JP2022121435A - Portable apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To measure biological information on a user with a high degree of precision while reducing time and efforts of the user.

SOLUTION: A first function part 110 causes a portable apparatus 10 to achieve a first function. A control part 130 causes the portable apparatus 10 to achieve a second function. The first function is a function different from both a function to acquire biological information and a function to process the biological information. A biological information acquisition part 120 acquires the biological information while the first function part 110 is executing the first function. The control part 130 achieves the second function using the biological information that the biological information acquisition part 120 acquires. An environmental information acquisition part 135 acquires environmental information. The environmental information indicates an environment of the biological information acquisition by the biological information acquisition part 120. The environment of the acquisition is a factor that has an impact on the accuracy of the biological information, for instance. The control part 130 controls the biological information acquisition part 120 on the basis of the environmental information that the environmental information acquisition part 135 acquires.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2022,JPO&INPIT

Description

The present invention relates to mobile devices.

In recent years, interest in health has increased. Therefore, various devices and systems have been developed to support the health maintenance of users.

For example, Patent Literature 1 discloses a system that manages bone density, arteriosclerosis, and the like, and presents nutritional supplement prescriptions based on this managed information.

JP 2007-65892 A

In order to support the user's health maintenance, it is necessary to continuously acquire the user's biometric information over a certain period of time. However, it is troublesome for users to measure biological information with high accuracy.

One example of the problem to be solved by the present invention is to be able to measure a user's biological information with high accuracy and to reduce the user's trouble.

The invention according to claim 1 is a portable device capable of realizing a first function and a second function different from the first function,
a first functional unit that causes the mobile device to implement the first function;
a second function unit that causes the mobile device to implement the second function;
a biometric information acquisition unit that acquires biometric information;
an environment information acquisition unit that acquires environment information indicating an environment in which the biometric information is acquired by the biometric information acquisition unit;
a control unit that controls the biological information acquisition unit based on the environmental information;
with
The biometric information acquisition unit acquires the biometric information while the first function unit is realizing the first function,
The second function unit realizes the second function using the biometric information acquired by the biometric information acquisition unit.
A mobile device characterized by:

The invention according to claim 3 is a portable device capable of realizing a first function and a second function different from the first function,
a first functional unit that causes the mobile device to implement the first function;
a second function unit that causes the mobile device to implement the second function;
a biometric information acquisition unit that acquires biometric information;
an environment information acquisition unit that acquires environment information indicating an environment in which the biometric information is acquired by the biometric information acquisition unit;
a storage unit that stores the biometric information in association with the environment information when the biometric information was acquired;
with
The biometric information acquisition unit acquires the biometric information while the first function unit is realizing the first function,
The second function unit realizes the second function using the biometric information acquired by the biometric information acquisition unit.
A mobile device characterized by:

1 is a block diagram showing the configuration of a mobile device according to an embodiment; FIG. 4 is a flow chart showing an example of the operation of the mobile device; 9 is a flowchart showing the operation of a control unit according to modification 1; 9 is a flowchart showing the operation of a control unit according to modification 1; FIG. 10 is a diagram showing a mobile device according to modification 2 together with its usage environment; FIG. 11 is a diagram showing an example of a screen displayed by a display unit in modification 2; 10 is a flow chart showing an example of the operation of the mobile device in modification 2; 10 is a flow chart showing an example of the operation of the mobile device in modification 2; 1 is a plan view of a mobile device according to Example 1; FIG. FIG. 10 is a cross-sectional view taken along the line AA of FIG. 9; 2 is a block diagram showing the functional configuration of a mobile device; FIG. FIG. 11 is a plan view of a mobile device according to Example 2; 13 is a block diagram showing the functional configuration of the mobile device shown in FIG. 12; FIG. FIG. 11 is a cross-sectional view of a mobile device according to Example 3; 15 is a block diagram showing the functional configuration of the mobile device shown in FIG. 14; FIG. FIG. 12 is a block diagram showing the functional configuration of a mobile device according to Example 4; FIG. 4 is a block diagram showing a functional configuration of a mobile device according to a reference example; 14 is a flow chart for explaining functions of a mobile device in Example 5. FIG. 14 is a flow chart for explaining functions of a mobile device in Example 5. FIG. FIG. 10 is a plan view of a mobile device according to a modification of Example 1; FIG. 10 is a plan view of a mobile device according to a modification of Example 1; FIG. 4 is a diagram for explaining a method of setting a time during which acquisition of biometric information should be avoided;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, in all the drawings, the same constituent elements are denoted by the same reference numerals, and the description thereof will be omitted as appropriate.

In the following description, each component of the mobile device 10 indicates a functional unit block rather than a hardware unit configuration. Each component of the portable device 10 includes a CPU of an arbitrary computer, a memory, a program loaded in the memory, a storage medium such as a hard disk for storing the program, an interface for network connection, and an arbitrary combination of hardware and software. Realized by combination. There are various modifications of the implementation method and device.

FIG. 1 is a block diagram showing the configuration of a mobile device 10 according to an embodiment. The mobile device 10 can implement a first function and a second function different from the first function, and includes a first function unit 110, a biological information acquisition unit 120, and a control unit 130 (also serving as the second function unit). ), and an environment information acquisition unit 135 .

The first function unit 110 causes the mobile device 10 to implement the first function, and the control unit 130 causes the mobile device 10 to implement the second function. The first function is a function different from both the function of acquiring biometric information and the function of processing this biometric information. The biometric information acquisition unit 120 acquires biometric information of the user of the mobile device 10 . The user of the mobile device 10 is touching the mobile device 10 while the first function unit 110 is performing the first function. Therefore, the biometric information acquisition unit 120 acquires biometric information while the first function unit 110 is executing the first function. Then, the control unit 130 uses the biometric information acquired by the biometric information acquiring unit 120 to implement the second function.

The environment information acquisition unit 135 acquires environment information. The environment information indicates an environment in which biometric information is acquired by the biometric information acquisition unit 120 . Acquisition environment is, for example, a factor that affects the accuracy of biometric information. Then, the control unit 130 controls the biological information acquisition unit 120 based on the environment information acquired by the environment information acquisition unit 135 .

In addition, in the example shown in this figure, the mobile device 10 further includes a display unit 140 . The mobile device 10 may be, for example, a mobile communication terminal such as a mobile phone or a smart phone, a mobile game machine, or a mobile audio player. The mobile device 10 will be described in detail below.

The first function that the first function unit 110 causes the mobile device 10 to perform is, for example, a communication function such as data communication or voice communication. Examples of data communication are e-mail communication and access to the Internet. An example of voice communication is, for example, telephone communication. However, the first function may be other functions, such as entering or editing data, or viewing data stored by the mobile device 10 . Further, when the mobile device 10 has the function of a mobile game device, the first function may be playing a game.

The biometric information acquisition unit 120 acquires the biometric information of the user who is touching the mobile device 10 . The biometric information may be, for example, vital information, or physical property values such as impedance, sound velocity, infrared absorption rate, or infrared reflectance of the user's body. In the latter case, the control unit 130 calculates a value (for example, bone age, skin age, muscle age, blood vessel age, or blood sugar level) indicating the health level of the user from the physical property value. Also, the biometric information may be information indicating the speed and accuracy of user input to the mobile device 10 . In this case, the control unit 130 can calculate the brain age of the user from the biological information. As described above, the biometric information acquisition unit 120 acquires biometric information while the first function unit 110 is executing the first function. Note that the operation of the biometric information acquisition unit 120 is controlled by the control unit 130 .

The control unit 130 implements the second function using the biometric information acquired by the biometric information acquiring unit. For example, the control unit 130 controls the biological information acquired by the biological information acquiring unit 120 or the result of processing this biological information (for example, the bone age and skin age described above) at the timing when the first function unit 110 is not executing the first function. , muscle age, blood vessel age, and brain age) are displayed on the display unit 140 .

The environment information acquisition unit 135 acquires the information indicating the biometric information acquisition environment by the biometric information acquisition unit 120 as described above. Acquisition environment indicates, for example, factors that affect the accuracy of biometric information. Specifically, the acquisition environment includes, for example, body temperature, atmospheric pressure, presence or absence of meals immediately before acquisition, presence or absence of biological activity (including both physical activity and mental activity) immediately before acquisition, or It indicates whether or not the bather is taking a bath. The information indicating the acquisition environment is, for example, body temperature, atmospheric pressure, acquisition time of the biological information, or the amount of input to the portable device 10 . This information is generated by, for example, a sensor, microphone, or clock included in the environment information acquisition unit 135 .

For example, if the information indicating the environment to be acquired is body temperature, the environment information acquisition unit 135 has a temperature sensor. Further, when the information indicating the acquired environment is atmospheric pressure, the environmental information acquisition unit 135 has a barometer. In addition, when the information indicating the acquisition environment is the acquisition time of the biological information (for example, when avoiding the time considered to be bathing, when avoiding the time after eating for a certain period of time, etc.), the environment information acquisition unit 135 has a clock. is doing. If the environmental information acquisition unit 135 has a clock, the time during which acquisition of biometric information should be avoided is registered in advance in the storage unit of the mobile device 10 .

Note that the time during which acquisition of biometric information should be avoided is registered in the storage unit of the mobile device 10 in the following manner, for example.

First, the mobile device 10 acquires, for example, the data shown in FIG. 22 continuously every day for, for example, one week. Then, by processing these acquisition results, the time at which a singular point (for example, a point more than a standard apart from the average age) tends to occur is recognized. Then, the recognized time is registered as a time during which acquisition of biometric information should be avoided. In addition to avoiding the acquisition of biometric information at the singular point described above, for example, by processing the data shown in FIG. It is also possible to adopt a configuration in which biometric information is actively acquired in a time period when there is little change in the calculation result associated with this.

FIG. 2 is a flow chart showing an example of the operation of the mobile device 10. As shown in FIG. When the user operates the first function unit 110 , the user touches the mobile device 10 . Therefore, the biometric information acquiring unit 120 can acquire the biometric information of the user. Using this, when the control unit 130 detects that the first function unit 110 is operating (step S10: Yes),
The environment information is acquired from the environment information acquisition unit 135 . Then, based on the environmental information, the biometric information acquisition unit 120 is controlled. Specifically, when the environmental information satisfies a predetermined condition (step S15: Yes), the control unit 130 causes the biometric information acquisition unit 120 to acquire biometric information (step S20). On the other hand, if the environmental information does not satisfy the predetermined condition (step S15: No), the control unit 130 does not cause the biometric information acquiring unit 120 to acquire biometric information.

For example, if the environmental information is body temperature, the control unit 130 acquires the biological information only when the body temperature is within the reference range. If the body temperature is out of the reference range (for example, high), there is a high possibility that the body has just exercised or is ill. In such a case, the reliability of biometric information is lowered. Therefore, the control unit 130 does not cause the biometric information acquiring unit 120 to acquire biometric information.

Further, when the environmental information is the air pressure, the control unit 130 acquires the biological information only when the air pressure is equal to or higher than the standard. Further, when the environmental information is the time, the control unit 130 causes the biometric information acquisition unit 120 to acquire the biometric information only when the time meets the criteria (i.e., when it is assumed that the time is not after eating and not after bathing). Let

Moreover, the environmental information acquisition unit 135 may have a hygrometer that measures the humidity of the skin of the living body. In this case, if the skin humidity is equal to or higher than the reference value, the control unit 130 does not cause the biological information acquiring unit 120 to acquire biological information because there is a high possibility that the living body has just taken a bath.

Further, when the measurement target of the biological information acquisition unit 120 is the user of the mobile device 10, the environment information acquisition unit 135 may acquire the presence or absence of input to the mobile device 10 as the environment information. For example, the control unit 130 determines whether the input to the mobile device 10 exceeds a standard. For example, when input to the mobile device 10 (including voice input on the phone (input to the microphone) and operation of the mobile device 10 (touch panel operation)) continues for a certain period of time or longer, the user's mental Determining that the activity is active, the control unit 130 does not cause the biometric information acquiring unit 120 to acquire biometric information.

Further, when the environment information acquisition unit 135 has a microphone, the information indicating the acquisition environment may be the volume of the voice input to the microphone. In this case, the environment information acquisition unit 135 may use a frequency filter or the like to extract only noise components, and use the magnitude of the extracted noise as information indicating the acquisition environment. Then, when the loudness of the voice meets the standard (for example, when it is less than the standard value), the control unit 130 causes the biometric information acquisition unit 120 to acquire the biometric information.

Also, the environment information acquisition unit 135 may have a temperature sensor for measuring the temperature of the user's finger. In this case, if the finger temperature acquired by the environment information acquisition unit 135 satisfies the reference (for example, within the reference range), the control unit 130 causes the biometric information acquisition unit 120 to acquire the biometric information.

Furthermore, if the biological information acquisition unit 120 has a sensor that can be touched by the user (for example, the example shown in FIG. 20, which will be described later), the environmental information acquisition unit 135 further has a pressure sensor in the vicinity of this sensor. may Then, when the detected value of the pressure sensor satisfies the reference (for example, within the reference range), the control unit 130 causes the biometric information acquisition unit 120 to acquire the biometric information.

Next, the control unit 130 generates data to be displayed on the display unit 140 by processing the information acquired from the biological information acquisition unit 120 (step S30). Then, the control unit 130 causes the display unit 140 to display. This display is performed to allow the user to recognize the biometric information or its processing result (step S40). Note that the timing of this display is, for example, when the user inputs to the mobile device 10 that this display is to be performed. In addition, this display is displayed when there is a large change in the user's biometric information, or when the age based on the biometric information (for example, skin age, bone age, or brain age) is greater than the actual age by a reference value or more. may be done automatically to alert the user to the

As described above, according to the present embodiment, the control unit 130 causes the biometric information acquisition unit 120 to acquire biometric information while the first function unit 110 is operating. Therefore, the user of the mobile device 10 does not have to perform an operation for acquiring biometric information. Therefore, the user's trouble can be reduced.

Also, the biometric information acquisition unit 120 acquires biometric information only when the environment information detected by the environment information acquisition unit 135 satisfies the conditions. Therefore, by appropriately setting the above-described conditions, it is possible to suppress acquisition of biological information under specific conditions (for example, immediately after eating, immediately after heavy physical or mental activity, immediately after bathing). Therefore, biometric information can be measured with high accuracy.

Further, the control unit 130 causes the display unit 140 to display the biometric information acquired by the biometric information acquisition unit 120 or the result of processing the biometric information at the timing when the first function unit 110 is not executing the first function. Therefore, the user can recognize the biometric information acquired by the biometric information acquiring unit 120 or the result of processing this biometric information.

(Modification 1)
3 and 4 are flowcharts showing the operation of the control unit 130 according to Modification 1. FIG. First, as shown in FIG. 3, the control unit 130 according to the present modification detects that the first function unit 110 is operating (step S10: Yes), and sends biometric information to the biometric information acquisition unit 120. The environment information acquisition unit 135 acquires the environment information (step S22). Then, the control unit 130 associates the acquired biological information and the environmental information with each other and stores them in the storage unit (step S24). This storage unit may be provided inside the mobile device 10 or may be provided outside the mobile device 10 . By performing the processing shown in FIG. 3, the storage unit stores a plurality of combinations of biological information and environmental information.

When the timing for processing the biometric information comes, the control unit 130 reads multiple combinations of the biometric information and the environmental information from the storage unit (step S31 in FIG. 4). Then, the control unit 130 selects a combination in which the environmental information satisfies the criteria from among these combinations, and generates display data using the biometric information included in the selected combination (steps S32 and S33). Then, the display unit 140 displays the result using the generated display data (step S40).

According to this modification, the control unit 130 generates display data using only biometric information whose environmental information satisfies the conditions. Therefore, by appropriately setting the above-described conditions, the display data includes biological information acquired under specific conditions (for example, immediately after eating, immediately after heavy physical or mental activity, immediately after bathing). can be suppressed. Therefore, it is possible to substantially measure the user's biological information with high accuracy.

(Modification 2)
FIG. 5 is a diagram showing the mobile device 10 according to Modification 2 together with its usage environment. In the mobile device 10 according to this modification, the first function performed by the first function unit 110 is the data communication function. The first functional unit 110 connects to the information processing device 20 via the communication network 30 . The information processing device 20 stores statistical data of biometric information or statistical data of the result of processing this biometric information. Then, the control unit 130 acquires the statistical data via the first function unit 110, and displays the statistical data on the display unit 140 together with the biological information acquired by the biological information acquisition unit 120 or the result of processing the biological information. display.

FIG. 6 shows an example of a screen displayed by the display unit 140 in this modified example. As described above, the display unit 140 displays the biometric information acquired by the biometric information acquisition unit 120 or the result of processing the biometric information together with the statistical data. Therefore, the user can objectively recognize his/her health condition. In addition, in this figure, the data is displayed in a graph format, but the display format of the data is not limited to the graph. For example, the data may be displayed in tabular form.

For example, in the example shown in FIG. 6, the control unit 130 calculates age (hereinafter referred to as estimated age) based on biological information. The statistical data includes regression data (for example, a regression formula) showing the correlation between the estimated age and the actual age. The control unit 130 converts the estimated age of the user of the mobile device 10 into a real age corresponding to this age in the statistical data (hereinafter referred to as the actual age based on the statistical data), and calculates the real age based on the statistical data. may be displayed on the display unit 140. In this case, the user can easily recognize where his or her estimated age is relative to the national average. Note that this conversion may be performed by an external device (for example, the information processing device 20). Also, the estimated age of one's self displayed on the display unit 140 may be corrected so that the slope of the linear regression equation between the actual age of the statistical data and the estimated age becomes one. This correction is performed using, for example, the regression data described above.

Also, the ranking may be determined based on the size of the difference between the estimated age and the actual age. In this case, the statistical data includes statistical information on the difference between the estimated age and the actual age. Then, the control unit 130 calculates the rank of the user of the mobile device 10 according to this statistical information and causes the display unit 140 to display it.

Furthermore, the information processing apparatus 20 may store the results of a questionnaire on what measures were taken by users whose estimated age is lower than their actual age (who succeeded in rejuvenation). In this case, the control unit 130 may receive the questionnaire results from the information processing device 20 and display them on the display unit 140 . This allows the user to know effective anti-aging measures.

FIG. 7 is a flow chart showing an example of the operation of the mobile device 10 in this modified example. In the flowchart shown in this figure, the processing up to step S20 is the same as in the embodiment. After the biometric information acquisition unit 120 acquires the biometric information, the control unit 130 transmits the biometric information acquired by the biometric information acquisition unit 120 or the processing result of the biometric information to the information processing apparatus via the first function unit 110. 20 (step S36). The information processing device 20 can generate the above-described statistical data by having the plurality of mobile devices 10 execute this step.

The information processing device 20 also transmits statistical data to the mobile device 10 . Control unit 130 of portable device 10 receives the statistical data via first function unit 110 (step S37). Then, the control unit 130 causes the display unit 140 to display the statistical data together with the biometric information acquired by the biometric information acquisition unit 120 or the result of processing the biometric information (step S40).

Note that if the information processing device 20 has statistical data in advance, in step S36, the control unit 130 transmits information indicating a request for statistical data instead of transmitting the biological information or the processing result of the biological information. You may transmit to the information processing apparatus 20. FIG.

Further, as shown in FIG. 8, the processing shown in steps S36 and S37 shown in this modified example may be performed between step S32 in FIG. 4 and step S40 in FIG. In the example shown in the figure, the portable device 10 transmits the generated biological information and environmental information to the information processing device 20 (step S26).

In addition, in this modification, when it is necessary to calculate a value indicating the degree of health of the user (for example, bone age, skin age, muscle age, or blood vessel age) from physical property values from biological information, this arithmetic processing is performed by the information processing device. 20 may be performed. In this case, the control unit 130 of the mobile device 10 receives the result of the arithmetic processing from the information processing device 20 via the first function unit 110 .

According to this modified example, the user of the mobile device 10 does not have to perform an operation for obtaining biometric information, as in the embodiment. Therefore, the user's trouble can be reduced. The display unit 140 also displays the user's own biological information or the result of processing the biological information together with the statistical data. Therefore, the user can objectively recognize his/her health condition. Further, as in the embodiment, the biometric information of the user can be measured with high accuracy because the processing is performed using only the biometric information when the environmental information satisfies the criteria.

(Example 1)
FIG. 9 is a plan view of the mobile device 10 according to the first embodiment. 10 is a cross-sectional view taken along line AA of FIG. 9. FIG. In this embodiment, the mobile device 10 is a mobile phone or smart phone and has a housing 150 . The housing 150 is thin and has a display section 140 on its surface. A speaker 160 is provided inside the housing 150 . An opening 152 is provided in a region of the housing 150 that overlaps the speaker 160 . Opening 152 is provided to radiate sound from speaker 160 to the outside of housing 150 . However, if the sound from the speaker 160 can be radiated to the outside through the housing 150, the opening 152 may not be provided.

A recess 154 is provided on the side surface of the housing 150 . The user's finger F is fitted into the concave portion 154 when the user of the mobile device 10 uses the mobile device 10 .

The first electrode 121 and the temperature sensor or humidity sensor of the environmental information acquisition unit 135 are arranged in a region corresponding to the bottom surface of the recess 154 in the side surface of the housing 150 , and the opening 152 in the surface of the housing 150 A second electrode 122 is arranged in a region located near (that is, a region located near speaker 160). The first electrode 121 contacts the user's finger F, and the second electrode 122 contacts a portion of the user's face located near the ear. Also, the environment information acquisition unit 135 acquires environment information from the finger F. FIG. The finger F is, for example, the index finger, but may be the thumb, middle finger, ring finger, or little finger.

Note that the arrangement of the first electrode 121 and the second electrode 122 is not limited to the example shown in FIG. For example, as shown in FIG. 20, the first electrode 121 and the second electrode 122 may be positioned to sandwich any finger (for example, index finger), or may touch different fingers (for example, thumb and index finger). position. Further, as shown in FIG. 21, when the user has a structure in which the user holds the mobile device 10 with both hands (for example, a mobile game machine, etc.), the first electrode 121 and the second electrode 122 are located at positions corresponding to different hands. may be placed in 20 and 21, a temperature sensor for body temperature measurement of the environmental information acquisition unit 135 is arranged near the first electrode 121 or near the second electrode 122. FIG. Note that if the environment information acquisition unit 135 has a clock, a barometer, or the like, the clock or the barometer may be arranged at a location different from the first electrode 121 and the second electrode 122 .

In addition, in the example shown in FIG. 20, when the environment information acquisition unit 135 has a temperature sensor, the environment information acquisition unit 135 may have a heater. In this case, the environmental information acquisition unit 135 may turn on the heater to warm the user's finger when the detected value of the temperature sensor is less than the reference value (that is, when the temperature of the user's finger is less than the reference value). Of course, if the detected value of the temperature sensor is much higher than the reference value, cooling with a Peltier element or the like is also effective.

FIG. 11 is a block diagram showing the functional configuration of the mobile device 10. As shown in FIG. The portable device 10 shown in this figure is the same as the portable device according to the embodiment or its modification, except that the biological information acquisition unit 120 has a first electrode 121, a second electrode 122, and an impedance calculation unit 123. 10 is the same configuration.

The impedance calculator 123 calculates the impedance between the first electrode 121 and the second electrode 122 . Then, the impedance calculator 123 calculates at least one of the user's skin age, body water content, and body fat content by processing this impedance.

According to this example, as in the embodiment, the user of the mobile device 10 does not have to perform an operation for acquiring biometric information. Therefore, the user's trouble can be reduced. Further, as in the embodiment, the biometric information of the user can be measured with high accuracy because the processing is performed using only the biometric information when the environmental information satisfies the criteria.

Also, the impedance of the user's body is measured using the first electrode 121 and the second electrode 122 . The first electrode 121 is arranged on the side surface of the housing 150 and the second electrode 122 is arranged near the opening 152 of the housing 150 . Therefore, the measurement target of the impedance calculator 123 is the portion of the user's body between the fingertip and the ear. Therefore, since the measurement distance (distance between two points) is longer than when measuring the impedance with a finger, the accuracy of the calculation result of the impedance calculator 123 is high.

(Example 2)
FIG. 12 is a plan view of the mobile device 10 according to the second embodiment. FIG. 13 is a block diagram showing the functional configuration of the mobile device 10 shown in FIG. 12. As shown in FIG. The mobile device 10 according to the present embodiment has the same configuration as the mobile device 10 according to the first embodiment, except that the biological information acquisition unit 120 has a light emitting unit 124, a light receiving unit 125, and a calculation unit 126. is.

Both the light emitting portion 124 and the light receiving portion 125 are arranged on the side surface of the recess 154 . Also, the temperature sensor and humidity sensor of the environment information acquisition unit 135 are also arranged on the side surface of the recess 154 . The light emitting section 124 and the light receiving section 125 may or may not face each other. The light emitting unit 124 emits infrared light toward the finger F. The light receiving unit 125 detects the amount of light reflected by the finger F or the amount of light transmitted through the finger F among the light emitted from the light emitting unit 124 . The amount of light referred to here refers to changes in the absorption wavelength of plethysmograms in the case of blood vessel age, and in the absorption wavelength of sugar in blood in the case of blood sugar level measurement. The calculation unit 126 calculates at least one of the user's vascular age and blood sugar level based on the output of the light receiving unit 125 .

According to this example, as in the embodiment, the user of the mobile device 10 does not have to perform an operation for acquiring biometric information. Therefore, the user's trouble can be reduced. Further, as in the embodiment, the biometric information of the user can be measured with high accuracy because the processing is performed using only the biometric information when the environmental information satisfies the criteria.

(Example 3)
FIG. 14 is a cross-sectional view of the mobile device 10 according to the third embodiment. FIG. 15 is a block diagram showing the functional configuration of the mobile device 10 shown in FIG. 14. As shown in FIG. In this embodiment, the mobile device 10 has the same configuration as the mobile device 10 according to the second embodiment except for the following points.

First, the mobile device 10 is a watch-type device. The biological information acquisition section 120 has an oscillation section 127 and a vibration detection section 128 . The oscillator 127 oscillates ultrasonic waves to the arm A of the user. The vibration detection unit 128 detects the strength or speed of ultrasonic waves that have passed through the user's arm. The calculation unit 126 then uses the strength or speed of the ultrasonic waves detected by the vibration detection unit 128 to calculate the user's bone density (that is, bone age). In addition, in the present embodiment, the operation of the biometric information acquisition unit 120 may be performed at the timing when the mobile device 10 is worn on the user's arm, or may be performed using a timer. Also, the temperature sensor and humidity sensor of the environment information acquisition unit 135 are provided on the inner surface of the mobile device 10 (that is, the surface in contact with the arm A).

According to this example, as in the embodiment, the user of the mobile device 10 does not have to perform an operation for acquiring biometric information. Therefore, the user's trouble can be reduced. Further, as in the embodiment, the biometric information of the user can be measured with high accuracy because the processing is performed using only the biometric information when the environmental information satisfies the criteria.

In addition to the measurement of bone density, the watch-type device shown in this embodiment can also measure the above-mentioned body impedance, and measure blood vessel age or blood sugar level using infrared rays. These may be combined as appropriate.

(Example 4)
FIG. 16 is a block diagram showing the functional configuration of the mobile device 10 according to the fourth embodiment. In this example, the mobile device 10 has the same configuration as the mobile device 10 according to the second example except that it has a pedometer 129 instead of the light emitting unit 124 and the light receiving unit 125 .

The calculation unit 126 incorporates a timer. Using the number of steps detected by the pedometer 129 and the timer, the calculation unit 126 calculates the number of steps per unit time of the user. The calculation unit 126 then outputs the number of steps to the control unit 130 . Note that the calculation unit 126 may calculate the walking speed of the user by multiplying the calculated number of steps by the stride length. Here, the stride length is stored in advance in the calculation unit 126 . Then, the control unit 130 can calculate the muscle age of the user based on the number of steps the user walks in a day and the walking speed.

According to this example, as in the embodiment, the user of the mobile device 10 does not have to perform an operation for acquiring biometric information. Therefore, the user's trouble can be reduced. Further, as in the embodiment, the biometric information of the user can be measured with high accuracy because the processing is performed using only the biometric information when the environmental information satisfies the criteria.

(Reference example)
FIG. 17 is a block diagram showing the functional configuration of the mobile device 10 according to the reference example. In this reference example, the mobile device 10 has the same configuration as the mobile device 10 according to the fourth embodiment, except that it has an input unit 170 instead of the calculation unit 126 and the pedometer 129 .

In this reference example, the mobile device 10 has a game function. Also, the input unit 170 is a part where the user inputs to the mobile device 10 . Then, the control unit 130 determines the brain age of the user of the mobile device 10 based on the input timing to the input unit 170 and the like. Control unit 130 may perform specific display on display unit 140 and determine the brain age of the user based on the timing of input to input unit 170 in response to this display.

According to this reference example, the user's brain age can be determined.

(Example 5)
In this embodiment, the biometric information acquisition unit 120 of the mobile device 10 has at least two of the functions shown in the first to fourth embodiments and the reference example. Therefore, the biometric information acquisition unit 120 can acquire a plurality of types of biometric information. Then, the mobile device 10 performs the following processing based on the measurement results of these multiple functions.

18 and 19 are flowcharts for explaining the functions of the mobile device 10 in this embodiment.

FIG. 18 shows the operation when the user uses the mobile device 10 for the first time. First, the biometric information acquisition unit 120 of the mobile device 10 acquires multiple types of biometric information (step S110). The biometric information acquisition unit 120 also processes the acquired biometric information as necessary. Then, the control unit 130 generates data for displaying the biological information acquired by the biological information acquisition unit 120 or information indicating the processing result thereof (step S120), and causes the display unit 140 to perform display using this data. (Step S130). This display includes a plurality of biometric information or results of processing this biometric information. For example, this display includes at least two of bone age, skin age, muscle age, vascular age, and brain age. The displayed biological information or its processing result is stored in the control unit 130 .

The user selects an item (at least one of bone age, skin age, muscle age, blood vessel age, and brain age) desired to be improved based on the results displayed on the display unit 140, and the selection result is input (step S140). The control unit 130 searches for foodstuffs and habits for improving the selection target input in step S140, and displays the search results (step S150). Note that the search range may be the inside of a storage medium that the mobile device 10 has in advance, or an external server (for example, the information processing apparatus 20 shown in FIG. 3).

FIG. 19 shows the operation when the user uses the mobile device 10 for the second and subsequent times. The processing in steps S110 and S120 is the same as the example shown in FIG. Then, the control unit 130 reads the past measurement result or processing result (step S122), and displays the read result on the display unit 140 together with the newly measured measurement result or the processing result (step S130). After that, the user selects an item (at least one of bone age, skin age, muscle age, blood vessel age, and brain age) desired to be improved based on the results displayed on the display unit 140, and selects this item. The selection result is entered (step S140). Then, the control unit 130 searches again for foodstuffs and habits for improving the items currently selected by the user, and displays the search results (step S150).

In the flowcharts shown in FIGS. 18 and 19, when searching for ingredients and habits for improving the selection target input in step S140, the external server searches for ingredients and habits that have been proven to be effective by other users. may be preferentially selected. It should be noted that this proof is made, for example, based on the results of questionnaires to the users.

According to this embodiment, the portable device 10 can present foodstuffs and habits for improving items that the user wants to improve.

Although the embodiments and examples have been described above with reference to the drawings, these are examples of the present invention, and various configurations other than those described above can be adopted.

10 Portable device 110 First function unit 120 Biological information acquisition unit 121 First electrode 122 Second electrode 123 Impedance calculation unit 124 Light emission unit 125 Light reception unit 126 Calculation unit 127 Oscillation unit 128 Vibration detection unit 129 Pedometer 130 Control unit 135 Environmental information Acquisition unit 140 Display unit 150 Housing 152 Opening 154 Recess 160 Speaker 170 Input unit

Claims (1)

A portable device capable of realizing a first function and a second function different from the first function,
a first functional unit that causes the mobile device to implement the first function;
a second function unit that causes the mobile device to implement the second function;
a biometric information acquisition unit that acquires biometric information;
an environment information acquisition unit that acquires environment information indicating an environment in which the biometric information is acquired by the biometric information acquisition unit;
a control unit that controls the biological information acquisition unit based on the environmental information;
with
The biometric information acquisition unit acquires the biometric information while the first function unit is realizing the first function,
The second function unit realizes the second function using the biometric information acquired by the biometric information acquisition unit.
A mobile device characterized by:

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