BIOLOGICAL INFORMATION PROCESSING APPARATUS

A biological information processing apparatus according to an embodiment of the present disclosure includes a generating section and an output section. The generating section generates an analysis result according to a request of a user on a basis of first biological information about a tear, an eyeball, or a line of sight obtained using a contact lens. The output section outputs the analysis result generated by the generating section to an external apparatus.

TECHNICAL FIELD

The present disclosure relates to a biological information processing apparatus.

BACKGROUND ART

In recent years, a method has been developed for acquiring biological information using a contact lens.

CITATION LIST

Patent Literature

SUMMARY OF THE INVENTION

Incidentally, there is a demand for more effective use of biological information acquired using a contact lens. It is therefore desirable to provide a biological information processing apparatus that makes it possible to more effectively use the biological information acquired using the contact lens.

A biological information processing apparatus according to an embodiment of the present disclosure includes a generating section and an output section. The generating section generates an analysis result according to a request of a user on the basis of first biological information about a tear, an eyeball, a line of sight, or opening/closing of an eyelid obtained using a contact lens. The output section outputs the analysis result generated by the generating section to an external apparatus.

In the biological information processing apparatus according to an embodiment of the present disclosure, the analysis result according to the request of the user is generated on the basis of the first biological information about the tear, the eyeball, the line of sight, or the opening/closing of the eyelid obtained using the contact lens. This makes it possible to provide the user with the analysis result effectively usable by the user.

According to the biological information processing apparatus of an embodiment of the present disclosure, the analysis result according to the request of the user is generated on the basis of the first biological information about the tear, the eyeball, the line of sight, or the opening/closing of the eyelid obtained using the contact lens, thus making it possible to more effectively use the biological information acquired using the contact lens. It is to be noted that effects of the present disclosure are not necessarily limited to the effects described above, and may be any of the effects described in the present specification.

MODES FOR CARRYING OUT THE INVENTION

In the following, modes for carrying out the present disclosure are described in detail with reference to the drawings. It is to be noted that the description is given in the following order.1. Embodiment

Example of transmitting data to a data server apparatus via a cradle (FIG. 1toFIG. 8)2. Modification Examples

Modification Example A . . . Example of transmitting data directly to a data server apparatus (FIG. 9)

Modification Example B . . . Example of acquiring biological information from a contact lens and a wearable apparatus (FIG. 10toFIG. 13)

Description is given of a biological information management system1according to an embodiment of the present disclosure.FIG. 1illustrates a schematic configuration example of the biological information management system1. The biological information management system1is a system that performs analysis according to a user request on the basis of biological information of the user and outputs a result thereof to a mobile terminal (external apparatus) possessed by the user or the like.

The biological information management system1includes a contact lens200, a cradle300, a terminal apparatus400, a data server apparatus500, and a web server apparatus600. The cradle300corresponds to a specific example of a “biological information processing apparatus” of the present disclosure. Moreover, the web server apparatus600corresponds to a specific example of a “biological information processing apparatus” of the present disclosure.

The cradle300, the terminal apparatus400, the data server apparatus500, and the web server apparatus600are coupled to one another via a network100. The network100is a communication network that performs communication using a communication protocol (TCP/IP) used as a standard in the Internet, for example. The network100may be, for example, a secure communication network that performs communication using a communication protocol unique to the network. The network100is, for example, the Internet, an intranet, or a local area network. The network100may be, for example, a wired LAN (Local Area Network), or may be a wireless LAN such as Wi-Fi or a mobile phone line.

Meanwhile, the contact lens200performs, for example, short-range wireless communication with the cradle300. The contact lens200performs short-range wireless communication with the cradle300, for example, in a state of being fixed to a predetermined location in a casing of the cradle300. Communication between the contact lens200and the cradle300is performed on the basis of, for example, ISO/IEC14443 (international standard specification of proximity RFID), ISO/IEC18092 (international specification of wireless communication referred to as NFC), ISO/IEC15693 (international standard specification of RFID), Bluetooth (Bluetooth (registered trademark)), or the like.

FIG. 2illustrates an example of functional blocks of the contact lens200. The contact lens200includes, for example, a storage section210, a sensor section220, a communication section230, and a control section240.

The communication section230performs short-range wireless communication with the cradle300. The storage section210includes, for example, a non-volatile memory, such as an EEPROM (Electrically Erasable Programmable Read-Only Memory), a flash memory, a resistive random-access memory, or the like. The storage section210stores therein a program (e.g., a processing program212) to be executed by the control section240, and the like. The processing program212is a program for acquiring detection data211that is biological information from the sensor section220and for outputting the acquired detection data211to the cradle300via the communication section230. The detection data211is data obtained using the contact lens200, and is specifically biological information detected by the sensor section220. The control section240includes a processor, and executes the processing program212stored in the storage section210, for example. A function of the control section240is achieved by, for example, the control section240executing the processing program212.

The sensor section220obtains biological information of a user wearing the contact lens200. The sensor section220is a device that detects a specific component (e.g., salt, oxygen, fat, or glucose level) contained in a tear, for example. In this case, the data (detection data211) obtained by being detected by the sensor section220is information (first biological information) about the component of a tear. It is to be noted that the sensor section220may be, for example, a device that detects a line of sight, a device that detects a state of a blood vessel in an eyeball, a device that detects a pulse of the blood vessel in the eyeball, or a device that detects an intraocular pressure. In a case where the sensor section220is the device that detects the line of sight, the detection data211is the biological information (first biological information) about the line of sight. In a case where the sensor section220is the device that detects the state of the blood vessel in the eyeball, the detection data211is the information (first biological information) about the blood vessel in the eyeball. In a case where the sensor section220is the device that detects the intraocular pressure, the detection data211is the information (first biological information) about the intraocular pressure. The sensor section220may be, for example, a device that detects opening/closing of an eyelid. In a case where the sensor section220is the device that detects the opening/closing of the eyelid, the detection data211is the information (first biological information) about the opening/closing of the eyelid.

FIG. 3illustrates an example of functional blocks of the cradle300. The cradle300includes, for example, a storage section310, a holding section320, communication sections330and340, and a control section350. The holding section320corresponds to a specific example of a “holding section” of the present disclosure. The control section350and the communication section330correspond to a specific example of an “acquiring section” of the present disclosure. The control section350and the communication section340correspond to a specific example of an “output section” of the present disclosure.

The holding section320is provided inside the casing of the cradle300, and holds the contact lens200. The communication section330performs short-range wireless communication with the contact lens200held by the holding section320. Specifically, the communication section330acquires the detection data211that is biological information from the storage section210of the contact lens200held by the holding section320. The communication section340performs communication with the web server apparatus600via the network100. Specifically, the communication section340outputs the detection data211obtained by the communication section330to the web server apparatus600via the network100.

The storage section310includes, for example, a non-volatile memory, such as an EEPROM, a flash memory, a resistive random-access memory, or the like. The storage section310stores therein a program (e.g., a processing program311) to be executed by the control section350, and the like. The processing program311is a program for acquiring the detection data211from the contact lens200via the communication section330and for outputting the acquired detection data211to the web server apparatus600via the communication section340and the network100. The control section350includes a processor, and executes the processing program311stored in the storage section310, for example. A function of the control section350is achieved by, for example, the control section350executing the processing program311.

FIG. 4illustrates an example of functional blocks of the terminal apparatus400. The terminal apparatus400is a terminal apparatus used for allowing the user to input a request required for analysis of biological information and for displaying an analysis result according to the user request. The terminal apparatus400includes an interface for accepting a request from the user and displaying the analysis result according to the user request. The terminal apparatus400includes, for example, a storage section410, a communication section420, an acceptance section430, a display section440, and a control section450.

The acceptance section430includes a keyboard, a touch panel, or the like. The display section440performs display on the basis of an image signal inputted from the control section450. In a case where the display section440has a function of the touch panel, the function of the touch panel may assume a function of the acceptance section430. The storage section410stores therein a program (e.g., a web browser program412and an operating system) to be executed by the control section450, and the like. The storage section410stores therein request data411and analysis data611.

The request data411is data about a request accepted from the user. The request from the user includes, for example, a request for management of performance or condition (hereinbelow, referred to as “request A”) based on the biological information (first biological information) of the user. It is to be noted that the request from the user may include a request for a proposal of a training menu, a food menu, or a nutrition menu (hereinbelow, referred to as “request B”) based on the biological information (first biological information) of the user. Moreover, the request from the user may include a request for a notice of presence/absence of a symptom of a disease (hereinbelow, referred to as “request C”) based on the first biological information of the user.

The analysis data611is data about analysis result according to the request data411. In a case where the request data411is the “request A,” the analysis data611is data about the performance or the condition of the user. In a case where the request data411is the “request B,” the analysis data611is data about the proposal of the training menu, the food menu, or the nutrition menu for the user. In a case where the request data411is the “request C,” the analysis data611is data about the symptom of the disease of the user.

The control section450includes a processor, and executes the web browser program412, the operating system, and the like stored in the storage section410. The communication section420communicates with another apparatus (such as the web server apparatus600and the cradle300) inside the biological information management system1via the network100. A user interface (display section440) in the terminal apparatus400is achieved by, for example, processing an application (e.g., html data) acquired from the web server apparatus600with the web browser program412.

FIG. 5illustrates an example of functional blocks of the data server apparatus500. The data server apparatus500is, for example, an apparatus for storing therein the detection data211obtained using the contact lens200and the analysis data611obtained by data processing in the web server apparatus600.

The data server apparatus500includes, for example, a storage section510, a communication section520, and a control section530. The control section530stores in the storage section510information inputted from the outside via the communication section520and outputs information read out from the storage section510to the outside via the communication section520. The communication section520communicates with another apparatus via the network100. The storage section510includes, for example, a non-volatile memory, such as an EEPROM, a flash memory, a resistive random-access memory, or the like. The storage section510stores therein, for example, the detection data211and the analysis data611.

FIG. 6illustrates an example of functional blocks of the web server apparatus600. The web server apparatus600provides a user interface in the terminal apparatus400. The web server apparatus600further generates the analysis result (analysis data611) according to the request data411accepted from the user on the basis of the detection data211obtained using the contact lens200. The web server apparatus600includes, for example, a storage section610, a communication section620, and a control section630. The control section630corresponds to a specific example of a “generating section” of the present disclosure. The control section630and the communication section620correspond to a specific example of the “output section” of the present disclosure.

The communication section620communicates with another apparatus (e.g., the data server apparatus500, the terminal apparatus400, and the like) inside the biological information management system1via the network100. The storage section610includes, for example, a non-volatile memory, such as an EEPROM, a flash memory, a resistive random-access memory, or the like. The storage section610stores therein a program (e.g., a web server program612and a web application program613) to be executed by the control section630. The web application program613is an application program used via the network100. The web application program613is a program that generates the analysis result (analysis data611) according to the request data411accepted from the user on the basis of the detection data211obtained using the contact lens200. The web application program613is operated by the web server program612and the web browser program412cooperating with each other.

The control section630includes a processor, and executes the web server program612, the web application program613, and the like stored in the storage section610, for example. A function of the control section630is achieved by, for example, the control section630executing the web server program612and the web application program613. Specifically, the control section630may generate the analysis result (analysis data611) according to the request data411accepted from the user on the basis of the detection data211obtained using the contact lens200.

The control section630may generate, when the detection data211satisfies a predetermined condition, a control signal630A for notifying thereof, and output the generated control signal630A to the terminal apparatus400via the communication section520. The “predetermined condition” refers to, for example, a condition that requires attention drawing for the performance or the condition of the user. The control signal630A is, for example, text data that draws attention.

Next, a procedure of storing the detection data211in the biological information management system1is described.

FIG. 7illustrates an example of a procedure of transmitting and receiving the detection data211in the biological information management system1. The user first puts the contact lens200on his or her eyeball. Thereafter, the sensor section220acquires the biological information (detection data211) of the user in the contact lens200(Step S101). In a case where the sensor section220is the device that detects the specific component (e.g., salt, oxygen, fat, or glucose level) contained in a tear, the detection data211is the biological information about the tear. In a case where the sensor section220is the device that detects the line of sight, the detection data211is the biological information about the line of sight. In a case where the sensor section220is the device that detects the state of the blood vessel in the eyeball, the detection data211is the biological information about the eyeball. In a case where the sensor section220is the device that detects the intraocular pressure, the detection data211is the biological information about the eyeball. In a case where the sensor section220is the device that detects the opening/closing of an eyelid, the detection data211is the biological information about the opening/closing of the eyelid.

The sensor section220transmits the acquired biological information (detection data211) to the cradle300(Step S102). When receiving the detection data211from the sensor section220(Step S103), the cradle300transmits the received detection data211to the data server apparatus500(Step S104). When receiving the detection data211from the cradle300(Step S105), the data server apparatus500stores the received detection data211in the storage section510(Step S106).

Next, a procedure of analyzing the detection data211in the biological information management system1is described.

FIG. 8illustrates an example of a procedure of analyzing the detection data211in the biological information management system1. The user first requests the terminal apparatus400to display the user interface for inputting a request. The terminal apparatus400then displays the user interface for inputting the request on the display section440by processing an application acquired from the web server apparatus600with the web browser program412. The user inputs the request data411using the displayed user interface and the acceptance section430. When accepting the request data411inputted by the user (Step S201), the terminal apparatus400transmits the accepted request data411to the web server apparatus600(Step S202).

When receiving the request data411from the terminal apparatus400(Step S203), the web server apparatus600reads out the detection data211corresponding to contents of the received request data411from the data server apparatus500(Step S204). The web server apparatus600generates the analysis result (analysis data611) according to the request data411on the basis of the read-out detection data211(Step S205). The web server apparatus600transmits the generated analysis data611to the terminal apparatus400(Step S206). When receiving the analysis data611from the web server apparatus600(Step S207), the terminal apparatus400displays the received analysis data611on the display section440(Step S208).

Next, effects of the biological information management system1according to the present embodiment are described.

In the present embodiment, the analysis data611according to the request data411is generated on the basis of the detection data211about a tear, an eyeball, a line of sight, or opening/closing of an eyelid obtained using the contact lens200. This makes it possible to provide the user with the analysis result (analysis data611) effectively usable by the user. As a result, the user is allowed to manage the performance or the condition of the user himself or herself on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Moreover, in the present embodiment, the detection data211includes information about a component of the tear, the blood vessel in the eyeball, the intraocular pressure, the line of sight, or the opening/closing of the eyelid. This allows the analysis data611to be obtained on the basis of the component of the tear, the blood vessel in the eyeball, the intraocular pressure, the line of sight, or the opening/closing of the eyelid, thus enabling the user to manage the performance or the condition of the user himself or herself on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Moreover, in the present embodiment, in a case where the request data411is the “request A,” it is possible to obtain the analysis result (analysis data611) allowing for effective management of the performance or the condition of the user. As a result, the user is allowed to manage the performance or the condition of the user himself or herself on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Moreover, in the present embodiment, in a case where the request data411is the “request B,” it is possible to obtain the analysis result (analysis data611) allowing for effective management of the training, the food, or the nutrition of the user. As a result, the user is allowed to manage the training, the food, or the nutrition of the user on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Moreover, in the present embodiment, in a case where the request data411is the “request C,” it is possible to obtain the analysis result (analysis data611) allowing for effective management of the symptom of the disease of the user. As a result, the user is allowed to manage the symptom of the disease of the user on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Moreover, in the present embodiment, when the detection data211satisfies a predetermined condition, the control section530generates the control signal630A for notifying thereof, and in a case where the generated control signal630A is outputted to the terminal apparatus400via the communication section520, it is possible to promptly notify the user that the detection data211satisfies the predetermined condition. As a result, the user is allowed to effectively manage a change (accident) in the performance or the condition of the user on the basis of the control signal630A, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Moreover, in the present embodiment, the detection data211is acquired from the storage section210of the contact lens200held by the holding section320in the cradle300, and the acquired detection data211is outputted to the web server apparatus600. This makes it possible to reduce signal strength and power consumption required from the contact lens200as compared with a case of transmitting the detection data211to the data server apparatus500without using the cradle300. Accordingly, it is possible to manage the performance or the condition of the user at lower cost.

Moreover, in the present embodiment, the detection data211is acquired from the storage section210of the contact lens200through the short-range wireless communication in the cradle300. This makes it possible to reduce the signal strength and the power consumption required from the contact lens200as compared with the case of transmitting the detection data211to the data server apparatus500without using the cradle300. Accordingly, it is possible to manage the performance or the condition of the user at lower cost.

Moreover, in the present embodiment, the detection data211acquired by the control section350in the cradle300is outputted to the web server apparatus600via the communication network100. This makes it possible to transmit the detection data211to the data server apparatus500more reliably as compared with the case of transmitting the detection data211to the data server apparatus500without using the cradle300. Accordingly, it is possible to manage the performance or the condition of the user more reliably.

2. MODIFICATION EXAMPLES

Modification Example A

In the above-described embodiment, the contact lens200may not have the storage section210, the sensor section220, the communication section230, and the control section240, but have a structure for storing tears therein. In this case, the cradle300may have, instead of the communication section330, for example, a light source that emits light to the tears stored in the contact lens200held by the holding section320and a light receiving section that detects light having passed through the tears from among the light emitted to the tears from the light source. Furthermore, in the cradle300having the light source and the light receiving section, the control section350may analyze concentration of the specific component (e.g., salt, oxygen, fat, or glucose level) contained in the tear, for example, on the basis of a detection signal outputted from the light receiving section as a result of detection of light in the light receiving section. In a case where the cradle300has such a configuration, it is possible to effectively manage the performance or the condition of the user while minimizing an influence on a human body, as compared with a case where the contact lens200has a communication function.

Modification Example B

In the above-described embodiment, the contact lens200may be configured to communicate directly with the data server apparatus500via the network100without the cradle300as illustrated inFIG. 9, for example. Even in such a case, it is possible to provide the user with the analysis result (analysis data611) effectively usable by the user, thus making it possible to more effectively use the biological information (detection data211) acquired using the contact lens200.

Modification Example C

In the above-described embodiment, the control section630may be configured to further generate an advice630B according to the request data411on the basis of the detection data211and output the generated advice630B to the terminal apparatus400via the communication section620. In this case, for example, it is possible to obtain an advice useful for improving the performance or the condition of the user without the need for the user himself or herself to consider the analysis data611, for example. Accordingly, it is possible to effectively manage the performance or the condition of the user, for example.

Modification Example D

In the above-described embodiment, the biological information management system1may further include a wearable apparatus700wearable by the user as illustrated inFIG. 10, for example. The wearable apparatus700is, for example, a watch, a head gear, a bracelet, an anklet, a necklace, an earring, or a shoe incorporating an electronic component as illustrated inFIG. 11described below.

FIG. 11illustrates an example of functional blocks of the wearable apparatus700. The wearable apparatus700is configured to communicate with the data server apparatus500via the network100. The wearable apparatus700includes, for example, a storage section710, a sensor section720, a communication section730, and a control section740.

The communication section730communicates with the web server apparatus600via the network100. Specifically, the communication section730outputs detection data711generated by the sensor section720to the web server apparatus600via the network100. The storage section710includes, for example, a non-volatile memory, such as an EEPROM, a flash memory, a resistive random-access memory, or the like. The storage section710stores therein a program (e.g., a processing program712) to be executed by the control section740. The processing program712is a program for acquiring the detection data711that is biological information from the sensor section720and for outputting the acquired detection data711to the data server apparatus500via the communication section730and the network100. The detection data711is data obtained using the wearable apparatus700(sensor section720), and is specifically biological information detected by the sensor section720. The control section740includes a processor, and executes the processing program712stored in the storage section710, for example. A function of the control section740is achieved by, for example, the control section740executing the processing program712.

The sensor section720acquires the biological information of the user wearing the wearable apparatus700. The sensor section720is a device that detects, for example, a brain wave, a pulse, body temperature, sweat, or a posture of the user. In this case, the data (detection data711) obtained by being detected by the sensor section720is information (second biological information) about the brain wave, the pulse, the body temperature, the sweat, or the posture.

Next, a procedure of storing the detection data in the biological information management system1according to the present modification example is described.

FIG. 12illustrates an example of a procedure of transmitting and receiving the detection data211in the biological information management system1according to the present modification example. The user first puts the wearable apparatus700on his or her eyeball. Thereafter, the sensor section720acquires the biological information (detection data711) of the user in the wearable apparatus700(Step S301). In a case where the sensor section720is the device that detects the brain wave, the detection data711is the biological information about the brain wave. In a case where the sensor section720is the device that detects the pulse, the detection data711is the biological information about the pulse. In a case where the sensor section720is the device that detects the body temperature, the detection data711is the biological information about the body temperature. In a case where the sensor section720is the device that detects the sweat, the detection data711is the biological information about the sweat. In a case where the sensor section720is the device that detects the posture, the detection data711is the biological information about the posture.

The sensor section720transmits the acquired biological information (detection data711) to the data server apparatus500via the network100(Step S302). When receiving the detection data711from the wearable apparatus700(Step S303), the data server apparatus500stores the received detection data711in the storage section510(Step S304).

Next, a procedure of analyzing the detection data in the biological information management system1according to the present modification example is described.

The user first requests the terminal apparatus400to display the user interface for inputting a request. The terminal apparatus400then displays the user interface for inputting the request on the display section440by processing the application acquired from the web server apparatus600with the web browser program412. The user inputs the request data411using the displayed user interface and the acceptance section430. When accepting the request data411inputted by the user (Step S201,FIG. 8), the terminal apparatus400transmits the accepted request data411to the web server apparatus600(Step S202,FIG. 8).

When receiving the request data411from the terminal apparatus400(Step S203,FIG. 8), the web server apparatus600reads out the detection data211and711corresponding to the contents of the received request data411from the data server apparatus500(Step S204,FIG. 8). The web server apparatus600generates the analysis result (analysis data611) according to the request data411on the basis of the read-out detection data211and711(Step S205,FIG. 8). The web server apparatus600transmits the generated analysis data611to the terminal apparatus400(Step S206,FIG. 8). When receiving the analysis data611from the web server apparatus600(Step S207,FIG. 8), the terminal apparatus400displays the received analysis data611on the display section440(Step S208,FIG. 8).

Next, effects of the biological information management system1according to the present modification example are described.

In the present modification example, the analysis data611according to the request data411is generated on the basis of the detection data211obtained using the contact lens200and the detection data711obtained using the wearable apparatus700worn by the user. This makes it possible to provide the user with the analysis result (analysis data611) effectively usable by the user. As a result, the user is allowed to manage the performance or the condition of the user himself or herself on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200and the information (detection data711) acquired using the wearable apparatus700.

In the present modification example, the detection data711includes the information about the brain wave, the pulse, the body temperature, the sweat, or the posture. This allows the analysis data611to be obtained on the basis of the brain wave, the pulse, the body temperature, the sweat, or the posture, thus enabling the user to manage the performance or the condition of the user himself or herself on the basis of the analysis data611, for example. Accordingly, it is possible to more effectively use the biological information (detection data211) acquired using the contact lens200and the information (detection data711) acquired using the wearable apparatus700.

In the present modification example, the control section530may be configured to further generate the advice630B according to the request data411on the basis of the detection data211and output the generated advice630B to the terminal apparatus400via the communication section520. In this case, for example, it is possible to obtain an advice useful for improving the performance or the condition of the user without the need for the user himself or herself to consider the analysis data611, for example. Accordingly, it is possible to effectively manage the performance or the condition of the user, for example.

In the present modification example, the contact lens200may be configured to communicate directly with the data server apparatus500via the network100without the cradle300as illustrated inFIG. 13, for example. Even in such a case, it is possible to provide the user with the analysis result (analysis data611) effectively usable by the user, thus making it possible to more effectively use the biological information (detection data211) acquired using the contact lens200and the information (detection data711) acquired using the wearable apparatus700.

Although the present disclosure has been described hereinabove with reference to the embodiment and modification examples thereof, the present disclosure is not limited to the above-described embodiment, etc., and may be modified in a variety of ways.

In the above-described embodiment and the modification examples thereof, the sensor section720acquires the biological information of the user wearing the wearable apparatus700. However, in the above-described embodiment and the modification examples thereof, the sensor section720may acquire impact, speed, moving distance, or oxygen concentration in the atmosphere. In this case, the web server apparatus600(control section630) estimates an amount of exercise and an action (e.g., exercise contents, work contents, a state such as being bedridden or hospitalized) of the user on the basis of at least one of the impact, the speed, the moving distance, or the oxygen concentration in the atmosphere stored as the detection data711in the data server apparatus500. The sensor section720may further acquire a voice of the user. In this case, the web server apparatus600(control section630) determines the situation of the user on the basis of at least one of the impact, the speed, the moving distance, and the oxygen concentration in the atmosphere stored as the detection data711in the data server apparatus500as well as the voice, and then estimates the amount of exercise and the action (e.g., exercise contents, work contents, the state such as being bedridden or hospitalized) of the user.

The web server apparatus600(control section630) transmits information about the estimated amount of exercise and the estimated action of the user, as the analysis data611, to the terminal apparatus400. As a result, the user is allowed to perform, for example, management of actions of the user in a day and consideration on lacking exercise and rehabilitation.

It is to be noted that the effects described in the present specification are merely exemplary. The effects of the present disclosure are not limited to those described in the present specification. The present disclosure may have any other effects than those described in the present specification.

In addition, for example, the present technology may have the following configurations.(1)

A biological information processing apparatus including:

a generating section that generates an analysis result according to a request of a user on a basis of first biological information about a tear, an eyeball, a line of sight, or opening/closing of an eyelid obtained using a contact lens; and

an output section that outputs the analysis result generated by the generating section to an external apparatus.(2)

The biological information processing apparatus according to (1), in which the first biological information includes information about a component of the tear, a blood vessel in the eyeball, an intraocular pressure, the line of sight, or the opening/closing of the eyelid.(3)

The biological information processing apparatus according to (1) or (2), in which the request includes management of performance or a condition of the user based on the first biological information.(4)

The biological information processing apparatus according to (1) or (2), in which the request includes a proposal of a training menu, a food menu, or a nutrition menu of the user based on the first biological information.(5)

The 1 biological information processing apparatus according to (1) or (2), in which the request includes a notice of presence/absence of a symptom of a disease of the user based on the first biological information.(6)

The biological information processing apparatus according to (5), in which

the generating section generates, when the first biological information satisfies a predetermined condition, a control signal for notifying thereof, and

the output section outputs the control signal generated by the generating section to the external apparatus.(7)

the generating section further generates an advice according to the request on the basis of the first biological information, and

the output section outputs the advice generated by the generating section to the external apparatus.(8)

The biological information processing apparatus according to any one of (1) to (6), in which the generating section generates the analysis result on a basis of the first biological information and second biological information obtained using a wearable apparatus worn by the user.(9)

The biological information processing apparatus according to (8), in which the second biological information includes information about a brain wave, a pulse, body temperature, sweat, or a posture.(10)

The biological information processing apparatus according to (8) or (9), in which

the generating section further generates an advice according to the request on the basis of the first biological information and the second biological information, and

the output section outputs the advice generated by the generating section to the external apparatus.

This application claims the benefit of Japanese Priority Patent Application JP2017-199361 filed with the Japanese Patent Office on Oct. 13, 2017, the entire contents of which are incorporated herein by reference.