JP6680837B2 - Measuring device, measuring method, and electronic device including measuring device - Google Patents

Description

  The present invention relates to a measuring device, a measuring method, and an electronic device including the measuring device.

  2. Description of the Related Art Conventionally, there is known a measuring device that acquires biometric output information from a test site such as a fingertip of a subject (user) and measures the biometric information. For example, a blood flow measurement device that measures blood flow as biometric information irradiates a fingertip with laser light and measures the blood flow based on scattered light from the blood flow of capillaries at the fingertip (see, for example, Patent Document 1). ).

  By the way, the state of the capillaries of the fingertip changes depending on the state of contact with the measuring device. That is, when the pressure applied to the measuring device from the fingertip is stronger or weaker than the proper range, the blood flow cannot be accurately measured. Therefore, in order to accurately measure the biological information, it is necessary to appropriately bring the test site into contact with the measuring device. Therefore, conventionally, a means for stabilizing the contact state has been used, such as using a fixing mechanism for fixing the test site or fixing the contact state between the fingertip and the measuring device by taping or the like.

Japanese Utility Model Publication No. 3-21208

  When the biological information measuring device is mounted on an electronic device such as a mobile phone, an operation such as an incoming call peculiar to the electronic device may occur while measuring the biological information. In this way, if another process interrupts while the measurement device measures the biometric information, the measurement of the biometric information such as movement of the site to be examined is disturbed by the user reacting to an interrupt, for example. Due to such reasons, the accuracy of the biometric information during measurement may deteriorate.

  An object of the present invention made in view of the above circumstances is to provide a measuring device, a measuring method, and an electronic device including the measuring device, which can improve the measurement accuracy of biological information.

In order to solve the above problems, the measuring device according to the present invention,
A measurement unit that measures biological information,
A communication unit capable of communicating with the outside ,
A control unit that controls the measurement unit and the communication unit ,
The control unit is
In the case where there is communication from the outside to the communication unit during the measurement of the biological information,
The priority of the predetermined processing based on the communication and the measurement of the biological information is compared, and when the priority of the predetermined processing is higher than the priority of the measurement of the biological information, the measurement of the biological information is stopped. To control the measurement unit to start the predetermined processing,
When the measurement of the biometric information is not completed without starting the predetermined process, the measurement unit is controlled to continue the measurement of the biometric information .

  The present invention can also be realized as an electronic device including the above-described measuring device.

  Further, the present invention can be realized as a measuring method using the above-described measuring device, and it should be understood that these are also included in the scope of the present invention.

For example, the measurement method according to the present invention is
Measuring biological information,
Receiving a signal from the outside during the measurement of the biological information,
Predetermined processing based on the signal, a step of comparing the priority of the measurement of the biological information,
If the priority of the predetermined process is higher than the measurement priority of the biometric information , control to stop the measurement of the biometric information, and start the predetermined process ,
Without starting the predetermined process, when the measurement of the biometric information is not completed, a step of controlling to continue the measurement of the biometric information,
including.

  According to the present invention, it is possible to provide a measuring device, a measuring method, and an electronic device including the measuring device that can improve the measurement accuracy of biological information.

It is a block diagram showing a schematic structure of a measuring device concerning a 1st embodiment of the present invention. It is a figure which shows an example of the usage condition of a measuring device. It is a flow chart explaining operation of the measuring device concerning a 1st embodiment. It is a flow chart explaining operation of the measuring device concerning a 2nd embodiment. It is a flow chart explaining operation of the measuring device concerning a 3rd embodiment. It is a figure which shows an example of the mobile telephone carrying the measuring device of FIG.

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

(First embodiment)
FIG. 1 is a block diagram showing a schematic configuration of a measuring apparatus according to the first embodiment of the present invention. As shown in FIG. 1, the measurement device 10 includes a pressure detection unit 11, a measurement unit 12, a control unit 13, a notification unit 14, a storage unit 15, a contact unit 16, a display unit 17, a vibration unit 18, and a communication unit 19. Prepare

  The measuring apparatus 10 uses a measuring unit 12 including, for example, a biometric sensor to obtain a biometric output of a subject (user) who contacts the contact unit 16 and measures biometric information based on the biometric output. To do. FIG. 2 is a diagram showing an example of a usage state of the measuring device 10, and is a diagram showing a state where a user presses the measuring device 10 with a finger of a hand, which is a test site. The measuring apparatus 10 can be configured to acquire the biometric output using the measuring unit 12 and measure the biometric information when the finger is pressed against the contact unit 16 as illustrated in FIG. 2. However, the measurement of biological information by the measurement device 10 is not limited to the example of such a configuration.

  When the measurement apparatus 10 acquires the biometric output in the measurement unit 12, there is a case where the contact pressure of the finger (inspection site) contacting the contact unit 16 has an appropriate pressure range suitable for acquisition. That is, when the contact pressure at the contact portion 16 is too strong or too weak, for example, the site to be examined may be affected by pressure or noise, so that an accurate biometric output may not be obtained. is there. If accurate biometric output cannot be obtained, it becomes difficult to measure highly accurate biometric information.

  Therefore, in the measuring device 10 according to the present embodiment, the pressure detection unit 11 can detect the contact pressure of the test site that contacts the contact unit 16. In this case, the measuring device 10 may measure the biometric information in the control unit 13 based on the biometric output when the contact pressure is within a predetermined range. At this time, the measuring device 10 notifies the information regarding the contact pressure from the notification unit 14. By this notification, the user can determine whether the contact pressure is within a predetermined range, for example, a proper range suitable for measuring biological information, and whether the contact pressure is stronger or weaker than the predetermined range. You can get information about pressure. However, the measurement of the biological information by the measuring device 10 is not limited to the configuration of detecting the contact pressure of the test site in this way.

  The biometric information measured by the measuring device 10 can be any biometric information that can be measured using the measuring unit 12. However, in the description of the present embodiment, the measuring device 10 is, for example, The following description will be made assuming that the blood flow of the subject is measured as information.

  The pressure detector 11 detects the contact pressure of the contact part 16 on the test site. The pressure detection unit 11 is composed of, for example, a piezoelectric element. The pressure detection unit 11 is connected to the control unit 13 and transmits the detected pressure signal to the control unit 13.

  The measurement unit 12 is configured by a biosensor or the like as described above, and acquires the biometric output from the test site. When the measuring apparatus 10 measures the blood flow as in the present embodiment, the measuring unit 12 includes, for example, the irradiation unit 21 and the light receiving unit 22. The irradiation unit 21 irradiates the measurement site in contact with the contact unit 16 with the measurement light. The irradiation unit 21 is, for example, a laser light source that irradiates, as measurement light, a laser beam having a wavelength capable of detecting a predetermined component contained in blood, and is configured by, for example, an LD (Laser Diode). Further, the light receiving unit 22 receives scattered light (detection light), which is scattered from the test site, as biometric output, when the irradiation unit 21 irradiates the test site with measurement light. The light receiving unit 22 is composed of a PD (Photo Diode). The measuring unit 12 transmits the photoelectric conversion signal of the scattered light received by the light receiving unit 22 to the control unit 13.

  The measurement unit 12 may be activated, for example, when the contact pressure is within the above-mentioned predetermined range. Since the measuring device 10 measures the biometric information based on the biometric output when the contact pressure is within the above-mentioned predetermined range, the measuring unit 12 at least measures the biometric information when the contact pressure is within the above-mentioned predetermined range. Getting the output is enough. Further, when the measurement unit 12 is activated when the contact pressure is within the above-described predetermined range, the irradiation unit 21 emits laser light when the biometric output does not need to be acquired, and the surrounding laser light is emitted. It is possible to prevent light from leaking.

  The control unit 13 is a processor that controls and manages the entire measuring device 10 including each functional block of the measuring device 10. The control unit 13 is configured by a processor such as a CPU (Central Processing Unit) that executes a program that defines a control procedure, and the program is stored in, for example, the storage unit 15 or an external storage medium.

  In addition, the control unit 13 determines whether or not the acquisition of the biometric output by the measurement unit 12 is completed. For example, the control unit 13 may determine that the acquisition of the biometric output has ended after a predetermined time has elapsed since the measurement unit 12 started acquiring the biometric output. In addition, the control unit 13 may determine that the acquisition of the biometric output is completed when the measurement unit 12 acquires the biometric output sufficient to measure the biometric information, for example.

  Further, the control unit 13 may measure the biometric information based on the biometric output when the contact pressure at the contact unit 16 is within a predetermined range. The control unit 13 measures the blood flow rate as the biological information using an algorithm or a table for measuring the blood flow rate, for example, based on the change in the intensity of the scattered light received by the light receiving unit 22. In addition, the control unit 13 measures the biometric information based on the biometric output when the contact pressure is within the predetermined range, so that the contact pressure is within the predetermined range based on the contact pressure detected by the pressure detection unit 11. It can be determined whether there is.

  Here, a blood flow measurement technique using the Doppler shift by the control unit 13 will be described. When measuring the blood flow rate, the control unit 13 irradiates the tissue of the living body with laser light from the irradiation unit 21, and receives the scattered light scattered from the inside of the tissue of the living body by the light receiving unit 22. Then, the control unit 13 calculates the blood flow rate based on the measurement result of the received laser light.

  In living tissues, scattered light scattered from moving blood cells undergoes frequency shift (Doppler shift) due to the Doppler effect proportional to the moving speed of blood cells in blood. The control unit 13 detects a beat signal (also referred to as a beat signal) generated by light interference between scattered light from a stationary tissue and scattered light from a moving blood cell. This beat signal is a representation of intensity as a function of time. Then, the control unit 13 makes the beat signal into a power spectrum in which power is represented as a function of frequency. In the power spectrum of this beat signal, the Doppler shift frequency is proportional to the blood cell velocity and the power corresponds to the blood cell volume. Then, the control unit 13 obtains the blood flow volume by multiplying the power spectrum of the beat signal by the frequency and integrating the power spectrum.

  The notification unit 14 notifies the user, who is the subject, of information regarding the contact pressure at the contact unit 16. The measuring device 10 can measure biometric information based on the biometric output when the contact pressure is within a predetermined range. That is, the contact pressure falling within a predetermined range can be a condition for measuring biological information. Therefore, the notification unit 14 can prompt the user to adjust the contact pressure within a predetermined range by notifying the contact pressure information.

  From the viewpoint of urging the contact pressure to be adjusted within a predetermined range, the notification unit 14 can notify the contact pressure as information regarding whether the contact pressure is within a predetermined range. This can improve the convenience of the user.

  For example, the notification unit 14 has a speaker and can notify the information about the contact pressure by outputting the sound. Further, for example, the notification unit 14 can notify the information regarding the contact pressure by displaying an image on the display unit 17. In addition, the notification unit 14 may display characters on the display unit 17 to notify the information regarding the contact pressure. In addition, for example, the notification unit 14 includes a light emitting element, and can notify information regarding the contact pressure by light emission of the light emitting element.

  Further, for example, the notification unit 14 has a vibrating unit such as a vibrator or a piezoelectric element, and can notify information regarding contact pressure by vibrating the vibrating unit. However, when the notification unit 14 makes a notification by vibration, it is preferable that the pressure at the site to be examined does not change due to the vibration.

  Although the notification method of the sound output, the image display, the light emission or the vibration output by the notification unit 14 has been described above, the notification method by the notification unit 14 is not limited to the above. Moreover, when the contact pressure is outside the range of the allowable pressure, the notification unit 14 may notify by different methods depending on whether the contact pressure is stronger or weaker than the range of the allowable pressure. Further, the notification unit 14 may notify the contact pressure by combining a plurality of arbitrary notification methods.

  The notification unit 14 may further notify information on the difference between the contact pressure and at least one of the proper pressure and the allowable pressure.

  In this way, the notification unit 14 can notify information regarding the difference between the contact pressure and at least one of the proper pressure and the allowable pressure. Thereby, the user can easily recognize how much the pressure of the finger brought into contact with the contact portion 16 should be increased or decreased. Therefore, the user can easily adjust the contact pressure. Further, such a display facilitates the user to adjust the contact pressure within the range of the proper pressure or the allowable pressure while confirming the notification of the notification unit 14.

  In addition, the notification unit 14 can notify the user when the measurement unit 12 starts and ends the acquisition of the biometric output. By notifying the acquisition start, the user can recognize that the pressed state of the finger should be held, and by notifying the acquisition end, the user may release the finger from the contact portion 16. Can be recognized. In addition, the notification unit 14 may notify information regarding the measurement result of the biological information.

  The storage unit 15 can be configured by a semiconductor memory or the like, stores various information, programs for operating the measuring apparatus 10, and the like, and also functions as a work memory. The storage unit 15 also stores history data and the like in which the biometric information measured by the measuring device 10 is associated with the contact pressure when the biometric information is measured. When measuring the biological information, the control unit 13 may measure the biological information by referring to the history data based on the contact pressure detected by the pressure detection unit 11 and the biological measurement output measured by the measurement unit 12.

  As described above, when the control unit 13 measures the biometric information with reference to the history data, the measurement unit 12 acquires, for example, a predetermined number of biometric output at a predetermined time. The predetermined time and the predetermined number can be set to arbitrary times and arbitrary numbers, and for example, the measuring unit 12 performs five measurements for one second for five seconds to obtain five living bodies. The measurement output can be obtained.

  In addition, as an example of another method for measuring biometric information by referring to the history data, the control unit 13 refers to the history data and determines the measurement accuracy of the biometric information for each contact pressure of the five biometric outputs. The weighting may be determined. For example, the control unit 13 can determine to give high weight to the biometric output related to the contact pressure with high measurement accuracy. Then, the control unit 13 can measure the biometric information by calculating a weighted average in which the determined weighting is added to the five biometric output by the measurement unit 12.

  As described above, the control unit 13 can improve the measurement accuracy of the biometric information by measuring the biometric information in consideration of the history data stored in the storage unit 15.

  The contact part 16 is a part that a user contacts with a test site such as a finger in order to measure biological information. The contact portion 16 can be composed of, for example, a plate-shaped member. The contact portion 16 may be made of a member that is transparent to at least the measurement light and the detection light. The pressure detection unit 11 detects the pressure applied to the contact unit 16 when a finger or the like comes into contact with the contact unit 16, and transmits the detected contact pressure to the control unit 13.

  The display unit 17 is a display device including, for example, a well-known display. The display unit 17 displays, for example, biometric information measured by the control unit 13. The display unit 17 can be configured by various display devices such as a liquid crystal display (LCD) or an organic EL display.

  By vibrating, the vibrating section 18 can vibrate any part of the measuring device 10, such as the contact section 16, to present various tactile sensations to the subject (user). The vibrating unit 18 can generate various vibrations according to a predetermined drive signal supplied from the control unit 13. Particularly, when the electronic device including the measuring device 10 is realized as a communication device such as a mobile phone or a smartphone, the vibrating unit 18 provides a vibration function. As a result, the communication device including the measuring device 10 allows the user to receive an incoming call and receive an e-mail in place of or with the sound when the incoming call and the e-mail are received. I can inform you.

  The oscillating unit 18 drives an eccentric motor as long as it can be configured by using an arbitrary number of piezoelectric vibrators, a transparent piezoelectric element is provided on the entire surface of the touch sensor, or if it can express a tactile vibration. It can be configured to rotate once in one cycle of the signal. For example, there is an eccentric rotating mass (ERM) method in which the vibrating unit 18 generates vibration by rotating with a motor having a shaft with a mass deviation. In addition, as a method of causing the vibrating unit 18 to generate vibration, there is also a linear resonance actuator (LRA) method in which an actuator is configured in the manner of a linear motor that is a linearly moving motor to cause resonance. Further, as a method for generating vibration, the vibrating unit 18 also includes a piezoelectric actuator method using a material "piezo element" that changes its shape depending on whether a voltage is turned on or off. The vibrating unit 18 according to the present embodiment may have any configuration as long as it vibrates.

  The communication unit 19 exchanges various types of information by transmitting and receiving signals to and from the outside of the assumed device 10 via a wire or wirelessly. That is, the communication unit 19 performs wired or wireless communication. In particular, in a communication device such as a mobile phone or a smart phone including the measuring device 10, the communication unit 19 makes and receives a call and sends and receives an e-mail by communicating with a base station. In the present embodiment, the communication unit 19 can be configured by using various arbitrary wireless communication means and the like, and thus a more detailed description will be omitted.

  In a communication device such as a mobile phone or a smart phone equipped with the measuring device 10, when a call originated from a base station is received by the communication unit 19, the control unit 13 normally performs the process related to the call reception with a high priority. Run. Similarly, in a communication device such as a mobile phone or a smart phone including the measuring device 10, when the communication unit 19 receives an email transmitted from a base station, the control unit 13 performs a process related to the reception of the email. It usually runs at a high priority.

  Next, the operation of the measuring apparatus 10 according to this embodiment will be described.

  Hereinafter, the measurement device 10 according to the present embodiment will be described as being provided in a communication device such as a mobile phone or a smartphone. Therefore, when the user of the measuring device 10 measures the biological information using the measuring device 10, for example, when an incoming call or an email is received, the biological information may not be measured correctly. There is. Therefore, in the present embodiment, appropriate behavior that the measuring apparatus 10 should perform when the high-priority processing such as an incoming call or an email reception occurs in the measuring apparatus 10 in this way. Stipulate.

  FIG. 3 is a flowchart illustrating an example of the operation of the measuring apparatus 10 according to this embodiment. Hereinafter, with reference to FIG. 3, it is assumed that a predetermined process such as a process related to a call is started in the electronic device including the measuring device 10 while measuring the biological information by the measuring device 10. Explain.

  When measuring the biological information by the measuring device 10, the user first contacts the contact portion 16 with a finger, which is the site to be examined, when measuring blood flow, for example. In such a state, the control unit 13 starts the process illustrated in FIG. 3 by using, for example, an input by the subject (user) as a trigger. When the process shown in FIG. 3 is started, the control unit 13 controls the measurement unit 12 to start measurement of biological information (step S11).

  When the measurement of the biological information is started in step S11, the control unit 13 determines whether to start a predetermined process in response to the occurrence of a process with a high priority defined in advance, such as an incoming call or an e-mail reception. Yes (step S12). Here, the process of determining whether or not the error occurs in step S12 is not limited to the process of receiving a call and receiving an electronic mail. The process of determining whether or not the error occurs in step S12 may be defined in advance as a process having a high priority as a function of the electronic device equipped with the measuring apparatus 10.

  Further, here, the “predetermined process” is assumed to be a process of activating call application software (hereinafter referred to as “application”) in response to an incoming call, for example. Further, the predetermined process may be a process of shifting a call application that has been activated in the background to activation of the foreground in response to an incoming call. Further, the predetermined process may include a process related to an operation executed based on the activated call application. Furthermore, the predetermined process may be, for example, a process of activating an e-mail application in response to reception of an e-mail. Further, the predetermined process may be a process of shifting an e-mail application that has been activated in the background to activation of the foreground in response to reception of an e-mail. Further, the predetermined process may include a process related to an operation executed based on the activated e-mail application.

  When the electronic device including the measuring device 10 according to the present embodiment is configured as a communication device, the above-mentioned “predetermined process” is mainly a process related to the communication unit 19 communicating with the outside. Further, in the present embodiment, the processing relating to the communication unit 19 performing communication with the outside is, for example, processing relating to receiving a call, processing relating to receiving an email, and the like. You can Therefore, in the present embodiment, the predetermined process may be a process related to control of the communication unit 19, and particularly a process related to control when the communication unit 19 performs an incoming call process.

  When the predetermined process is not started in step S12 (that is, when there is no incoming call or reception of e-mail), the control unit 13 determines whether or not the measurement started in step S11 is completed (step S13). . When the measurement is completed in step S13, the control unit 13 controls the measurement unit 12 to stop the measurement of the biological information (step S14), and ends the operation according to the present embodiment. If the measurement is not completed in step S13, the control unit 13 returns to step S11 and continues the measurement of the biological information by the measurement unit 12.

  On the other hand, when a predetermined process is started in step S12 (that is, when a call is received or an email is received), the control unit 13 controls the measurement unit 12 to stop the measurement of biological information (step S12). Step S15). When the measurement is stopped in step S15, the control unit 13 determines whether or not the predetermined process started in step S12 is finished (step S16), and the biometric information of the measurement unit 12 is stored until the predetermined process is finished. The measurement is controlled to be stopped (step S15). Here, when the predetermined process ends, it can be assumed that, for example, in the case of a call application, the call application is ended when the telephone call is ended. Further, for example, in the case of an electronic mail application, it can be assumed that the predetermined processing ends, for example, the electronic mail application ends based on a user operation.

  When the predetermined process ends in step S16, the control unit 13 controls to restart the measurement stopped in step S15 (step S17). In step S17, when resuming the stopped measurement, the control unit 13 may request the user to perform an operation of starting the remeasurement, and control the measurement to be restarted by the input by the user as a trigger. In addition, in step S17, the control unit 13 may automatically restart the measurement after displaying, for example, on the display unit 17 that the measurement is restarted. After restarting the measurement in step S17, the control unit 13 performs the process of shifting to step S11.

  As described above, in the measurement device 10 according to the present embodiment, the control unit 13 controls the measurement unit 12 to stop the measurement when a predetermined process is started during the measurement of the measurement unit 12. Further, the control unit 13 may control to start the predetermined process during the measurement of the measurement unit 12 and then restart the measurement of the measurement unit 12 when the predetermined process ends.

  When the measuring device 10 according to the present embodiment is mounted on a mobile phone, a smartphone, or the like, the measuring unit 12 can be used when an incoming call or an electronic mail is interrupted while measuring biological information. Stop measurement by. Therefore, according to the present embodiment, even if the incoming call or the reception of an email interrupts during the measurement of the biological information, the accuracy of the measurement is prevented from deteriorating due to the interruption, and the reliability of the measurement is improved. It is possible to improve the property. Further, according to the present embodiment, when the incoming call or the reception of the e-mail interrupts, the measurement of the measurement unit 12 is stopped, so that the waste of the power consumed by the measurement unit 12 thereafter can be avoided. You can also do it.

(Second embodiment)
Next, a measuring device according to the second embodiment of the present invention will be described. In the above-described first embodiment, the reliability of the measurement can be improved, but the measurement is interrupted when the incoming call or the reception of the e-mail interrupts. Therefore, in the second embodiment, the measurement is continued without interruption even when an incoming call or an e-mail is interrupted during the measurement of the biological information.

  The measuring device according to the second embodiment can be realized by the same configuration as the measuring device 10 according to the above-described first embodiment, and changes the process related to the operation. Therefore, description similar to that of the above-described first embodiment will be omitted as appropriate, and contents unique to the second embodiment different from the first embodiment will be mainly described.

  When a user of the measuring apparatus 10 measures biometric information, for example, when a call is received or an email is received, if vibration occurs due to a vibration function for recognizing that, measurement of biometric information is performed. May not be performed correctly. For example, when vibration occurs during measurement of biological information, a mobile phone or a smart phone including the measuring device 10 itself vibrates, so that a test site such as a fingertip of a test subject (user) appropriately contacts the contact portion 16. The contact state may not be maintained. In addition, for example, when the measuring device 10 vibrates during measurement of biological information, the subject (user) is surprised by the sudden vibration, and various conditions such as the heart rate of the subject change, and the measurement is performed. The biological information may change. Therefore, in the present embodiment as well, appropriate behavior that the measuring apparatus 10 should perform when a process with a high priority such as an incoming call or an email reception occurs in the measuring apparatus 10 in this way Stipulate.

  FIG. 4 is a flowchart illustrating an example of the operation of the measuring apparatus 10 according to this embodiment. Hereinafter, with reference to FIG. 4, it is assumed that a predetermined process such as a process related to a call is started in the electronic device including the measuring device 10 while measuring the biological information by the measuring device 10. Explain.

  As shown in FIG. 4, when the operation of the present embodiment starts, the control unit 13 first controls the vibrating unit 18 so that the function of generating vibration (hereinafter referred to as the vibration function) is turned on. (Step S21). In the present embodiment, the control unit 13 may turn on the vibration function before the operation shown in FIG. 4 is started. In any case, in the present embodiment, it is premised that the vibration function is turned on at the time of starting the measurement of biological information.

  When the vibration function is turned on in step S21, the control unit 13 controls the measurement unit 12 to start the measurement of the biological information, for example, by using an input by the subject (user) as a trigger ( Step S11). Also in the present embodiment, when measuring the biological information by the measuring device 10, the user touches the contact portion 16 with a finger, which is a test site, when measuring the blood flow, for example.

  When the measurement of the biological information is started in step S11, the control unit 13 determines whether to start a predetermined process in response to the occurrence of a process with a high priority defined in advance, such as an incoming call or an e-mail reception. Yes (step S12). Here, the predetermined process may be the same process as described in the first embodiment. When the predetermined process is not started in step S12, the control unit 13 determines whether or not the measurement started in step S11 is completed (step S13). When the measurement is completed in step S13, the control unit 13 controls the measurement unit 12 to stop the measurement of the biological information (step S14), and ends the operation according to the present embodiment. If the measurement is not completed in step S13, the control unit 13 returns to step S11 and continues the measurement of the biological information by the measurement unit 12.

  On the other hand, when a predetermined process is started in step S12 (that is, when a call is received or an electronic mail is received), the control unit 13 causes the vibrating unit 18 to generate vibration, that is, the vibration function is in an off state. (Step S22). When the vibration function is turned off in step S22, the control unit 13 continues the measurement of the biological information by the measurement unit 12, and determines whether or not the measurement started in step S11 is completed (step S23).

  When the measurement is not yet completed in step S23, the control unit 13 determines whether or not the predetermined process started in step S12 is completed (step S24). Here, the completion of the predetermined process may be the same process as described in the first embodiment. When the predetermined process is not completed in step S24, the control unit 13 controls the measurement unit 12 to continue measuring the biological information until the predetermined process is completed (step S23). When the predetermined process ends in step S24, the control unit 13 returns to step S11 and continues the measurement of the biological information by the measuring unit 12.

  On the other hand, when the measurement is completed in step S23, the control unit 13 controls to stop the measurement of the biological information by the measurement unit 12 (step S25), and turns on the vibration function (step S26). ), The operation according to the present embodiment ends.

  As described above, in the measuring device 10 according to the present embodiment, when the control unit 13 starts a predetermined process during the measurement of the measuring unit 12, the controlling unit 13 measures the measuring unit 12 so that the vibrating unit 18 does not generate vibration. Control to continue. Further, the control unit 13 may perform control so that the vibrating unit 18 can generate vibration when the predetermined process ends after starting the predetermined process during the measurement of the measuring unit 12.

  When the measuring device 10 according to the present embodiment is mounted on a mobile phone, a smart phone, or the like, even if an incoming call or an e-mail reception interrupts while measuring biological information, it vibrates. The part 18 is controlled so as not to vibrate. Therefore, according to the present embodiment, even if the incoming call or the reception of the e-mail interrupts during the measurement of the biometric information, it is possible to prevent the vibration from causing the deterioration of the measurement accuracy. However, the reliability of the measurement can be improved.

  As a modification of the above-described second embodiment, when a predetermined process is started during the measurement of the measuring unit 12, instead of controlling the vibrating unit 18 so as not to generate vibration, or together with the control, the notification unit 14 You may control so that a sound may not generate. When the notification unit 14 of the measurement device 10 outputs a sound during measurement of biological information, the subject (user) is surprised by a sudden (for example, loud) sound, and various conditions such as the heart rate of the subject change. Then, the measured biological information may change. Therefore, such a problem can be avoided by controlling the notification unit 14 so that no sound is generated when a predetermined process is started during measurement by the measurement unit 12. As described above, even when the measuring device 10 does not generate vibration or sound during the measurement of the biological information, when the incoming call or the reception of the e-mail occurs, the subject (user) does not see the display unit. The display of 17 allows the user to know the arrival of a call or the reception of an electronic mail.

(Third Embodiment)
Next, a measuring device according to the third embodiment of the present invention will be described. In the third embodiment, similarly to the first embodiment, the measurement of the biometric information is interrupted when the incoming call or the reception of the electronic mail interrupts. However, in the third embodiment, it is determined whether to output the measurement result up to that time or use it for the next measurement according to the situation of the measurement performed up to that point.

  The measuring device according to the third embodiment can be realized by the same configuration as the measuring device 10 according to the above-described first or second embodiment, and changes the process related to the operation. Therefore, the description similar to that of the above-described first or second embodiment is omitted as appropriate, and the contents unique to the third embodiment different from the first and second embodiments will be mainly described.

  FIG. 5 is a flowchart illustrating an example of the operation of the measuring apparatus 10 according to this embodiment. Hereinafter, with reference to FIG. 5, it is assumed that a predetermined process such as a process related to a call is started in the electronic device including the measuring device 10 while measuring the biological information by the measuring device 10. Explain.

  In the present embodiment, when measuring the biological information by the measuring device 10, the user first brings the finger, which is the test site, into contact with the contact portion 16 when measuring the blood flow, for example. In such a state, the control unit 13 starts the process illustrated in FIG. 5 by using, for example, an input by the subject (user) as a trigger. When the process shown in FIG. 5 starts, the control unit 13 controls the measurement unit 12 to start the measurement of biological information (step S11).

  When the measurement of the biological information is started in step S11, the control unit 13 determines whether to start a predetermined process in response to the occurrence of a process with a high priority defined in advance, such as an incoming call or an e-mail reception. Yes (step S12). Here, the predetermined process may be the same process as described in the first embodiment. When the predetermined process is not started in step S12, the control unit 13 determines whether or not the measurement started in step S11 is completed (step S13). When the measurement is completed in step S13, the control unit 13 controls the measurement unit 12 to stop the measurement of the biological information (step S14), and ends the operation according to the present embodiment. If the measurement is not completed in step S13, the control unit 13 returns to step S11 and continues the measurement of the biological information by the measurement unit 12.

  On the other hand, when the predetermined process is started in step S12 (that is, when a call is received or an electronic mail is received), the control unit 13 determines that the measurement of the biometric information by the measurement unit 12 is the first predetermined time at this point. It is determined whether or not the condition of is satisfied (step S31). The first predetermined condition in step S31 can be, for example, that the measurement of the biometric information by the measurement unit 12 is completed by 80% or more at that time. That is, in this case, it means that the data acquired by the measurement unit 12 until the measurement of the biological information is normally completed is 100%, and the data acquired by that time is 80% or more.

  When the measurement satisfies the first predetermined condition in step S31, the control unit 13 determines that most of the measurement is completed, and outputs the result of the measurement to, for example, the display unit 17 (step S32). . At this time, the control unit 13 may further output, together with the result of the measurement, information indicating that the result of the measurement has relatively high reliability because, for example, most of the measurement is completed. After outputting the measurement result in step S32, the control unit 13 controls the measurement unit 12 to stop the measurement of biological information (step S14), and ends the operation according to the present embodiment.

  On the other hand, when the measurement does not satisfy the first predetermined condition in step S31, the control unit 13 determines whether the measurement of the biological information by the measurement unit 12 at this time satisfies the second predetermined condition. (Step 33). The second predetermined condition in step S33 can be, for example, that the measurement of the biometric information by the measurement unit 12 is completed by 50% or more at that time. That is, in this case, it means that the data acquired by the measurement unit 12 until the measurement of the biological information is normally completed is 100%, and the data acquired by that time is 50% or more.

  When the measurement satisfies the second predetermined condition in step S33, the control unit 13 determines that the measurement is partially completed, and outputs the measurement result to, for example, the display unit 17 or the like (step S34). . In step S34, the control unit 13 further outputs, together with the measurement result, information indicating that the measurement result is relatively low in reliability, for example, because the measurement is only partially completed. After outputting the measurement result in step S34, the control unit 13 controls the measurement unit 12 to stop the measurement of the biological information (step S14), and ends the operation according to the present embodiment.

  On the other hand, when the measurement does not satisfy the second predetermined condition in step S33, the control unit 13 controls the measurement unit 12 to stop the measurement of the biological information (step 35). When the measurement is stopped in step S35, the control unit 13 determines whether or not the measurement of the biometric information by the measurement unit 12 is restarted within a predetermined time, for example, by using an input by the subject (user) as a trigger. Is determined (step S36). Here, the predetermined time until the measurement of the biometric information is performed again means an appropriate time such as several seconds to several tens of seconds in which the biometric information of the subject (user) is not significantly changed, and various conditions are set. It may be determined in advance while taking into consideration. When it is determined in step S36 that the measurement of the biological information is not restarted within the predetermined time, the control unit 13 ends the operation according to the present embodiment.

  On the other hand, when it is determined in step S36 that the measurement of the biological information is restarted within the predetermined time, the control unit 13 uses the result measured by the measuring unit 12 up to that point and again measures the biological information. Start (step S37).

  As described above, in the measurement device 10 according to the present embodiment, when the control unit 13 starts a predetermined process during the measurement of the measurement unit 12, the measurement of the measurement unit 12 performed before the predetermined process is started. The control is performed so as to determine whether to output the result of the measurement.

  In addition, the control unit 13 may control to output the result of the measurement when the measurement of the measurement unit 12 performed before the start of the predetermined process satisfies a predetermined condition such as completion of 80% or more. good. In addition, the control unit 13 has low reliability of the measurement together with the result of the measurement when the measurement of the measurement unit 12 performed up to the start of the predetermined process satisfies a predetermined condition such as completion of 50% or more. You may control so that the information regarding the said measurement, such as the effect, may be output.

  Further, when the measurement of the measurement unit 12 performed before the start of the predetermined process does not satisfy the predetermined condition, the control unit 13 controls the measurement result to be used for the next measurement of the measurement unit 12. Also good. In this case, the control unit 13 may control to use the result of the measurement for the next measurement of the measurement unit 12 when the next measurement of the measurement unit 12 is performed within a predetermined time.

  When the measuring device 10 according to the present embodiment is mounted on a mobile phone, a smart phone, or the like, if an incoming call or an e-mail reception interrupts while measuring biological information, Process the measurement result according to the measurement. Therefore, according to the present embodiment, when the incoming call or the reception of the email interrupts during the measurement of the biometric information, if the measurement has progressed to some extent, the measurement results up to that point are displayed. The subject (user) is notified together with the reliability of the measurement. Therefore, the subject (user) can know the measurement result together with information on its reliability even when the measurement is not normally completed.

  Further, according to the present embodiment, when the incoming call or the reception of the e-mail interrupts during the measurement of the biometric information and the measurement has not progressed to a certain degree, the measurement result up to that time is predetermined. It is used for the next measurement in time. Therefore, the subject (user) can shorten the time required for the next measurement even when the result of the current measurement cannot be obtained.

  It should be noted that the present invention is not limited to the above-described embodiment, and various modifications and changes can be made. For example, the functions and the like included in each constituent unit and each step can be rearranged so as not to logically contradict, and a plurality of constituent units or steps can be combined or divided into one. Is.

  Further, for example, the measuring device 10 according to each of the above-described embodiments can be mounted on various electronic devices. FIG. 6 is a diagram showing an example of a mobile phone equipped with the measuring apparatus 10 of FIG. In FIG. 6, a mobile phone is shown as an example of the electronic device equipped with the measuring device 10, but the electronic device equipped with the measuring device 10 can be various communication devices such as a smartphone. As shown in FIG. 6A, the mobile phone 40 includes the measuring device 10 on the back side thereof. In addition, the mobile phone 40 shown as an example in FIG. 6A includes a rear display 41 on the back side thereof. On the rear display 41, for example, information regarding contact pressure is displayed as an indicator. In this way, when the measuring device 10 is mounted on the electronic device, the notification unit 14 may notify the information on the contact pressure from the electronic device. That is, FIG. 6 shows an example in which the notification unit 14 is configured as the rear display 41.

  Further, in FIG. 6, the contact portion 16 may be configured as the rear display 41. For example, in the second embodiment, the rear display 41 displays an incoming call or receives an email by the display on the rear display 41 when the measuring device 10 does not generate vibration or sound during measurement of biological information. Etc. can be notified. Further, for example, in the third embodiment, the rear display 41 may display the result of the measurement output in step S32 or step S34 and the information regarding the reliability of the measurement.

  FIG. 6B is a diagram illustrating an example of a case where the user uses the mobile phone 40 including the measurement device 10 to measure biometric information. The user causes the measurement device 10 to measure biological information by bringing the finger into contact with the contact portion 16. When measuring biological information, the notification unit 14 can display information about contact pressure on the rear display 41 as an indicator. Note that the display of the information regarding the contact pressure is not limited to that performed by the rear display 41. For example, the notification unit 14 outputs a sound from a speaker included in the mobile phone 40, causes a light emitting element included in the mobile phone 40 to emit light, or vibrates a vibrating unit included in the mobile phone 40, thereby relating to the contact pressure. Information can be displayed.

  When the user uses the mobile phone 40 including the measurement device 10 to measure biometric information, the measurement device 10 activates a dedicated application for the user to measure biometric information using the mobile phone 40. By doing so, the measurement of biological information may be started. Further, the measuring device 10 may automatically start measuring the biological information when the contact portion 16 detects the contact pressure. In this case, the user can start the measurement of biological information by touching the contact portion 16 with a finger without activating the application.

  When the user uses the mobile phone 40 including the measuring device 10 to measure biological information, the measuring device 10 can notify the user of the measurement result by various methods. For example, the measurement device 10 displays on the display included in the mobile phone 40 whether the blood is “dry” or “thick” based on the measured blood flow value and using a predetermined threshold value as a reference. You may. Further, for example, the measuring device 10 may reproduce different sounds based on the measured value of the blood flow with reference to a predetermined threshold value. In addition, the measuring device 10 may change the operability of the mobile phone 40 based on the value of the measured blood flow with reference to a predetermined threshold value. In this case, the user can know the measurement result by the operability when operating the mobile phone 40.

  Further, the measuring device 10 may only give a notification indicating that the measurement is completed when the biological information is measured. The measuring apparatus 10 can make such a notification by vibrating the vibrating section of the mobile phone 40, for example. In this case, when the user wants to know the measurement result, the user can operate the mobile phone 40 to display the result on the mobile phone 40.

  Further, for example, the arrangement of the measuring device 10 in the mobile phone 40 is not limited to that shown in FIG. The measuring device 10 may be arranged, for example, at another portion on the back surface of the mobile phone 40, or may be arranged on the front surface or the side surface of the mobile phone 40.

  The electronic device on which the measuring device 10 is mounted is not limited to the mobile phone 40. For example, the measuring device 10 can be mounted on various electronic devices such as a portable music player, a notebook computer, a wrist watch, a tablet terminal, and a game machine.

  Further, each of the above-described embodiments can be implemented not only as an invention of the measuring apparatus 10 or an electronic device including the measuring apparatus 10 but also as an invention of a method of performing measurement in such an apparatus or apparatus.

10 Measuring device 11 Pressure detector 12 Measuring unit (biological sensor)
13 control unit 14 notification unit 15 storage unit 16 contact unit 17 display unit 18 vibration unit 19 communication unit 21 irradiation unit 22 light receiving unit 40 mobile phone 41 rear display

Claims (6)

A measurement unit that measures biological information,
A communication unit capable of communicating with the outside ,
A control unit that controls the measurement unit and the communication unit ,
The control unit is
In the case where there is communication from the outside to the communication unit during the measurement of the biological information,
The priority of the predetermined process based on the communication and the measurement of the biometric information is compared, and when the priority of the predetermined process is higher than the priority of the measurement of the biometric information, the measurement of the biometric information is stopped. To control the measurement unit to start the predetermined processing,
A measuring device that controls the measuring unit to continue the measurement of the biological information when the measurement of the biological information is not completed without starting the predetermined process .   The measurement device according to claim 1, wherein after the predetermined process is started during the measurement of the biological information, when the predetermined process ends, the measurement device is controlled to restart the measurement of the biological information. Wherein the predetermined processing is processing relating to the control of the communication unit, the measuring device according to claim 1 or 2. The measurement device according to claim 3 , wherein the predetermined process is a process relating to control when the communication unit performs an incoming call process. Electronic apparatus including the measuring device according to any one of claims 1-4. Measuring biological information,
Receiving a signal from the outside during the measurement of the biological information,
Predetermined processing based on the signal, a step of comparing the priority of the measurement of the biological information,
If the priority of the predetermined process is higher than the measurement priority of the biometric information , control to stop the measurement of the biometric information, and start the predetermined process ,
Without starting the predetermined process, when the measurement of the biometric information is not completed, a step of controlling to continue the measurement of the biometric information,
Including the measurement method.

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