the measurement subject is immediately authenticated.

  The authentication data storage unit 26 is a memory that stores data relating to an individual who is a measurement subject. The data stored in the authentication data storage unit 26 is used when the personal authentication unit 25 performs personal authentication.

  The blood pressure data storage unit 27 is a memory that stores blood pressure data as measurement results. The data stored in the blood pressure data storage unit 27 is used when the measurement unit 21 measures blood pressure.

  The control unit 28 is an electronic circuit that performs measurement of blood pressure by the measurement unit 21 and authentication of the measurement subject by the personal authentication unit 25 in parallel based on the measurement start instruction by the measurement start instruction unit 24. Specifically, the control unit 28 is a circuit that monitors whether or not the measurement start instruction unit 24 that is an operation unit has been operated. The measurement start instruction unit 24 instructs the measurement unit 21 to start measurement. This is a circuit that instructs the personal authentication unit 25 to start authentication when it is performed.

Next, the measurement mode of blood pressure by the measurement unit 21 will be described in detail.
The measurement unit 21 changes the measurement mode of the blood pressure according to the specified person to be measured based on the information on the person to be measured acquired by the personal authentication unit 25.

  Specifically, the measurement unit 21 acquires, from the blood pressure data storage unit 27, blood pressure data that is a measurement result of past biological information of the measurement subject when the authentication of the measurement subject by the personal authentication unit 25 is completed. To do. And the measurement part 21 controls the pressure of the cuff 14 within the range of the cuff pressure optimal for every individual based on the data of the past blood pressure.

  When measuring the blood pressure, the measurement unit 21 stores the average value of the highest blood pressure in the past week and the average value of the lowest blood pressure in the past week as blood pressure data as the past blood pressure data of the measurement subject. Obtained from the unit 27. Next, the measurement unit 21 increases the cuff pressure to a pressure 20 mmHg higher than the average value of the maximum blood pressure. The measurement unit 21 lowers the cuff pressure at a constant speed from the pressure 20 mmHg higher than the average value of the maximum blood pressure, and the increased cuff pressure is 20 mmHg lower than the average value of the minimum blood pressure. When the pressure falls below, increase the cuff pressure drop speed.

  When measuring blood pressure, the cuff pressure needs to be higher than the patient's true maximum blood pressure, but if the cuff pressure is too high, the cuff pressure is reduced until the maximum blood pressure is measured. The time will be longer. Further, the subject may feel uncomfortable due to the high cuff pressure. For this reason, the cuff pressure at the start of blood pressure measurement is preferably higher than the true blood pressure and close to the true blood pressure. On the other hand, when the subject is at rest, the true systolic blood pressure is unlikely to be higher than 20 mmHg from the average of the systolic blood pressure over the past week. Therefore, the cuff pressure at the start of the measurement is increased by 20 mmHg with respect to the average of the highest blood pressure in the past week so that the cuff pressure does not greatly deviate from the highest blood pressure of the person to be measured. Therefore, it is considered that the systolic blood pressure can be measured while suppressing the occurrence of the above problem. Also, it is unlikely that the true diastolic blood pressure will be lower than 20 mmHg from the average diastolic blood pressure over the past week. Therefore, when the cuff pressure falls below a pressure 20 mmHg lower than the average value of the minimum blood pressure, the blood pressure measurement is completed early by increasing the cuff pressure decreasing speed.

Next, the calculation processing mode by the calculation unit 22 will be described in detail.
The calculation unit 22 changes the calculation processing mode based on the information of the measurement subject acquired by the personal authentication unit 25.

  Specifically, the calculation unit 22 acquires the body movement information, posture information, and utterance information of the measurement subject during blood pressure measurement from the personal authentication unit 25. The body movement information, posture information, and utterance information of the measurement subject can be obtained by analyzing data of the measurement subject image taken by the camera 12 used for personal authentication, for example. The utterance information related to whether or not the utterance is uttered can be obtained from the movement of the lip portion of the measurement subject in the image.

  Based on the body motion information, the posture information, and the utterance information, the calculation unit 22 performs a calculation process on the blood pressure value measured by the measurement unit 21 so as to obtain a true blood pressure value and corrects it. For example, when it is determined that the measured person is not settled based on the body movement information, or when it is determined that the measured person is speaking based on the utterance information, the calculation unit 22 is used by the measuring unit 21. Correction is performed to lower the measured blood pressure value. That is, when the person to be measured is not settled or speaking, the blood pressure measured with respect to the true blood pressure increases, so that the calculation unit 22 corrects the blood pressure value to improve the measurement accuracy. It is carried out.

  In addition, when the calculation unit 22 obtains information on the position of the cuff 14 with respect to the position of the subject's heart as posture information by analyzing the image data, the calculation unit 22 sets the position of the cuff 14 with respect to the position of the heart. Based on this, the blood pressure value measured by the measurement unit 21 is corrected. Information on the position of the heart is estimated based on a statistical method from an image including the upper body.

The true blood pressure and the blood pressure measured by the measurement unit 21 have a relationship satisfying the following mathematical formula.
Z = X−H × 1.055 / 13.6
In this mathematical expression, “Z” indicates a blood pressure (mmHg) measured by the measurement unit 21. “X” indicates true blood pressure (mmHg). “H” indicates a height difference (mm) between the height of the cuff 14 located higher than the heart and the height of the heart. “1.005” is the specific gravity of blood, and “13.6” is the specific gravity of mercury.

  Therefore, if the position of the cuff 14 with respect to the position of the heart is high, the blood pressure measured with respect to the true blood pressure is low. Therefore, the calculation unit 22 calculates the blood pressure value to improve the measurement accuracy based on the posture information. Perform correction to increase.

Next, the output mode by the output unit 23 will be described in detail.
The output unit 23 changes the output mode based on the measurement subject information acquired by the personal authentication unit 25.

  Specifically, the output unit 23 acquires body movement information, posture information, and utterance information of the measurement subject during blood pressure measurement from the personal authentication unit 25, and changes the content to be output based on the acquired information. For example, when it is determined that the measured person is not settled at all based on the body movement information, or when the ratio of the utterance time of the measured person is high during measurement based on the utterance information, the output unit 23 Displays information content indicating that measurement cannot be performed accurately and prompts the user to perform measurement again. In addition, when it is determined that the measured subject's palm is not facing upward based on the posture information, or when it is determined that the position of the measured subject's upper body or elbow is not appropriate, the output unit 23 accurately The information content indicating that the measurement cannot be performed is displayed, and the user is prompted to perform the measurement again. Even when it is determined that the position of the cuff 14 with respect to the position of the heart is extremely high, the output unit 23 displays information content indicating that measurement cannot be performed accurately. When the output unit 23 displays the information content indicating that the measurement cannot be accurately performed, the output unit 23 also displays the reason as the information content.

According to this embodiment, the following effects can be obtained.
(1) The sphygmomanometer 10 includes a measurement start instruction unit 24 that instructs the measurement unit 21 to start measuring blood pressure, and a personal authentication unit 25 that authenticates the measurement subject. Based on the measurement start instruction from the measurement start instruction unit 24, the blood pressure measurement by the measurement unit 21 and the person to be measured are authenticated by the personal authentication unit 25 in parallel. For this reason, compared with the case where the measurement of a blood pressure is started after the measurement subject is authenticated, the time until the measurement result is output can be shortened. In addition, since the measurement start instruction unit 24 instructing the start of blood pressure measurement also instructs the measurement subject to start authentication, it is necessary for the user to perform an operation for starting personal authentication separately from the operation for starting the blood pressure measurement. There is no. For this reason, a user's operation mistake can be reduced. In addition, the measurement mode of the measurement unit 21, the calculation processing mode of the calculation unit 22, and the output mode of the output unit 23 are changed based on the information of the measurement subject acquired by the personal authentication unit 25. For this reason, it is possible to measure biological information according to the measurement subject.

  (2) The calculation processing mode of the calculation unit 22 and the output mode of the output unit 23 are changed based on the body movement information, posture information, and utterance information of the measurement subject. That is, the content of the calculation process is changed according to the aspect of the person being measured during blood pressure measurement. Further, information content that prompts re-measurement is output according to the mode of the person being measured during blood pressure measurement. Thereby, the accuracy of the measurement result can be improved.

  (3) The personal authentication unit 25 captures the person to be measured, and acquires body movement information, posture information, and utterance information based on the captured image data. Thereby, the calculation process according to the to-be-measured person's aspect can be performed according to the acquired information.

  (4) The personal authentication unit 25 acquires information on the position of the cuff 14 relative to the position of the heart of the measurement subject as posture information. The calculation unit 22 changes the calculation processing mode based on the position of the cuff 14 with respect to the position of the heart. For this reason, the precision fall of the measurement result resulting from the cuff 14 being high with respect to the position of the heart can be suppressed.

  (5) When the person to be measured is authenticated by the personal authentication unit 25, the blood pressure measurement mode is changed based on the measurement result of the blood pressure of the person to be measured in the past. For this reason, the measurement part 21 can aim at shortening of measurement time etc. by utilizing the measurement result of the past blood pressure for measurement.

  (6) The measurement unit 21 measures the blood pressure using the cuff 14 and controls the pressure of the cuff 14 based on the measurement result of the blood pressure of the measurement subject in the past. Therefore, the measurement unit 21 controls the pressure of the cuff 14 so as not to greatly deviate from the past blood pressure of the measurement subject, thereby shortening the measurement time as described in the above (5). Can do. In addition, the burden on the measurement subject who is the wearer of the cuff 14 can be reduced.

(Second Embodiment)
A second embodiment of the present invention will be described with reference to FIG. 3 and FIG. Note that the biological information measurement system of the present embodiment is configured to measure the weight and body composition of the measurement subject. Details of the differences from the system of the first embodiment will be described below.

  As shown in FIG. 3, the body composition monitor 30 as a biological information measurement system includes a human body placement unit 41 on which a standing measurement subject puts both feet, and a gripping portion 42 that the measurement subject grasps with hands. Yes. The body weight / body composition meter 30 is a biological information measuring device that measures body weight and body composition (body fat percentage, muscle mass, etc.) as biological information of the measurement subject.

  As shown in FIG. 4, the body weight / body composition meter 30 includes a measurement unit 51 that measures body weight and body composition using a weight sensor (not shown) and an electrode (not shown). The body composition monitor 30 includes a calculation unit 52, an output unit 53, a measurement start instruction unit 54, a personal authentication unit 55, as components provided in at least one of the human body placement unit 41 and the gripping unit 42. , An authentication data storage unit 56, an item data storage unit 57, and a control unit 58.

  The measuring unit 51 is a measuring device including a weight sensor that detects the body weight of the measurement subject and an electrode that detects the bioimpedance of the measurement subject. The weight sensor is provided on the human body placing part 41, and the electrodes are provided on the human body placing part 41 and the grip part 42. The measurement unit 51 starts measurement based on the measurement start instruction from the measurement start instruction unit 54. And the measurement part 51 measures body composition, such as a to-be-measured person's body fat rate and muscle mass, using a weight sensor while measuring a to-be-measured person's body weight and a gravity center position. The weight and body composition data measured by the measurement unit 51 are subjected to calculation processing in the calculation unit 52.

  The calculation unit 52 is an electronic circuit that performs calculation processing on the body weight and body composition measured by the measurement unit 51. That is, the calculation unit 52 performs calculation processing using the measured weight and body composition data. The weight and body composition data processed by the calculation unit 52 are output as measurement results by the output unit 23.

  The output unit 53 includes a monitor that is a display unit, and is a user interface that displays and outputs weight and body composition data as measurement results. When the calculation unit 52 outputs the calculation result regarding the weight and body composition, the output unit 53 displays the calculation result on the monitor as the measurement result of the weight and body composition.

  The measurement start instruction unit 54 is an operation unit operated by the user of the body weight / body composition meter 30 and includes, for example, a start button 13 (see FIG. 3) provided on the grip unit 42. The measurement start instruction unit 54 instructs the measurement unit 51 to start measurement by outputting a signal for instructing measurement start when the start button 13 is operated.

  The personal authentication unit 55 is an authentication device including the camera 12 (see FIG. 3) provided in the grip unit 42. Similarly to the personal authentication unit 25 described above, the personal authentication unit 55 starts authentication of the measurement subject based on an instruction to start authentication by the control unit 58 and specifies the measurement subject using the camera 12. The authentication of the measurement subject is completed immediately before the measurement of the weight and body composition by the measurement unit 51 is completed.

  Similar to the authentication data storage unit 26, the authentication data storage unit 56 is a memory that stores data relating to an individual who is a person to be measured. The data stored in the authentication data storage unit 56 is used when the personal authentication unit 55 performs personal authentication.

  The item data storage unit 57 is a memory that stores data of items to be measured according to an individual who is a person to be measured. The data stored in the item data storage unit 57 is used for selective measurement of biological information in the measurement unit 51.

  The control unit 58 is an electronic circuit that allows the measurement unit 51 to measure the body weight and body composition and the personal authentication unit 55 to authenticate the person to be measured in parallel based on the measurement start instruction from the measurement start instruction unit 54. . Specifically, like the control unit 28, the control unit 58 instructs the personal authentication unit 55 to start authentication when the measurement start instruction unit 54 instructs the measurement unit 51 to start measurement. Circuit.

Next, how the weight and body composition are measured by the measurement unit 51 will be described in detail.
The measurement unit 51 changes the measurement mode of the body weight and the body composition according to the specified measurement subject based on the measurement subject information acquired by the personal authentication unit 55.

  Specifically, the measurement unit 51 acquires, from the item data storage unit 57, data of items to be measured according to the measurement subject when authentication of the measurement subject by the personal authentication unit 55 is completed. And the measurement part 51 changes the item to measure for every individual, and measures only the biometric information of the item which should be measured.

  For example, when the authenticated person to be measured is the user A, the measurement unit 51 measures body weight, body fat percentage, and muscle mass, which are measurement items set in advance according to the user A. Further, when the authenticated person to be measured is the user B, the measuring unit 51 measures only the body weight, which is a measurement item set in advance according to the user B. In this way, by changing the items measured by the measurement unit 51, desired items of the measurement subject are measured.

Next, the calculation processing mode by the calculation unit 52 will be described in detail.
The calculation unit 52 changes the calculation processing mode based on the measurement subject information acquired by the personal authentication unit 55.

  Specifically, the calculation unit 52 acquires posture information of the person under measurement during the measurement of body weight and body composition from the personal authentication unit 55. When the measurement unit 52 determines that the arm of the person to be measured holding the grip unit 42 is not horizontal based on the acquired posture information, the calculation unit 52 performs calculation processing on the body fat percentage measured by the measurement unit 51 and corrects it. To do. That is, since the bioelectrical impedance detected using the electrode changes depending on the angle of the arm of the person to be measured with respect to the horizontal direction, the calculation unit 52 measures the true value based on the posture information. The corrected body fat percentage is corrected.

Next, an output mode by the output unit 53 will be described in detail.
The output unit 53 changes the output mode based on the information on the measurement subject acquired by the personal authentication unit 55.

  Specifically, the output unit 53 acquires the body movement information of the person being measured during body weight measurement and the posture information of the person under measurement during body composition measurement from the personal authentication unit 55, and the body movement information and posture information are acquired. Based on the above, the contents to be output are changed. For example, when it is determined that the person to be measured is not settled based on the body movement information, or when it is determined that the arm of the person to be measured holding the grip part 42 is not extended based on the posture information, the output unit 53 Displays information content indicating that measurement cannot be performed accurately and prompts the user to perform measurement again.

According to this embodiment, in addition to the effects according to the above (1) to (6), the following effects can be obtained.
(7) The measurement unit 51 measures a plurality of items and changes the items to be measured based on the authentication result by the personal authentication unit 55. For this reason, it becomes possible to measure only a desired item according to a to-be-measured person, and can shorten time until a measurement result is output compared with the case where all the items are measured.

  (8) The measurement unit 51 measures the weight and body composition of the measurement subject as a plurality of items. Therefore, the body weight, body fat percentage, muscle mass, etc. can be measured according to the person to be measured, and only the desired items of the person to be measured can be measured as described in (7) above. is there.

(Other embodiments)
A marker may be provided at the center of the cuff 14 in order to accurately acquire information on the position of the cuff 14 with respect to the position of the subject's heart.

-Based on body movement information and utterance information other than posture information, the weight value, body composition ratio, and the like measured by the measurement unit 51 may be corrected.
The output mode by the output unit 53 may be changed based on the utterance information of the measurement subject.

  The measurement units 21 and 51 may change the measurement mode based on the measurement subject information acquired by the personal authentication units 25 and 55. Specifically, for example, when it is determined that the subject is not settled at all based on body movement information, or when the proportion of the utterance time of the subject under measurement is high based on the utterance information The measurement units 21 and 51 may repeat measurement of biological information. If it is determined that the posture of the measurement subject is not appropriate based on the posture information, the measurement units 21 and 51 may repeat the measurement of the biological information.

The calculation units 22 and 52 may change the calculation processing mode according to the specified measured person based on the information about the measured person acquired by the personal authentication units 25 and 55.
The output units 23 and 53 may change the output mode according to the specified measured person based on the measured person information acquired by the personal authentication units 25 and 55.

  The calculation processing mode of the calculation units 22 and 52 and the output mode of the output units 23 and 53 may be changed based on the measurement result of the past biological information of the measurement subject. For example, the calculation units 22 and 52 may perform a calculation process for comparing the measured biological information with biological information in the past from the time of measurement. In addition, for example, the output units 23 and 53 may output the measured biological information and the past biological information before the measurement.

  Based on the information of the person to be measured acquired by the personal authentication units 25 and 55, among the measurement mode of the measurement units 21 and 51, the calculation processing mode of the calculation units 22 and 52, and the output mode of the output units 23 and 53, One or two may be changed.

  The personal authentication units 25 and 55 do not have to be authentication devices that photograph the measurement subject. For example, the personal authentication units 25 and 55 may be configured by an authentication device that acquires information related to fingerprints, retinal capillary patterns, vein patterns in hands and fingers, voiceprints, and the like.

  The present invention may be applied to biological information measuring devices other than the blood pressure monitor 10 and the body weight / body composition meter 30. In addition, the biological information measurement system may not include a single biological information measurement device such as the sphygmomanometer 10 or the body weight / body composition meter 30.

  DESCRIPTION OF SYMBOLS 10 ... Blood pressure monitor (biological information measurement system), 11 ... Main body part, 12 ... Camera, 13 ... Start button, 14 ... Cuff, 21 ... Measurement part, 22 ... Calculation part, 23 ... Output part, 24 ... Measurement start instruction part , 25 ... personal authentication unit, 26 ... authentication data storage unit, 27 ... blood pressure data storage unit, 28 ... control unit, 30 ... body weight and body composition meter (biological information measurement system), 41 ... human body placement unit, 42 ... gripping unit , 51... Measurement unit, 52... Calculation unit, 53... Output unit, 54... Measurement start instruction unit, 55 .. personal authentication unit, 56 .. authentication data storage unit, 57.

Claims (5)

A measurement unit that measures the biological information of the measurement subject, a calculation unit that performs calculation processing using the measured biological information, and an output unit that outputs the measurement result of the biological information based on the calculation result of the calculation unit A biological information measurement system comprising:
A measurement start instruction unit that instructs the measurement unit to start measurement of the biological information;
A personal authentication unit that photographs the measurement subject and authenticates the measurement subject based on the captured image data;
Based on the measurement start instruction by the measurement start instruction unit, the measurement of the biological information by the measurement unit and the authentication of the measurement subject by the personal authentication unit are performed in parallel.
Obtain at least one of Karadadojo Mukuo and voicing information of the subject by analyzing the image data by said personal identification unit,
Wherein at least one measurement unit of the measurement aspects and output mode of the arithmetic processing aspects and the output of the arithmetic unit, at least one of said body Dojo Mukuo and the voicing information of the measured person obtained by the personal authentication unit The biological information measuring system is characterized in that the information is changed on the basis of one. The biological information measuring system according to claim 1 ,
When authentication of the person to be measured by the personal authentication unit is completed, based on the measurement result of the biological information of the person to be measured, the measurement mode of the measurement unit, the calculation processing mode of the calculation unit, and the output of the output unit A biological information measurement system, wherein at least one of the aspects is changed. The biological information measuring system according to claim 2 ,
The said measurement part measures a blood pressure using a cuff, and controls the pressure of the said cuff based on the measurement result of the past blood pressure of a to-be-measured person. The biological information measurement system characterized by the above-mentioned. In the living body information measuring system according to any one of claims 1 to 3 ,
The measurement unit measures a plurality of items as the biological information, and changes an item to be measured based on an authentication result by the personal authentication unit. The biological information measuring system according to claim 4 ,
The measurement unit measures the body weight and body composition of the person to be measured as the plurality of items.

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