WO2016021235A1 - Information processing system, information processing device, information processing program, and information processing method - Google Patents

Information processing system, information processing device, information processing program, and information processing method Download PDF

Info

Publication number
WO2016021235A1
WO2016021235A1 PCT/JP2015/061273 JP2015061273W WO2016021235A1 WO 2016021235 A1 WO2016021235 A1 WO 2016021235A1 JP 2015061273 W JP2015061273 W JP 2015061273W WO 2016021235 A1 WO2016021235 A1 WO 2016021235A1
Authority
WO
WIPO (PCT)
Prior art keywords
information
user
sleep
game
information processing
Prior art date
Application number
PCT/JP2015/061273
Other languages
French (fr)
Japanese (ja)
Inventor
由里絵 服部
誠宏 近藤
Original Assignee
任天堂株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to PCT/JP2014/070931 priority Critical patent/WO2015107710A1/en
Priority to JPPCT/JP2014/070931 priority
Priority to JPPCT/JP2014/078827 priority
Priority to JPPCT/JP2014/078824 priority
Priority to PCT/JP2014/078829 priority patent/WO2015107748A1/en
Priority to JPPCT/JP2014/078829 priority
Priority to PCT/JP2014/078828 priority patent/WO2015107747A1/en
Priority to PCT/JP2014/078827 priority patent/WO2015107746A1/en
Priority to JPPCT/JP2014/078828 priority
Priority to JPPCT/JP2014/078826 priority
Priority to PCT/JP2014/078824 priority patent/WO2015107743A1/en
Priority to PCT/JP2014/078825 priority patent/WO2015107744A1/en
Priority to JPPCT/JP2014/078825 priority
Priority to PCT/JP2014/078826 priority patent/WO2015107745A1/en
Application filed by 任天堂株式会社 filed Critical 任天堂株式会社
Priority claimed from JP2016540128A external-priority patent/JP6392875B2/en
Priority claimed from PCT/JP2015/069653 external-priority patent/WO2016021361A1/en
Publication of WO2016021235A1 publication Critical patent/WO2016021235A1/en

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Detecting, measuring or recording for diagnostic purposes; Identification of persons
    • A61B5/103Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
    • A61B5/11Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Detecting, measuring or recording for diagnostic purposes; Identification of persons
    • A61B5/16Devices for psychotechnics; Testing reaction times ; Devices for evaluating the psychological state
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F13/00Video games, i.e. games using an electronically generated display having two or more dimensions
    • A63F13/20Input arrangements for video game devices
    • A63F13/21Input arrangements for video game devices characterised by their sensors, purposes or types
    • A63F13/212Input arrangements for video game devices characterised by their sensors, purposes or types using sensors worn by the player, e.g. for measuring heart beat or leg activity

Abstract

The purpose of the invention is to simplify user operations. An information processing system executes an application such as a game application or the like. The information processing system acquires user information for calculating information pertaining to user sleep and determines a state pertaining to user sleep on the basis of the acquired user information. The information processing system determines, for example, when the user has woken up and when the user has left bed. The information processing system executes a prescribed information process in the application in coordination with a state pertaining to user sleep.

Description

Information processing system, an information processing apparatus, information processing program, and information processing method

The present invention relates to an information processing system for measuring the health information of the user, the information processing apparatus, information processing program, and an information processing method.

Conventionally, to measure the user's sleep, there is a technique of performing an analysis of the user's sleep based on the measurement result (e.g., see Patent Document 1).

JP 2013-168026 JP

A system for measuring the information about the user's health, such as the sleep, it is preferable to simplify the operation by the user.

It is therefore an object of the present invention, an information processing system, an information processing apparatus, information processing program can be simplified user operation in a system that measures the health information of the user, and to provide an information processing method it is.

In order to solve the above problems, the present invention adopts the following configurations (1) to (27).

(1)
An example of the present invention is an information processing system for executing an application. The information processing system comprises an acquiring unit, a sleep determining means, and a process execution means. Acquiring means acquires user information for calculating information about sleep users. Sleep determining means determines the state associated with the user's sleep based on the acquired user information. Processing execution means, the predetermined information processing in the application, run in conjunction with the state regarding sleep of the user.

(2)
Process execution means may automatically initiate the execution of a predetermined processing in response to the user's state is discriminated that a condition exists by sleep determining means.

(3)
Acquisition means may sequentially acquire the user information in real time in a given time period. Sleep determining means, based on the acquired user information may be sequentially determining the state regarding sleep of the user. Processing execution means may initiate the execution of a predetermined processing in response to the user's state is discriminated that a condition exists by sleep determining means.

(4)
Sleep determining means may be calculated based on the health information about sleep and / or fatigue of the user in the user information. Process execution means may execute the predetermined processing by using the health information as input to the application.

(5)
Processing execution means may parameters relating to objects appearing in the application to determine based on the health information also executes a predetermined information processing.

(6)
The application may be a game application. Processing execution means, as the predetermined processing may be performed based health predetermined game process in the game application.

(7)
Acquiring means may acquire the user information in the plurality of sleep periods of the user. Sleep determining means, for each of the plurality of sleep periods of the user, may be calculated each health information based on the user information. Processing executing means, and health information on the latest sleep periods may be than the sleep period based on a result of comparison between the information based on the health information for the previous sleep period performs a predetermined information processing.

(8)
The information processing system may be capable of accessing a storage unit for storing health information for a plurality of users. Processing executing means, and health information calculated by the sleep determining means may be based on a comparison result between health information about other users stored in the storage unit also executes a predetermined game process.

(9)
The information processing system on the basis of the health information may further comprise a presentation means for presenting to a user and generates advice information and / or recommendation information to improve the content of the health information indicates.

(10)
The application may be a game application. Processing execution means, as the predetermined processing, may execute the game process of advancing the game story.

(11)
The application may be a game application. Processing execution means, as the predetermined processing, may execute the game process to impart a benefit in the game.

(12)
The application may be a game application. Process executing means sets the game parameters based on the health information about sleep and / or fatigue of a user may perform a predetermined game process as predetermined information processing by using the game parameter.

(13)
Sleep determining means may determine that the user has awake or ambulation. The information processing system in response to the user is determined to awake or lifting, to start accepting instruction input to start execution of a predetermined awake games, when there is the instruction input, the operation input of the user it may further comprise a wakefulness game processing means for executing a wakefulness game processing based on.

(14)
The application may be a game application. Sleep determining means may be calculated based on the health information about sleep and / or fatigue of the user in the user information. Process execution means may execute the game processing using the health information as input to the game application. Sleep determining means, when the awakening when the game is executed, may be reflected the results of the awakening when the game to health information.

(15)
Sleep determining means, on condition that the time when the user is determined to awake or ambulation is within the predetermined time period, may accept an instruction input to start execution of the awake game.

(16)
The application may be a game application. Processing execution means may execute the game processing based on the result of the awakening when the game and health information.

(17)
The information processing system includes a user input performed in wakefulness game processing, based on the status related sleep of the user, may further include fatigue calculating means for calculating information related to fatigue of the user.

(18)
The application may be a game application. Sleep determining means may be calculated based on the health information about sleep and / or fatigue of the user in the user information. Process execution means is configured to present the user with some information of the health information as a game element, the same or different health information with the part of the health information may be presented to the user as an index indicating the health .

(19)
Sleep determining means, that the user was entering Nemushi, and / or may determine that it has awakened.

(20)
Sleep determining means, that the user has-bed, and / or may determine that it has liftoff.

(21)
Sleep determining means, as a state regarding sleep of the user, the following 1. To 15. Of it may determine at least one.
1. Time from the input floor to fall asleep,
2. Time until the mobilization from awakening,
3. In the period from when the input Nemushi until a predetermined time, the percentage of time that the sleep depth state,
4. In the period from onset of arousal before a predetermined time, the percentage of time that sleep is in a shallow state,
5. The period of REM sleep,
6. The ratio of the time of time and non-REM sleep REM sleep,
7. time of sleeping,
8. The difference between the actual fall-asleep timing and the fall-asleep timing of the ideal,
9. The difference between the actual awakening timing and the ideal of the wake-up timing,
10. The number of arousal,
11. The timing of arousal,
12. Time of arousal,
13. The number of rolling over,
14. The size of the snoring, and 15. Environment during sleep

(22)
The information processing system includes a sensor and a terminal device comprising a display device may comprise a server capable of communicating via the terminal device and the network. Terminal apparatus acquires the user information from the sensors, displays on the display device an image representing the result of a predetermined information processing, the server may accumulate the data based on the state related to the sleep of the user.

(23)
The information processing system may further comprise a notification means for performing notification to prompt arousal to a user.

(24)
Acquisition means, the user's pulse, respiration, and may acquire the user information from the sensor to detect at least one of the body movement.

(25)
The information processing system may further comprise a sensor for detecting biological information of the user in a state not contacting the user. Obtaining means, from the sensor may obtain the biometric information as the user information.

(26)
Sensor receives the reflected wave sends out radio waves or sound waves toward a detection target may output the biological information based on the results received.

(27)
The sensor may be a Doppler sensor.

Incidentally, another example of the present invention, the above (1) an information processing apparatus included in an information processing system according to (27) (e.g., mobile terminal) may be a or the server. Further, another example of the present invention, the information processing apparatus or the server computer may be an information processing program to function as some of the means in the above (1) to (27). Further, another example of the present invention may be an information processing method executed the information processing system, the information processing apparatus or the server.

According to the present invention, it is possible to simplify the operation of the user in a system for measuring the health information of the user.

Block diagram illustrating an example of a configuration of an information processing system in the embodiment It illustrates an example of a detailed configuration of a terminal system 2 Diagram showing an example of an external view of a terminal system 2 It illustrates an example of a flow of operation of the terminal system in the sleep period Functional block diagram illustrating an example of a functional configuration for calculating the health information in the processing unit 11 of the portable terminal 5 It illustrates an example of a flow of the game processing in this embodiment It illustrates an example of a game image to be presented to the user upon awakening the mobile terminal (referred to as wakefulness game image) It illustrates an example of a game image displayed when performing simple display of health information (referred to as a simple display image) It illustrates an example of a standby image Diagram showing an example of a detailed display image Diagram showing another example of a detailed display image Diagram illustrating an example of lifting the game image displayed on the mobile terminal when the user's ambulation Illustrates an example of a-bed when the game image displayed on the mobile terminal when the user of the incoming floor It illustrates an example of a replay game image Flow chart illustrating an example of the measuring the flow of the processing executed in the mobile terminal 5 Flow chart illustrating an example of wakefulness the flow of the processing executed in the mobile terminal 5 Flow chart illustrating an example of a medium processing flow day executed in the mobile terminal 5 Flow chart illustrating an example of a-bed when the flow of the processing executed in the mobile terminal 5 Flow chart illustrating an example of the flow of processing executed in the server Diagram illustrating an example of a data structure of the user data stored in the server in the embodiment It illustrates an example of a game image displayed in the modified example of the embodiment Diagram showing an example of an image displayed in the modified example of the embodiment

[1. Configuration of Information Processing System]
Hereinafter, with reference to the drawings, an information processing system according to the present embodiment, the information processing apparatus, information processing program, an information processing method will be described. First, a description will be given of the overall configuration of an information processing system according to this embodiment. Figure 1 is a block diagram showing an example of a configuration of an information processing system in this embodiment. 1, the information processing system 1 includes a terminal system 2, and a server 3. Terminal system 2 and the server 3 can communicate with each other via a network 4 such as the Internet or mobile communication network. Although it is shown only one terminal system 2 in FIG. 1, in the present embodiment, the information processing system 1 includes a plurality of terminal systems provided respectively for each user. The information processing system in this embodiment is intended to allow the user to perform health management own a game.

Terminal system 2 performs health management of the user. Details will be described later, the terminal system 2, the user during sleep, as health information about the health and / or body of the user, and calculates information relating to sleep and fatigue. In the present embodiment, the terminal system 2 has a mobile terminal 5 and the base unit 6, based on the information base device 6 is detected by the sensor, the portable terminal 5 calculates the health information (Fig. 1 reference). The terminal system 2, the calculation result, and presents information based on the calculation result (e.g., advice, etc.) to the user.

In the present embodiment, the terminal system 2, to incorporate elements of Gamification health management of the user, executes the game application. That is, the terminal system 2, by executing the game application, performs a game process of the game inputs the health information (see FIG. 1). The terminal system 2 uploads the information of the health information and game results to the server 3 (see FIG. 1).

Server 3 (it can be said storing) storing information uploaded from the terminal system 2. In the present embodiment, the server 3, a plurality of terminal systems, information about each user (e.g., information of the health information and game results) acquires and stores the. The server 3, based on the stored information, to provide network services to users. Server 3, for example, according to the state of the user's sleep and fatigue, information for network service (e.g., service information) to the to the terminal system 2 (see FIG. 1). Service information, for example, (may be a privilege in a network service may be a privilege in the game application) Award granted to users is information about. The service information includes information advice to the user, information of recommendation (recommendations) to the user, or may be data of contents to be provided to the user. The server 3 is necessary (for example, in response to a request from the terminal system 2), may transmit the health information about other users to the terminal system 2.

As described above, in the present embodiment, the terminal system 2 (specifically, information of sleep-fatigue) health information of the user is calculated, the game is executed to game input health information. Also, the server 3 (in other words, the terminal system 2) user network services based on the health information and / game result provided to.

Next, one example of the configuration of a terminal system 2. Figure 2 is a diagram showing an example of a detailed configuration of a terminal system 2. Figure 3 is a diagram showing an example of an external view of the terminal system 2. As shown in FIGS. 1 to 3, the terminal system 2 includes a mobile terminal 5, and a base unit 6. Portable terminal 5 is carried by the user. Based device 6 is installed for example in the user's home.

In the present embodiment, the portable terminal 5 is a portable information processing apparatus, the base unit 6 is connectable cradle the portable terminal 5. As shown in FIG. 3, the portable terminal 5 can be detachably connected to the base unit 6. The base unit 6 has a function of performing charging to the portable terminal 5, when the portable terminal 5 and the base unit 6 is connected, it is possible to charge the mobile terminal 5 by the base unit 6. In other embodiments, the portable terminal 5 and the base unit 6 can be in the form which is detachably connected via a cable.

The communication method between the portable terminal 5 and the base unit 6 is optional, may be performed by wired communication via a cable, it may be performed by wireless communication such as radio wave communication or infrared communication. The communication between the portable terminal 5 and the base unit 6 may be performed by a communication method performed directly between the two may be performed by a communication method via a network such as a LAN or the Internet.

First, the configuration of the portable terminal 5 in this embodiment. The mobile terminal 5 is a portable information processing apparatus, in the present embodiment, for example, a cellular phone, a smart phone or multifunction devices such as a tablet terminal, or the like. That is, the mobile terminal 5, various functions of a general multi-function device has (e.g., input function, an output (display) function, information processing function, network communication function, call function, a camera function, etc.) some of the the has. The network communication function, a communication function via the Internet, and / or a communication function via a mobile communication network. The mobile terminal 5 may be implemented by installing a predetermined function to off-the-shelf multi-function device. In the present embodiment, the portable terminal 5, in addition to be used as the multifunctional device, or calculates the health information is used to and perform the game process. Further, the mobile terminal 5, for example as a wristwatch type or glasses-type terminal may be attached to an information processing apparatus capable user (so-called wearable device).

2, the mobile terminal 5 includes a communication unit 10. The communication unit 10 is connected to the network 4 and performs communication with the server 3. In the present embodiment, the communication unit 10 (in other words, mobile phone communication network) the mobile communication network is a communication module having a function of performing communication by connecting to. For example, the communication unit 10, 3G communication standards or communicates with the communication system conforming to the communication standard 4G (including LTE (Long Term Evolution)). Note that the method for the mobile terminal 5 to communicate with the server 3 is arbitrary, for example, it may be a method for communicating over a wireless LAN by a communication module which has received the authentication of Wi-Fi. The mobile terminal 5 has a function of communicating with the server 3 via the mobile communication network may comprise both a function of communicating with the server 3 via the wireless LAN.

The mobile terminal 5 includes a processing unit 11. Processing unit 11 executes various types of information processing executed in the mobile terminal 5. Processing unit 11 is connected to the respective units 10 and 12 to 19 of the mobile terminal 5. Processing unit 11 includes a CPU (Central Processing Unit) and memory. In the mobile terminal 5, CPU is using the memory, the various types of information processing is performed by executing the information processing program stored in the portable terminal 5. In the present embodiment, the processing unit 11, as the information processing, processing for calculating the health information described above, the game processing, and the processing for presenting information received from the server 3 (e.g., the service information) to the user Execute. Also, when the mobile terminal 5 operates as a multi-functional device, the processing unit 11 executes information processing for realizing the functions.

The mobile terminal 5 is provided with input and output interface (in other words, input and output terminal) information processor for the user to to browse or enter information serves as. Specifically, the mobile terminal 5, the operation input unit 12, a display 17 and,, a speaker 18. The operation input unit 12 is any input device for receiving an operation input by the user. In the present embodiment, the operation input unit 12 includes a touch panel provided on the display 17, and a button. In other embodiments, the mobile terminal 5, as the operation input section 12, may be provided with a sensor (acceleration sensor or gyro sensor) for detecting the operation of moving the portable terminal 5.

Display 17 is an example of an output device, various images generated in the portable terminal 5 in response to the input to the operation input unit 12 (for example, game images, etc.) or display, based on the data received from the server 3 various images (e.g., images relating to a network service) or display. Speaker 18 is an example of an output device, various sounds generated in the portable terminal 5 in response to the input to the operation input unit 12 (e.g., a game sound, etc.) to output a, based on the data received from the server 3 various sounds (for example, voice and music on the network service) or output.

The mobile terminal 5 is provided with a sensor for detecting the information for calculating the health information. In this embodiment, the mobile terminal 5, the position detection unit 13, and includes an environmental sensor 14.

Position detecting unit 13 detects the position of the portable terminal 5. In the present embodiment, the position detecting unit 13 detects the position using GNSS (Global Navigation Satellite System). Position detection unit 13, for example, GPS (Global Positioning System) sensor (eg, GPS module) is. The position detection method in the position detection unit 13 is arbitrary, the position detection unit 13 may detect the position using, for example beacons. Further, for example, the position detection unit 13, by calculating the altitude change based on a detection result of the pressure sensor, may be calculated information (e.g. information indicating whether being in what floor of the building) that shows a high degree of user .

Environmental sensor 14 detects the surrounding environment of the portable terminal 5. In the present embodiment, the environmental sensor 14 includes a temperature sensor and a humidity sensor. In other embodiments, the environment sensor 14, atmospheric pressure sensor, an illuminance sensor, noise sensor, may include odor sensor. That is, the environment sensor 14, temperature, humidity, illuminance, air pressure, sound, and may be configured to detect at least one of smell. Also, in other embodiments, may be used as an environmental sensor for the microphone 15 detects the ambient noise.

The mobile terminal 5 is provided with a microphone 15. Microphone 15 detects the ambient sound of the portable terminal 5. Microphone 15 may be used to calculate the health information. For example, the portable terminal 5 detects the sound of snoring of a user by a microphone 15 may calculate the information about the sleep based on the detection result. Incidentally, the microphone 15 may be used to accept voice input to the mobile terminal 5.

The mobile terminal 5 includes a camera 16. The camera 16 is provided, for example, on the same side as the surface on which the display 17 is provided in the mobile terminal 5 (i.e., inner) (see FIG. 3). That is, the camera 16 is provided capable of imaging the user operating the portable terminal 5 position. The mobile terminal 5 determines the user's expression based on the image captured by the camera 16, may be calculated degree of fatigue based on the facial expression of the user.

The mobile terminal 5 is provided with a connector 19 for electrically connecting the base unit 6. In the present embodiment, when the portable terminal 5 is attached to the base unit 6 (see FIG. 3), the connector 19 is in contact with the connector 21 of the base unit 6. This allows communication with the mobile terminal 5 and the base unit 6.

The mobile terminal 5 is provided with a battery (not shown), each unit of the portable terminal 5 is operated by electric power supplied from the battery. Although details will be described later, in the present embodiment, it is possible to charge the battery of the portable terminal 5 by the base unit 6.

Next, the configuration of the base device 6 in this embodiment. In the present embodiment, the base unit 6 is disposed, for example the bedroom of the user, used to detect biometric information about the user's sleep in bed while the user. Here, the biological information is information detected from the user's body. In the present embodiment, respiration, pulse, and body movement is detected as the biological information. Note that in other embodiments, information detected as the biological information is arbitrary, respiration, pulse, and any one of motion or two may be detected, and these three pieces of information it may be detected other different information. The base unit 6, the content to the user in the sleeping (e.g., prompt the falling asleep in the user content) and information (e.g., information of evaluation results of sleep) is used to present.

Based device 6 includes a support portion for detachably supporting the portable terminal 5. Specifically, as shown in FIG. 3 (specifically, the support portion) housing of the base unit 6, the recess corresponding to the shape of a portion of the mobile terminal 5 is provided. By the mobile terminal 5 is inserted into the recess, the portable terminal 5 is attached to the base unit 6. Incidentally, the mechanism for the base unit 6 supports the portable terminal 5 is optional.

As shown in FIG. 2, the base unit 6 includes a connector 21. When the portable terminal 5 is inserted into the recess, the connector 19 of the portable terminal 5 and the connector 21 of the base unit 6 is connected. As a result, it is possible to communicate with the mobile terminal 5 and the base 6, it is possible to charge the mobile terminal 5 by the base unit 6.

Based device 6 is provided with a Doppler sensor 24 is an example of a sensor for detecting biological information. Doppler sensor 24 is adapted to emit microwaves, by receiving the reflected wave emitted microwave, it detects a moving object based on the difference between the frequency of the microwave and the received frequency of the firing microwave. In the present embodiment, (more specifically, emitting portion 24a) Doppler sensor 24 irradiates radio waves toward the front of the base unit 6 (see FIG. 3). In the present embodiment, the detection target of the Doppler sensor 24 is a user, detects the body movement of the user by the Doppler sensor 24. Details will be described later, (in other words, the output waveform of the Doppler sensor 24) biometric information detected by the analysis of frequency analysis or the like to other body motion, biological information such as respiration and pulse further calculates can do.

Base unit 6 includes a power acquisition unit 23 that acquires electric power from an external power source. In this embodiment, the base unit 6 is connected to the AC adapter and the power plug through a power cord (not shown) (or removable). By the power plug is connected to the outlet of the external power supply, power is supplied to the power acquisition unit 23 of the base unit 6. Base unit 6 is acquired by the power acquiring unit 23 is operated by electric power from an external power source. Further, the power acquisition unit 23 for charging the mobile terminal 5 by sending the supplied power to the mobile terminal 5 via the connector 21. In other embodiments, the base device 6 may have a battery, it may be sent the power charged in the battery to the portable terminal 5. Further, in the embodiment, the charging in the manner power through the connector is supplied is made, in other embodiments, the power by non-contact charging can be supplied.

Based device 6 is provided with a projector 25 for projecting an image on a wall surface (including the ceiling) or screen. The projector 25 may be any display device that displays an image on the surface by projecting an image onto a surface remote from the base unit 6 (which may be uneven). In the present embodiment, as shown in FIG. 3, the projector 25 has a base as (specifically, lens) light projecting unit so 25a is directed upward, i.e., an image is projected upward provided in the apparatus 6. That is, in this embodiment, the projector 25 projects the image on the ceiling. In this embodiment, the projector 25, for example, displays an image showing the evaluation results of sleep when the image (e.g., sleep onset content to be described later) to promote sleep onset and wake the user to view the user is awakened in the morning it may be or.

In the present embodiment, the base unit 6, an image to be projected on a ceiling, if necessary, corrected using the technique of the so-called projection mapping. That is, the base device 6, the projection plane of the projector 25 (i.e., ceiling) image corresponding to the irregularities and / or color of correcting the image to be displayed. The correction method of the image may be a method that has been conventionally used. The base unit 6, a camera 27 for correcting the image. As shown in FIG. 3, the camera 27 is provided in the base unit 6 in the direction to include the location where the image is projected by the projector 25 in the imaging range. That is, the camera 27 is the same direction as the projector 25 (i.e., upward) is provided to face.

The base unit 6 comprises a speaker 26. Speaker 26, for example, sounds to encourage sleep onset and wake the user (e.g., sleep onset content to be described later) used to output.

Base apparatus 6 includes a control unit 22 for controlling each unit 23-27 of the base unit 6. Control unit 22 is connected to the respective units 21 and 23 to 27 of the base unit 6. Control unit 22 executes various control processing executed in the base unit 6. Control unit 22 includes a CPU and a memory. In the base unit 6, CPU is using the memory, the control process of the various is performed by executing the information processing program stored in the base unit 6. For example, the control unit 22, by controlling the power acquisition unit 23, controls the charge operation to the mobile terminal 5. The control unit 22, the content or information to be presented to the user in the base unit, to reproduce the projector 25 and / or speaker 26. The control unit 22 transmits the information detected by the Doppler sensor 24 to the mobile terminal 5.

The base unit 6, in addition to the configuration shown in FIG. 2, or alternatively, may comprise other configurations. For example, the base unit 6, environmental sensors, displays, non-directional speaker, a light source (e.g., lighting), and / or may comprise a smell generating device. Incidentally, if the base unit 6 comprises an environmental sensor, the mobile terminal 5 may have a configuration that is not provided with an environmental sensor. The mobile terminal 5 and the base 6 may be homologous environmental sensors may be provided with a (i.e., an environment sensor which detects the same information), it may comprise different types of environmental sensors.

Next, the configuration of the server 3. Server 3 includes an information processing apparatus having a CPU and memory (i.e., server) one or more. In the server 3, CPU is using the memory, various types of information processing is performed by executing the information processing program stored in the server 3. For example, in the server 3, the process of storing the information received from the mobile terminal 5 in a predetermined storage unit, and, processing for providing network services in accordance with the information to the mobile terminal 5 is executed.

In this specification, the term "server", one information processing apparatus (i.e., server) other pointing to the server the server group to be composed of a plurality of server devices (i.e., a server system) it is meant to refer to the whole. Further, in the present embodiment is described the server 3 as an integral structure, the server 3 may be configured to include a plurality of server devices which are divided according to the functions and / or roles. For example, the server 3 includes a data server for storing health information obtained from the mobile terminal 5, it may be a configuration including a service server to provide network services based on the health information. Further, the server 3, product etc. As part of the network service (the "product etc.", in addition to the product, it is intended to include services. Below and the same.) When performing service that provides goods provide an accounting and may be configured to include a shop server to perform the like.

[2. Outline of the operation of the Information Processing System]
Next, an outline of operation in the information processing system 1. In the present embodiment, the terminal system 2, in the period of the user during sleep (called a sleep period), calculates the health information. First, in the following, the operation of the terminal system 2 in the sleep period.

(2-1: Operation of a terminal system in the sleep bout)
Figure 4 is a diagram showing an example of a flow of operation of the terminal system in the sleep period. In this embodiment, the base unit 6 is disposed in the bedroom of the user, more specifically, disposed around the user (e.g., bedside). The user mounts the mobile terminal 5 to the base unit 6 during-bed. Terminal system 2 by the portable terminal 5 is mounted on the base unit 6, the user is determined to have-bed (i.e., to detect a-bed) (step S1). The terminal system 2, in response to the input floor is detected, measurement is initiated to calculate the health information of the user. Although details will be described later, in the present embodiment, based on the detection result of the Doppler sensor 24 of the base unit 6, information on sleep of the user is calculated as a health information. Also, information detected by the environment sensor 14 in addition to the Doppler sensor 24 is also acquired as a result of the measurement.

In the present embodiment, the base unit 6 has a function of charging the mobile terminal 5. The user, in order to charge the portable terminal 5 at the time-bed, it is conceivable to mount the portable terminal 5 to the base unit 6. In other words, according to the present embodiment, it is possible to motivate for mounting the mobile terminal 5 to the base unit 6 to the user, reducing the possibility of the attachment to the base unit 6 of the mobile terminal 5 user forgets can.

After-bed, when the user falling asleep (in other words, enters the sleep state), the terminal system 2, based on the measurement result, detects that the user was entering Nemushi (step S2). Terminal system 2 also continues measurement after it detects sleep onset of the user, to determine the state of the user during sleep, based on the measurement results. Further, operation of the mobile terminal 5 and / or the base unit 6 may be controlled according to the state of the user.

When a user wake from sleep, the terminal system 2, based on the measurement result, the user detects that awake (step S3). Terminal system 2, when detecting the wake of the user, calculates the health information based on the measurement result in the sleep. Furthermore, the terminal system 2 performs evaluation of calculated health information, and presents the evaluation results to the user. Although details will be described later, in the present embodiment, the evaluation result of the health information is the game application, (as the remaining machine number, for example, a player object) as the game element are presented.

The user, the above-mentioned evaluation results were confirmed at the time of awakening, and then leaves the floor. The user, remove the mobile terminal 5 from the base unit 6 at the time of liftoff. Terminal system 2 by the portable terminal 5 is removed from the base unit 6, it determines that the user has lifting (i.e., detects the lifting) (step S4). Incidentally, lifting of the user, instead of being detected on the basis of a detachment state of the portable terminal 5 and the base unit 6 (or in addition) may be detected based on the measurement result. For example, the terminal system 2, from the detection range of the Doppler sensor in response to the user no longer exists, it may be determined that the user has lifting.

The terminal system 2, the health information after awakening of the user is calculated, and ends the measurement for calculating the health information. Note that in other embodiments, in response to the that the user has lifting is detected, the measurement may be terminated.

As described above, in the present embodiment, the user, when measuring the health information, the portable terminal 5 is attached to the base unit 6 at the time-bed, it is only removing the mobile terminal 5 from the base unit 6 during lifting. Thus, in the present embodiment, the user can measure the health information with less effort using the terminal system 2.

(2-2: the method of calculating the health information)
Hereinafter, a description will be given of a method of calculating the health information in this embodiment. In the present embodiment, the terminal system 2, as health information, calculates information regarding information on sleep and fatigue. More specifically, the terminal system 2 calculates the sleep metrics and fatigue index on the basis of the detection result of the Doppler sensor 24. Sleep metric is an index related to sleep users, for example, is an index representing the result of the state or sleep related sleep. More specifically, sleep metric is, for example, sleep time, sleep latency, mid-arousal period, and a numerical value indicating the sleep efficiency and the like. Further, the fatigue index is an index related to sleep users, for example, the degree of fatigue of the user, or is an index representing the fatigue state (e.g., fatigue kind). In the present embodiment, the fatigue index is calculated in consideration of the sleep metrics are calculated as a numerical value that indicates the degree of fatigue of the user. Referring to FIG. 5, described in detail the method for calculating the health information in this embodiment.

Figure 5 is a functional block diagram showing an example of a functional configuration for calculating the health information in the processing unit 11 of the portable terminal 5. As shown in FIG. 5, the processing unit 11 includes a waveform analyzer 41, and sleep calculation unit 42, an autonomic calculation section 43, and a fatigue calculation unit 44. In the present embodiment, the configuration for calculating the health information (sections 41-44 shown in FIG. 5) is assumed to be provided to the mobile terminal 5, in other embodiments, a portion of the structure or it may be entirely provided on the base unit 6.

Waveform analyzing section 41, the biological information Doppler sensor 24 detects (i.e., the output waveform) on the basis of breathing, calculates pulse rate, and body movement as a further biometric information. Here, conventionally, by separating in accordance with the frequency of the output waveform of the Doppler sensor 24, breathing, it is known that it is possible to obtain pulse, and a waveform representing the body motion. Waveform analyzing unit 41 outputs the output waveform by the frequency analysis or the like, a frequency band corresponding to breathing, a frequency band corresponding to the pulse, and separated into a frequency band corresponding to the body movement, the respective waveform data separated to. As shown in FIG. 5, the output of the waveform analyzer 41 is input to the sleep calculation section 42 and autonomic calculation section 43.

Sleep calculating unit 42, the biometric information (in this embodiment, respiration, pulse, and body motion) calculates various sleep metrics based on. Here, conventionally, respiration, pulse rate, and a method of calculating the sleep metrics based on the body movement is known. In the present embodiment, the sleep calculation unit 42 calculates a sleep index indicating the following information.
And time from the input floor to fall asleep (ie, sleep latency / sleep latency)
, Time, and arousal during sleep time and the middle number of awakenings, nocturnal awakening timing sleep efficiency and the period of total sleep time and sleep when the amount of activity-sleep stage REM sleep time and non-REM sleep time and REM sleep from waking up off the floor,
- in the period from the proportion, sleep quality and input Nemushi until a predetermined time of the REM sleep time and non-REM sleep time, in the period from the rate-wake the point of time in the sleep deep state before a predetermined period of time, sleep the difference between the actual awakening timing and difference-ideal of awakening timing of the actual fall-asleep timing and the fall-asleep timing of rate-ideal of the time in the shallow state it is to be noted that the "ideal of the fall-asleep timing" and "ideal of the wake-up timing." It is calculated, for example, based on historical sleep metrics about the user.

In another embodiment, in which only some may be calculated of the above sleep metrics may be calculated different types of sleep metrics from the above sleep metrics. For example, the number of turn may be calculated as the sleep metrics. Number of turn can be calculated based on the body motion detected by the Doppler sensor 24 (also referred to guess).

Also, sleep metric may be calculated based on the output of other sensors than Doppler sensor 24. For example, an index indicating the magnitude of snoring, and / or an index indicating the environment during sleep may be calculated as the sleep metrics. The size of snoring, for example can be calculated based on the sound detected by the microphone 15. Further, as an index indicating the environment during sleep, e.g., temperature, humidity, illuminance, air pressure or the like may be calculated based on the output of the environmental sensor 14. Also, sleep metric may be calculated based on the detection result of the camera 16. For example, based on the user of the image captured by the camera 16, it is possible to calculate the biometric information such as pulse rate and / or body motion. Accordingly, the sleep calculation unit 42, in addition to these biological information obtained from the detection result of the Doppler sensor 24 (or place of), sleep metric using the biometric information obtained from the image captured by the camera 16 (and fatigue index) it may be calculated.

Autonomic calculation section 43, based on the biometric information (specifically, sympathetic and parasympathetic) autonomic calculates an index indicating the working degree of (called the autonomic index). Specifically, (specifically, RR intervals) pulse contained in the biological information waveform, the maximum entropy method, a frequency analysis by Fourier transform, the high-frequency component of the waveform (about 0.15 to 0.40 Hz]) HF and a low frequency component (about 0.04 ~ 0.15 [Hz]) is calculated and LF. Here, the high frequency component HF is to exhibit the function degree parasympathetic are known, the low frequency component LF is known to exhibit the function degree of sympathetic. It is also known to be able to evaluate the degree of fatigue by the ratio of the working degree and function the degree of sympathetic parasympathetic (e.g., see JP 2010-201113). Thus, the autonomic nervous calculating section 43, as an autonomous nervous index, to calculate the ratio between the high-frequency component HF and a low frequency component LF (LF / HF). As shown in FIG. 5, the output of the autonomic nervous calculating unit 43 is used as input in the fatigue calculation unit 44.

Fatigue calculation unit 44, based on the sleep metrics and autonomic index, to calculate the degree of fatigue. In the present embodiment, as the fatigue index, the degree of fatigue is calculated which indicates the degree of fatigue (level) a number between 0 and 100. The method of calculating the fatigue index is arbitrary, for example, be considered the following methods.

The first method is a method of calculating the degree of fatigue from sleep metrics. Here, sleep index is considered that there is a correlation between the degree of fatigue. For example, examples suspected of high fatigue, include the following.
- a long sleep latency.
· Arousal time is long.
· Arousal a large number of times.
· Sleep efficiency is poor.
- a short total sleep time.
Balance between REM sleep time and non-REM sleep time is poor (for example, the ratio of REM sleep time and non-REM sleep time, is out of the normal range).
Accordingly, the fatigue calculation unit 44, sleep metric is higher fatigue if applicable to the above example, as the degree of fatigue to be applicable to the above-described example is lower, and calculates the degree of fatigue. For example, the fatigue calculation unit 44 determines whether or not appropriate for each item of the above, calculates the point corresponding to the number applicable, may be calculated degree of fatigue according to the total points. In this case, the fatigue calculation unit 44 may calculate the point denoted by the weight for each item. The reference values ​​for each item (e.g., "6 hours" for the total sleep time) to set the point as the value of the calculated sleep metrics is away from the reference value as larger, and points are calculated it may be.

As described above, in the present embodiment, on the basis of the biometric information, the calculated sleep metrics regarding sleep of the user, fatigue is calculated based on the sleep metrics. As described above, it is considered that there is a correlation between the degree of fatigue and sleep metrics by calculating a fatigue level based on the sleep metrics, it is possible to improve the degree of fatigue of accuracy.

The second method is a method of calculating a fatigue level based on the autonomic nervous index. As described above, the balance of the work degree of sympathetic and parasympathetic, i.e., are known to be able to evaluate the degree of fatigue using the above autonomic indicators. Accordingly, the fatigue calculation unit 44, for example, the value of the autonomic nervous index to calculate the fatigue as fatigue farther from the reference value becomes higher.

In the present embodiment, the fatigue calculation unit 44 calculates the degree of fatigue using the first and second methods. Specifically, the fatigue calculation unit 44 calculates the respective fatigue in the two methods described above, to calculate the final fatigue based on each degree of fatigue was calculated. Fatigue calculation unit 44 may, for example, an average value of the two degree of fatigue may be the ultimate fatigue, and calculate the final degree of fatigue are given the weight on either fatigue of the two good.

Also, in other embodiments, in addition to the above two methods, fatigue may be calculated using the following method. That may be is used a method of calculating a fatigue level based on the sleep time in a predetermined period (e.g. 1 week). Here, conventionally, in fatigue risk management system (FRMS (Fatigue Risk Management System)), there is a method of calculating the degree of fatigue on the basis of the working time and sleep time. With constant short labor time, for example, in the above method, it is possible to calculate the degree of fatigue based on the sleep time (only).

The method of calculating the fatigue index is arbitrary, it is also arbitrary contents fatigue indicator. In other embodiments, the fatigue index value indicating the degree of fatigue for each type of fatigue may be calculated. For example, in other embodiments, the fatigue index is a value indicating the degree of acute fatigue, and a value indicating the degree of accumulated fatigue may be three kinds of values ​​that the value indicating the degree of mental fatigue.

In the present embodiment, the fatigue calculation unit 44 calculates the vitality level based on the calculated degree of fatigue as described above. The vitality of the health of the user (in this embodiment, the sleep state, and the degree of fatigue) is a numerical value which is calculated for the purpose of clearly presenting to the user, the number is by the better state (i.e. greater if, degree of fatigue represents a is small). The method of calculating the fine degree is arbitrary, for example, fine degree may be calculated by subtracting the degree of fatigue from 100.

In the present embodiment, as the evaluation result of the health information, the vitality of is presented to the user. Note that in other embodiments, as the evaluation result, to the above fatigue may be presented to the user, sleep degree calculated from the sleep metrics (numerical value indicating the degree of sleep) is to the user it may be presented Te. These healthy degree, fatigue, and sleep degree, can either be referred to as health information, it is also possible to say that the evaluation result of health information. In other words, health information, a first type of health information (e.g., sleep metric) may be health information of a second type which indicates the evaluation results for.

As described above, in the present embodiment, the terminal system 2, the above sleep metrics, fatigue index (i.e., fatigue), and a fine degree, calculated as the health information. Some or all of these health information is transmitted from the terminal system 2 to the server 3, it is stored for each user in the server 3. Further, the mobile terminal 5, the calculated health information, stored in its own storage unit.

(2-3: game processing)
Next, (specifically, the portable terminal 5) terminal system 2 will be described game processing executed by. As described above, in the present embodiment, the user can be measured with a simple health information work. However, evaluation results of the measured health information (which may be advice information and recommendation information based on the evaluation result) to be sure the user, becomes small means that measures the health information, the user It does not lead to the improvement of health. For example, for a user interested in small to health, simply presents the evaluation results for the interesting is not so much felt, there is a possibility that interest in evaluation results and the like fade gradually. As a result, the user may or neglect or longer sure evaluation results and the like, the measurement itself.

Therefore, in the present embodiment, the terminal system 2, in order to give the user an incentive to acts such as measurement and evaluation results confirm such health information, executes the game process. That is, the terminal system 2 executes the game processing based on the evaluation result, presents the game result in accordance with the evaluation result to the user. In the present embodiment, evaluation or progress the game according to a result, user behavior related to the measurement (e.g., arousal, lifting, and, entering the floor, etc.) game or proceed in accordance with. Thus, in the present embodiment, the terminal system 2, the user to measure the health information to be able to be carried out a game. Thus, the above action can provide the user with motivation continuously perform the user continually improving health effect is improved by performing the above action. Referring to FIG. 14 from FIG. 6, an example of the game processing in this embodiment.

Figure 6 is a diagram showing an example of a flow of the game processing in this embodiment. In the present embodiment, as described above, in the user during sleep is performed measurement for calculating the health information of the user, the game processing is mainly carried out in the user's awake. 6 shows a flow of the game process user is executed before falling asleep after awakening.

(Processing of when the user awake)
The mobile terminal 5, when detecting the wake of the user, and displays the evaluation result of the health information and advice based on the evaluation result (step S11). As described above, since the evaluation results of medical information in response to a user arousal is calculated, the mobile terminal 5 displays the information indicating the evaluation result calculated in the display 17. The mobile terminal 5 displays the information indicating the advice is generated based on the evaluation result on the display 17.

Figure 7 is a diagram showing an example of a game image displayed on the mobile terminal when the user's awake (referred to as wakefulness game image). In wakefulness game image shown in FIG. 7, a player object 51, the evaluation result information 52, and the advice information 53 is displayed.

Player object 51 is input by the user (also referred to as a player) (in the present embodiment, the health information is input) is a game character which operates in accordance with. As shown in FIG. 7, when the user awake, image representing a state in which the player object 51 awakened is displayed on the display 17.

Evaluation result information 52 indicates the evaluation results of the health information that is calculated based on the biological information measured in the sleep periods. As described above, in the present embodiment (in other words, numerical values ​​representing the vitality of) fine degree as the evaluation results are calculated. In the present embodiment, the evaluation result is presented to the user as a game element. That is, as shown in FIG. 7, a numerical value representing the vitality of (7 "80") is displayed as the remaining machine number of the player object 51. The evaluation results may be displayed as any game element, for example, in another embodiment, in the game, the number and types of items, money, or the parameters of the player object (e.g., strength, etc.) as such the evaluation results may be presented.

Advice information 53 indicates an advice for the user with respect to the evaluation result of the health information. Advice information 53 is generated based on the health information. Although the method of generating advice information 53 is optional, for example, the mobile terminal 5, a condition related to health information, stored in advance a table that associates the contents of to be presented advice, advice using the table to identify the contents. That is, if it meets health information Any of the conditions included in the table, the portable terminal 5 generates and displays advice information indicating the content of the advice associated with the satisfied condition.

As described above, awake game image is displayed in response to a user awake. As described above, in the present embodiment, determination of the user awake is performed using the sleep metrics calculated on the basis of the detection result of the Doppler sensor 24. In the case where the mobile terminal 5 has a wake function, determines that the user has arousal may be performed by the alarm has been stopped by the user. That is, the mobile terminal 5 is, at the set alarm time may be carried out a notification prompting the wake to the user by the sound and / or light. At this time, the portable terminal 5, the operation of stopping the notification in response to that the user has performed, may determine that the user has awakened. Incidentally, the alarm time may be set manually by the user, it may be set based on the sleep metrics. Also, in other embodiments, the portable terminal 5, instead of the timing at which the user is awake may be displayed wakefulness game image at the timing of the alarm time.

The emergence game image is displayed for a predetermined time determined in advance. Thereafter, the mobile terminal 5 performs a simple display of the calculated health information (step S12). That is, the mobile terminal 5 of the health information that is calculated based on the biological information measured in the sleep period, to display some of the information. Incidentally, the awake game image in step S11, the image (i.e., simplified display image to be described later) at step S12 switching to automatically by the portable terminal 5 in response to a predetermined condition as described above are met may be performed in, it may be performed by a user instruction. For example, the portable terminal 5 may display the simple display image in response to a user while displaying the awake game image has performed a predetermined operation.

Figure 8 is a diagram showing an example of a game image displayed when performing a simple display of health information (referred to as a simple display image). In simplified display image shown in FIG. 8, the simple information 54 is displayed. Further, similarly to the awake game image even in the simple display image (see FIG. 7), the player object 51 and the advice information 53 is displayed.

Simple information 54 shows a portion of information of the calculated health information. In the present embodiment, the sleep time is an example of a sleep metric is displayed by simple information 54. The contents indicated by simple information 54 is optional. However, simple information 54 because it is presented immediately after the user woke up, in the present embodiment, the user is viewing the easy information understood as simple information 54. That is, since specific indicator of sleep that sleep is indicated, measurements of sleep in plain form to the user is presented. In other embodiments, the portable terminal 5, instead of the sleep time (or sleep time together), sleep of the above, and / or be displayed as simple information 54 indicators for indicating the sleep quality good.

As described above, in the present embodiment, in response to the awakening of the user is detected, a portion of the calculated health information presented to the user as a game element with (step S11), and a part the the different (in other embodiments, the same may be information) health information, as an index representing the health (in this embodiment, as sleep metric) is presented to the user (step S12). According to this, it is possible to draw the interest of the user by giving a game of the presentation of the health information, can present health information in plain form (i.e., sleep metric) for the user. Further, in the present embodiment, together with information indicating the evaluation result of the health information is presented to the user as a game element, the original The evaluation result (i.e., used to calculate the evaluation result) at least a portion of the Healthy but, it is presented to the user as an indicator of the health. Therefore, it is possible to present the evaluation results in the form of interest to the user can be presented more detailed information underlying the evaluation results in plain form to the user. Incidentally, the evaluation of the results presented as a game element, the presentation of the health information as a health indicator may be presented simultaneously may be presented at different times (as in the present embodiment).

In the present embodiment, advice information 53 included in the simplified display image is the same as the advice information 53 contained in the wakefulness game image, in other embodiments, in these two types of images advice information may be different from each other content.

The simplified representation is displayed for a predetermined time determined in advance. Thereafter, the portable terminal 5 (in other words, the menu image) waiting image the display of (step S13). That is, the mobile terminal 5 displays the standby image including the menu image on the display 17. Incidentally, switching to the standby image in the step S13 from the simple display image at step S12, may be performed automatically by the mobile terminal 5 in response to a predetermined condition as described above are met, the user it may be performed by an instruction. Further, another in embodiments, (without displaying the simplified display image) from waking the game image may be displayed standby image. Further, the mobile terminal 5, awake game image may be switched in accordance with simplified display image, and the standby image to a user instruction.

Figure 9 is a diagram showing an example of the standby image. In the standby image shown in FIG. 9, the menu image 55 is displayed. Further, similarly to the awake game image even in the standby image (FIG. 7) and the simple display image (Fig. 8), the player object 51 is displayed.

Menu image 55 represents the indication that a user can perform in a state where the standby image is displayed. In this embodiment, the menu image 55 includes a details display button 56, and a mini-game button 57. Detail display button 56 is an image representing a button for instructing to display the details of the calculated health information. Mini-game button 57 is an image representing a button for performing an instruction to start the mini-game (also referred to as a wake-up games). By performing an input with respect to these buttons (e.g., touch input), the user, detailed view of health information, and can perform the execution of the mini game in the mobile terminal 5.

In a state where the standby image is displayed (step S13), and when the input to the details display button 56 is performed, the mobile terminal 5, a detailed display of health information (step S14). That is, the mobile terminal 5 displays the detailed display image representing more information than the simple indication of the health information on the display 17. In the present embodiment, as detailed display image, the image is displayed to be described below, for example.

Figure 10 is a diagram showing an example of a detail display image. Detail display image shown in FIG. 10 represents detailed information about the last night of sleep. That, detail display image shown in FIG. 10, (typically the period until morning from evening yesterday) previous sleep period represents the details of the health information based on the biological information measured in. Specifically, in FIG. 10, the horizontal axis represents time and the vertical axis displays the graph 58 representing the depth of sleep. Graphically 58, the user can know the change in the depth of sleep in sleep period last detail.

In the above detailed display image, in addition to the graph 58, described characteristic point in the graph 58 is attached. For example, as shown in FIG. 10, an image at a position indicating the arousal in the graph 58 represents the description such as "eyes has awakened" is attached. Thus, the portable terminal 5, a featured portion from among the sleep period (also referred to as the measurement period) is detected based on the sleep metrics, may be added an explanation image to the detected feature points. The above features locations, for example, may be a portion of mid-arousal, shallow periods of sleep may be a portion that continues for a predetermined time or longer. The mobile terminal 5 may store a table associating the description, wherein portions, an explanation image representing a description associated with the detected feature point, to display in association with the feature point on the graph 58.

In other embodiments, the description image may represent a description in consideration of the environmental sensor information detected by the environment sensor 14. Incidentally, the environmental sensor 14, environmental sensor information, for example, temperature, humidity, and / or to detect the ambient sounds. For example, when the feature point is detected, the portable terminal 5 acquires the environmental sensor information detected in time (or period) that corresponds to the feature point may generate the description on the basis of the environmental sensor information . For example, the mobile terminal 5, to obtain the temperature, "eye has awakened around 2:00. Temperature of the room might be due to the fact that was low." Explained generates and displays such as it may be. Further, for example, the mobile terminal 5, to obtain the ambient sound, "eyes at around 2 has awakened. Loud noise might be due to the fact that is was." Such as to generate a description be displayed good.

Figure 11 is a diagram showing another example of a detail display image. Detail display image shown in FIG. 11 is an example of an image representing a detailed information about the sleep of the last week. In Figure 11, bars 61 which represents the change in the recent week sleep of the user is displayed. The horizontal axis of the graph 61 represents the date, and the vertical axis represents the sleep level. Incidentally, sleep degree is an index indicating the degree of sleep, is calculated based on the sleep metrics. Sleep index is a number, for example from 0 to 100, (in other words, evaluation is good for the quality of sleep) is higher quality of sleep is calculated as a value larger. Graphically 61, the user can know the change of one week sleep degree detail.

Also, detail display image shown in FIG. 11, in addition to the graph 61 of sleep of the user himself contains the chart 62 based on the sleep of the other users. Graph 62 represents the average of good sleep of the plurality of other users. By each graphs 61 and 62, the difference between the user, it is possible to know the change in its sleep level, sleep of the other users (average), and, with its good sleep of the other users sleep degree it is possible to know the.

Incidentally, sleep of the other users is stored in the server 3. The server 3 is, good sleep of the average of other users stored (e.g., the average value for each day) is calculated and the stored. The mobile terminal 5, at any time, (in the example shown in FIG. 11, last week) desired period the average of sleep degree of received from the server 3, and create a chart 62 based on the received information indicate. The user of interest to calculate the average value, may be the entire user registered in the network service may be a user satisfying predetermined selection criteria. Selection criteria, for example, the region (for example, country), age, gender, may be a standard for the personal information of the occupation, and the like.

In the present embodiment, the detail display image shown in FIG. 10 and FIG. 11 is displayed. The mobile terminal 5, from among a plurality of types of detail display image may be displayed image specified by the user. Also, detail display image can be any content including information that is not displayed in the simple display described above (step S12). For example, detail display image, in addition to the detailed display image shown in FIG. 10 and FIG. 11, the predetermined period of user (e.g., 1 week or 1 month) may be configured to display the average value of the sleep level. Also, for example, detail display image, a good sleep of the current user, may represent a comparison with the past sleep degree of the user. For example, instead of the graph 62 shown in FIG. 11, past sleep of the user himself (e.g., 1 month sleep of the previous user) may be displayed graph representing the.

Also, detail display image may be representative of information other than sleep of, for example, sleep metric other than sleep of fatigue index, and / or, may represent vigor degree. Further, the mobile terminal 5, among the health information, may be displayed and generates a detailed display image related information designated by the user.

In a state where the detail display image is displayed, the portable terminal 5 in response to the predetermined termination instruction is issued by the user, switches the display to the standby image (step S13). Predetermined end instruction, for example, by input to the menu button 59 which is displayed in the detailed display image (FIGS. 10 and 11).

In a state where the standby image is displayed (step S13), and when the input to the mini-game button 57 is performed, the mobile terminal 5 starts the mini-game (step S15). Mini-game (specifically, Genki degree) health information is the game to enter the is a different game, one in which to perform a simple game operations and calculations, etc. to the user. The contents of the mini game is optional, mini-games, for example, may be a puzzle game, it may be a quiz game may be a game in which to perform the calculation to the user. By performing such mini-game to the user, it can be expected to wake up the user.

In the present embodiment, the mobile terminal 5 (specifically, vitality level calculated on the basis of the biological information measured sleep period) vitality level based on the result of the mini game corrected. For example, the mobile terminal 5, at worst mini-game of the results, it is determined that the awakening is bad, to decrease the vitality level, if you're a mini game of the results, it is determined that the awakening is good, to increase the vitality of it may be so. Thus, in the present embodiment, vitality level based on the results of the mini game is calculated. In addition, mini-games of the results is reflected in the game processing. The mobile terminal 5 transmits information indicating the vitality of the corrected to the server 3. Server 3 stores information indicating the vitality of the corrected received.

Also, in other embodiments, the mobile terminal 5, instead of correcting the vitality level based on the results of the mini-game (or both), be used the results of the mini-game as an input of the game processing good. For example, the mobile terminal 5 (in other words, a player object) user items according to the result of the mini game is given to, also possible to execute the game process based on the item granted with the fine degree good. Similarly the present embodiment which makes it possible to reflect the result of the mini game in the game processing.

Further, the mobile terminal 5, instead of executing the mini game, or, (in other words, in a mini-game) with the execution of the mini-game may be performed a question to the user. That is, the mobile terminal 5 performs to the user a question about the state of sleep and / or fatigue, and inputs an answer to the user. For example, the mobile terminal 5, or are feeling fatigue, or wake up is good, ask questions such as whether the remaining drowsiness, to perform the answer based on the subjectivity of the user. At this time, the answer may be used as a mini game result. Thus, the terminal system 2, it is possible to obtain a subjective evaluation of the user regarding sleep and / or fatigue, it is possible to calculate the health information reflecting the subjective assessment.

As described above, in the present embodiment, by performing the mini-game during a user awake, it is possible to wake up the user, to calculate the health information based on the mini-game results (more specifically, by correcting), it is possible to calculate the health information reflecting the state of the user after awakening.

In other embodiments, the portable terminal 5 in response to the health information based on the biological information measured during the sleep periods may determine whether to prompt the execution of the mini-games to the user. For example, the mobile terminal 5 determines whether awakening of the user is good or bad based on the health information. More specifically, the mobile terminal 5, when the user awake from the state of non-REM sleep, wake up, it is determined as bad, if the user was awake from the state of REM sleep, it is determined that the awakening is good it may be. Then, when the awakening of the user is determined to be bad, the mobile terminal 5, may be prompting the execution of the mini-game to the user. In the above case, for example, in the standby image, the mobile terminal 5, "seems not good wake up today. Let's awake doing the mini-game," such as may be displayed the message. On the other hand, if the awakening of the user is determined to be, the mobile terminal 5 may not prompted to execute the mini game user.

If the mini-game ends, or when instructing the user has performed to end the mini game, the mobile terminal 5 switches the display to the standby image (step S13).

(Processing after the user has off the floor)
As shown in FIG. 6, the portable terminal 5, when detecting the user's ambulation, ends the display of the standby image, display the lifting when the game image (step S16). Figure 12 is a diagram illustrating an example of lifting the game image displayed on the mobile terminal when the user's ambulation. In lifting the game image shown in FIG. 12, the player object 51, and the lifting time information 64 are displayed. As shown in FIG. 12, when the user leaves the floor, the image in which the player object 51 represents a starting state adventure is displayed on the display 17.

Further, as shown in FIG. 12, lifting time information 64 indicates the current (i.e., lifting time) Evaluation of the results (specifically, fine degree). Here, the fine degree calculated at awakening the user, it may be corrected by the above results of the mini game. In this case, lifting the time information 64 indicates the number of remaining unit corresponding to vitality of the corrected. By the lifting-time information 64, it is possible to notify the user of vitality rate after the correction. In the case where fine degree calculated when the user of awakening is not corrected, the lifting time information 64 indicates the same number of remaining machine with the fine degree. Incidentally, lifting the game image may include the advice information on the evaluation result of the current.

The lifting when the game image is displayed for a predetermined time determined in advance. Thereafter, the portable terminal 5 performs display of a standby image (step S17). That is, the mobile terminal 5 displays the same standby image and the step S13 on the display 17. Incidentally, the lifting when the game image in step S16, the switching to the standby image in step S17, may be performed automatically by the mobile terminal 5 in response to a predetermined condition as described above are met, it may be performed by the user's instruction.

Standby image in step S17 includes a menu image 55 similar to the standby image in step S13. Further, the standby image in step S17 includes an image showing the player object 51 in the adventure. For example, how the player object 51 are fighting the enemy, or image showing that the player object 51 is ahead of the dungeon is displayed.

As in the case of the step S13 may wait image is displayed in step S17, the mobile terminal 5, detailed view of health information, and accepts an input for executing the mini game. That is, when the input to the details display button 56 is performed, the mobile terminal 5, a detailed view of the health information (step S18). Processing in step S18 is the same as the processing in step S14. In addition, when the input to the mini-game button 57 is performed, the mobile terminal 5, to start a mini-game (step S19). Processing in step S19 is the same as the processing in step S15.

As described above, in the present embodiment, also it appears standby image after the user's ambulation, the user can perform display details, or can perform a mini game. Therefore, the user, even when disconnecting the portable terminal 5 from the base unit 6 can perform detailed display and mini-games.

Here, as described above, the mini game is to be performed to determine the state of awakening of the user as a single object. Therefore, the user is mini game is executed after woke up enough, and the mini-game of the results is reflected in the healthy level, there is a possibility that the state of the awakening of the user is not properly reflected in the healthy level.

Therefore, in the present embodiment, the mobile terminal 5 between the user of ambulation (or wake) until a predetermined time elapses, and can execute the mini game. That is, the mobile terminal 5, after a lapse of a predetermined time from the user's ambulation (or wake) is to not display the mini-game button 57 in the standby image, the user from being able to perform a mini-game. According to this, the user can mini game is executed after woke up sufficiently, the result of the mini game will reduce the possibility of being reflected in the fine degree. In other embodiments, the mobile terminal 5 between the user's ambulation (or wake) until a predetermined time elapses, to reflect the results of the mini game energetic level, after a the predetermined time , it may be so as not to reflect the results of the mini-game to healthy degree (however, may be to reflect the results of the mini-game to game processing). In this case, the mini game can be a viable even after the predetermined time has elapsed. This can also obtain the same effect as described above.

In the above embodiment, the terminal system 2, the user in response to the mobile terminal 5 is removed from the base unit detects that it has liftoff. Here, a method of detecting that the user has ambulation is arbitrary, not limited to the above-described method. For example, in other embodiments, the terminal system 2, may be detected that the user has lifting in response to a user from the detection range of the Doppler sensor in the base unit 6 is out. In this case, it is assumed the mobile terminal 5 and the base unit 6 can be a wireless communication, the base unit 6 notifies wirelessly that it has detected a user's ambulation to portable terminal 5. According to the above, the portable terminal 5, the processes in steps S11 ~ S15, may be performed when opening the portable terminal 5 from the base unit 6. In this case, after the user of the liftoff is detected, the portable terminal 5 does not execute the mini game, or may not reflect the results of the mini game energetic level.

Also, in other embodiments, the portable terminal 5 detects that the user has to go out, in response to a user going out, it may be performed the processing in step S16. Incidentally, out of the user, it can be detected based on the detection result by the position detection unit 13. For example, registered in advance the position of the user's home to the portable terminal 5, the portable terminal 5, when the position of the portable terminal 5, which is detected by the position detection unit 13 is away from home position than a predetermined distance, the user but it may be determined that went out.

(Processing during the day)
After the user has lifting the portable terminal 5, at an appropriate timing (specifically, energetic degree) health information to calculate various information for correcting (step S20). In the present embodiment, various information calculated is transmitted to the server 3, the correction of the vitality of the server 3 is performed. In FIG. 6, are shown as processing in step S20 after the process in step S17 is executed, the timing of the processing of step S20 is executed may be a previous step S17 .

Information calculated in the process at step S20 is calculated on the basis of the information obtained in the wake-up period of the user. In the following, the information calculated by the processing in step S20, referred to as emergence information. In the present embodiment, the portable terminal 5, as awake information, activity information, environmental information, and calculates the emotional information.

Activity information is calculated based on the position information detected by the position detection unit 13. Specifically, the mobile terminal 5, the distance the user has moved, time, and / or are calculated on the basis of the movement process (e.g., walk, train, automobile, etc.) activity information indicating the above position information. Further, the mobile terminal 5, where the user has visited identified based on the position information, calculates the activity information from the specified information. For example, if the user is identified have been to workplace activity information indicating that the work is calculated. Further, for example, if the user is identified have been to massage shop, activity information indicating that a massage is calculated.

Environment information is calculated based on the environmental sensor information detected by the environment sensor 14. Specifically, the mobile terminal 5, the temperature as environmental sensor information (i.e., temperature) to obtain information, to calculate the environmental information indicating the user's environment from the acquired information. For example, the mobile terminal 5 obtains the temperature information of the period in which the user is performing a predetermined activity, and calculates the environmental information indicating the average temperature during the period. The above period can be specified based on the position information and / or activity information. For example, the environmental information can be calculated and information indicating the average temperature in the moving period of the user, information indicating the average temperature during the user's activity (e.g., at work).

Emotion information image is captured by the camera 16, and / or is calculated based on the sound detected by the microphone 15. Specifically, the portable terminal 5, images the face of the user by the camera 16, to determine the user's expression from the image of the imaged face, calculates the emotion information indicating the user's emotion from facial expressions. The specific content of the emotion information is optional. For example, the emotion information may be indicative of one of four types of emotion emotions, may be one indicating the respective degree for four emotions (also referred to as weights) simply may indicate whether the negative emotions either a positive emotions.

The mobile terminal 5 acquires the user's speech by a microphone 15, and calculates the emotion information indicating the user's emotional from the voice of the acquired user. How to determine the emotion based on the user's voice may be any method, it may be emotion discrimination method is used in the prior art. For example, the mobile terminal 5, the acquired voice signal, a feature quantity for each predetermined unit interval (e.g., intensity, tempo, and intonation, etc.) is calculated, based on the feature amount calculated, emotion calculating an index showing. Further, the mobile terminal 5, the type of emotion (for example, anger, joy, and sadness) respectively for each stores the table showing the change pattern of the characteristic quantity. The change pattern is by experiment (i.e., based on the actual result of calculating the feature quantity by detecting a voice from a plurality of subjects) may be created. The mobile terminal 5, for each type of emotion, compares the pattern of change indicated by the table, a change in the calculated feature amounts, specifying the user of the emotion based on the comparison result. Thus, emotion information indicating the identified emotion is generated.

Wakefulness information calculated as described above is transmitted to the server 3 by the portable terminal 5. The timing of emergence information is transmitted is arbitrary, if the plurality of types of awake information is calculated, the mobile terminal 5 may transmit at different timings these arousal time information, respectively. The condition of emergence information is calculated is arbitrary, as the case may not be (if the condition is not satisfied) wakefulness information calculated.

Server 3, to correct a healthy degree on the basis of the received wake-time information. Incidentally, fine degree of interest is corrected in the present embodiment, fine degree was calculated in the user arousal, or a corrected vitality level based on the results of the mini game. Server 3 uses the wakefulness information, for example, as follows, to correct the fine degree.

For example, the received activity information, which indicates that the user has moved a long time walking believed user fatigue increases. Therefore, in this case, the server 3 is corrected so as to reduce the vigor of. Further, for example, the received activity information, which indicates that the user has performed the massage, the fatigue of the user is considered to decrease. Therefore, in this case, the server 3 is corrected so as to increase the vitality of. Incidentally, degree of increase or decrease the vigor of the moving distance (or travel time) indicated by the activity information may be changed according to the movement methods, and / or activities.

The environmental information received, indicating that it is not comfortable for the user (e.g., if the temperature is too hot during the movement), the considered user fatigue increases. Therefore, in this case, the server 3 is corrected so as to reduce the vigor of.

Further, the received emotion information, to indicate positive emotions (eg joy or pleasure), the fatigue of the user is considered to decrease. Therefore, in this case, the server 3 is corrected so as to increase the vitality of. Further, the received emotion information, to indicate negative emotions (eg anger and sadness) is considered to user fatigue increases. Therefore, in this case, the server 3 is corrected so as to reduce the vigor of.

As described above, the server 3 is awake information obtained during arousal of the user (in this embodiment, activity information, environmental information, and emotion information) based on, for correcting the vitality of. As a result, it is possible to calculate the healthy degree reflect the behavior or situation and the state of the user during arousal. In the present embodiment, the corrected fine degree as described above is notified to the user as a fine degree of 1 day. That is, the server 3 at a predetermined timing, transmits the vitality of the corrected to the mobile terminal 5. Although the predetermined timing is arbitrary, in the present embodiment, the user is a timing corresponding to the-bed (details will be described later). In the present embodiment, since the game process is performed based on the corrected fine degree, so that the emergence information is reflected on the game processing.

In other embodiments, the correction processing of the vitality level based on the wakefulness information may be executed by the portable terminal 5. At this time, the portable terminal 5, information indicating the vitality of the corrected (and the emergence information) transmitted to the server 3, the server 3 may store the received information in the storage unit.

Incidentally, after the user of the liftoff, the mobile terminal 5, the standby state (e.g., display 17 is a state of being turned off in the mobile terminal 5) or a, an image with different other applications and the gaming application display 17 or a state that is displayed. For these states, the game image is not displayed on the display 17. However, in these conditions, the mobile terminal 5 in response to a predetermined instruction input for displaying a game image, and displays the standby image in step S17. At this time, the portable terminal 5, fine degree at that time (when the fine degree is corrected, corrected vitality degree) receives from the server 3, the number of remaining unit corresponding energetic degree received it may be displayed. Thus, the portable terminal 5, after the user of the liftoff may be display information indicating the corrected fine degree in accordance with an instruction from a user. According to this, it is possible to present the vitality of the currently to the user.

(Processing of when the user-bed)
As shown in FIG. 6, the portable terminal 5, when detecting the incoming floor of the user, and displays the game image at the time-bed (step S21). Figure 13 is a diagram showing an example of a-bed when the game image displayed on the mobile terminal when entering the bed of the user. In entering the bed when the game image shown in FIG. 13, the player object 51, and the lifting time information 64 are displayed. As shown in FIG. 13, when the user leaves the floor, the image showing the state of the player object 51 returns from adventure is displayed on the display 17.

Upper fill floor when the game image is displayed for a predetermined time determined in advance. After that, the mobile terminal 5 displays a game image representing a replay of the adventure of the day (called a replay game image) (step S22). Incidentally, the switch from entering the floor during a game image in step S21 to replay the game image in step S22, may be performed automatically by the mobile terminal 5 in response to a predetermined condition as described above are met , it may be performed by a user instruction.

In step S22, the portable terminal 5, first, a request for transmission of the game result information indicating a game result to the server 3. In response to this request, the server 3 transmits the game result information to the portable terminal 5. The game result information includes information of the above-mentioned fine degree (i.e., vitality of the corrected). Further, details will be described later, in this embodiment, may be benefits to the user is granted in accordance with the game results. Therefore, the game result information includes information about the benefits to be granted to the user.

Upon receiving the game result information from the server 3, the portable terminal 5 generates a replay game image based on the game result information is displayed on the display 17. Figure 14 is a diagram showing an example of a replay game image. As shown in FIG. 14, the replay game image (in other words, the user of arousal) daytime replay adventure by the player object 51 that were made are displayed. For example, as shown in FIG. 14, the player object 51 is displayed how the fight enemy character 65. Note that the image to be displayed as a replay game image (in this embodiment, video) is displayed as a standby image in step S17, it may be the same as the image showing in adventure, or different it may be.

Further, as shown in FIG. 14, the replay game image, the game result information 66 indicating a game result is displayed. In the present embodiment, the game result information 66, as game result shows the damage amount given to the enemy character 65. Damage amount is calculated on the basis of the fine degree of the game result information indicates. Game results, the higher the vitality of good results is calculated so as to obtain. That is, the better the game result as health information users represents a good state is obtained.

In the present embodiment, the damage amount is calculated in the same calculation method remaining machine speed and in awake game image. That is, the amount of damage, although how representation as game element is different from the number of remaining unit, as a numerical value indicating the vitality of is the same as the number of remaining unit. For example, when the fine degree of waking the user is a 80 residue machine number is 80, when fine degree during-bed was 80, the damage amount becomes 80. Thus, (specifically, energetic degree) health information in the awake state and-bed by presenting a value indicating the same indication as, presenting an easy-to-understand changes in health information in conscious period for the user can. For example, a remaining machine number 80 at the time of awakening when the amount of damage at the time-bed was 70, the user may recognize that the vitality of the wake-up period is reduced (i.e., fatigue is increased) can.

In other embodiments, the above game result information may include information indicating a correction value of the fine degree of emergence information. In this case, the mobile terminal 5 may display a game element that represents the correction value of healthy degree. For example, the mobile terminal 5, and damage amount corresponding energetic degree of awakening, may be displayed and damage amount corresponding to the correction value as the game result information 66, respectively.

Also, in other embodiments, information acquired in a sleep period (e.g., biological information, and the like due to the Doppler sensor 24) and vitality level based on, fine based on the information acquired in the wake-up period (e.g., emergence information) degrees and may be calculated separately. At this time, the portable terminal 5 can be displayed the two types of fine degree as a separate game element.

Further, the mobile terminal 5 (in other words, according to the correction value corresponding to the awake information) corresponding to the awake information may be displayed replay game image representing a state in which operation of the player object 51 performs. For example, if the user is acquired activity information indicating that it has moved a long distance on foot is may be displayed image showing the player object 51 is moved a long distance, furthermore, the number of remaining machine may be performed is displayed indicating that the decreased. Further, for example, when the environment information indicates that the user was in a hot environment is acquired may be displayed image showing the player object 51 moves hot place, further, the number of remaining unit has decreased may be performed appears to indicate that. Further, for example, when the emotion information indicating the positive emotions has been acquired, the expression of the player object 51 in the adventure is smile may be further performed displayed indicating that the number of remaining unit is increased .

Further, replay in other embodiments, the mobile terminal 5 to represent that (in other words, according to the correction value corresponding to the awake information) corresponding to the awake information item is awarded to the player object 51 game image may be displayed.

In the present embodiment, the mobile terminal 5, to advance the game story according to the game result. Specifically, in the game of the present embodiment, a plurality of stages are prepared, the player object 51, defeat the enemy character appearing in the current stage (in other words, damage predetermined amount) by , proceed to the next stage. Therefore, when the cumulative value of the amount of damage caused by one or more game result has exceeded a predetermined amount, the portable terminal 5 displays a replay game image representing a state in which the player object 51 defeat an enemy character 65, further , the player object 51 to notify that the advance to the next stage.

In the present embodiment, it may award is given to the user according to the game result. If the privilege is granted, as shown in FIG. 14, the game result information 66 including information indicating that privilege is granted is displayed. In the present embodiment, as the privilege, available in the game (e.g., capable of purchase items) coins is applied. Although not shown in FIG. 6, in the game of the present embodiment, it is assumed that it is possible to obtain an item using the coin. Also, benefits, related to the game (e.g., the coins or items) is not limited to, it may be a privilege for the network service provided by the server 3. For example, benefits, points available in the network service, or it may be content that is provided in the network service.

Server 3 stores various information received from the mobile terminal 5 (in this embodiment, the health information, and, awake information) based on, necessity of privilege granting, and the contents of the benefits in the case of imparting decide. For example, the server 3 in response to the vitality level calculated on the basis of the various information to determine the necessity and content of benefits privilege granting. The server transmits the game result information, including the privilege information about the benefits to be given to the mobile terminal 5. Incidentally, bonus information, information indicating a privilege granted (e.g., information indicating the game item to be granted, or information indicating the number of points assigned) may be a, benefits itself information (e.g. the may be a data) content may be information indicating a notification to allow the use of benefits in the mobile terminal 5 (e.g., content). Thus, a specific method for giving the content as a privilege is arbitrary, may be a method of transmitting content data from the server 3 to the mobile terminal 5, the data of the content to the mobile terminal 5 are previously stored, (in other words, unlocked to) use of the content is permitted in response to the notification from the server 3 may be a method.

When receiving the game result information including the privilege information, the mobile terminal 5 executes the process of giving the benefit based on the privilege information. For example, the mobile terminal 5 (specifically, a parameter indicating the items and coins that the player object 51 possessed) parameters in the game processing in accordance with the granted items and coin change the, the user in the network service and updates the number of points of data having, and also stores the data of the contents in a predetermined storage unit.

Although not shown in FIG. 14, the replay game image may include advice information described above. For example, the server 3 stores various information received from the mobile terminal 5 (in this embodiment, the health information, and, awake information) based on, determine the contents of the advice, and generates advice information. Server 3 transmits the game result information including the generated advice information to the mobile terminal 5. The mobile terminal 5 displays the replay game image including advice information received from the server 3. The generation of the advice information may be performed by the portable terminal 5.

The replay game image, a predetermined condition (for example, it is displayed for a predetermined time determined in advance) may be displayed automatically stopped by the portable terminal 5 in response to is satisfied, the user's instruction it may be displayed stopped in accordance with the. Further, for example, the replay game image may be displayed stopped in response to the user was entering Nemushi.

In the above embodiment, the terminal system 2, the user in response to the mobile terminal 5 is attached to the base unit has detected that it has-bed. Here, a method of detecting that the user has-bed is optional, not limited to the above-described method. For example, in other embodiments, the terminal system 2, may be detected that the user has-bed in response to a user enters the detection range of the Doppler sensor 24 of the base unit 6.

In the above case, in order to keep the start of the detection by the Doppler sensor 24 before the user-bed, automatically the Doppler sensor 24 in response to a predetermined condition is satisfied also start detection good. Base For example, when the portable terminal 5 and the base unit 6 can be wireless communication, on the condition that the portable terminal 5 is within the predetermined range of the base unit 6, an instruction to start detection by the Doppler sensor 24 it may be performed in the apparatus 6. Incidentally, whether the mobile terminal 5 is within the predetermined range of the base unit 6 determines, when the portable terminal 5 and the base unit 6 performs short-range wireless communication is within the communication range of the mobile terminal 5 it may be performed by determining whether or not entered based device 6. Also, for example, the determination of the above, based on the position detected by the position detection unit 13, the portable terminal 5 may be performed by determining whether or not located in the user's home. Also, in other embodiments, in response to the user performing a predetermined input instruction to the portable terminal 5, an instruction to start detection by the Doppler sensor 24 is a mobile terminal 5 to perform the base unit 6 it may be.

Also, in other embodiments, the terminal system 2 sets the-bed predicted time, may start detection by the Doppler sensor 24 in response to become-bed predicted time. Note that-bed predicted time may be specified by the user, may be calculated based on past input floor time and / or sleep onset time about the user. For example, the terminal system 2 stores the sleep onset time over the last month, even recently January sleep onset time average time a predetermined time before the time (e.g. 1 hour before) is set as-bed predicted time good.

Also, in other embodiments, the portable terminal 5 detects that the user comes home, in response to a user comes home, may be such that the process in the step S21. Although a method of detecting the returning home of the user is arbitrary, for example, it can be detected based on the detection result by the position detection unit 13. Specifically, registered in advance the position of the user's home to the portable terminal 5, the portable terminal 5, the position of the mobile terminal 5 enters from the home position within a predetermined distance, which is detected by the position detection unit 13 in the case, it may be determined that the user has returned home. Further, for example, the terminal system 2, the Doppler sensor 24 of the base unit 6 may detect the returning home with. That is, the terminal system 2, the Doppler sensor 24 intermittently (e.g., every predetermined time) starts to determine the presence or absence of a user, returning home user when it is determined that the user is present it may be determined that was. Further, for example, the terminal system 2, the user of the detection means provided at a predetermined position within the home (for example, a camera or a motion sensor such as an infrared sensor) has, on the basis of the detection result by the detection means user of returning home may be detected.

As described above, in the present embodiment, in response to a user-bed, it is displayed image showing the player object 51 has returned from the adventure, furthermore, the game result (this embodiment replay adventure that day in the embodiment, an image representing a given to the enemy character damage amount) is displayed. This can in entrance floor when the user presents the vitality of reflecting the status and / or actions of a user of the day to the user. In addition, as in the case even awake at the time-bed, because healthy degree is displayed as a game element, the user health information (in the present embodiment, Genki degree) can be carried out to confirm a game, every day it can give the motivation to perform the check on an ongoing basis to the user.

In the present embodiment, the health information users game process becomes game input is executed. In other words, will be the user to measure the health information makes a game input, if the user does not measure the health information, so that the game does not proceed. According to this, it is possible to be performed by the user the measurement of health information a game, it is possible to give the user the motivation to perform a daily measurement on an ongoing basis.

Incidentally, in a series of processing in steps S11 ~ S22, the game image is displayed on the display 17 at an appropriate time (steps S11 ~ S13, S16, S17, S21, S22). Here, in the timing, or have the mobile terminal 5 is to be visible off of the display unit 17 in the standby state or, if the display 17 or are displayed images by different other applications and the gaming application is there. In this case, the portable terminal 5, instead of immediately displaying the game image, sound, display, and / or may perform the notification to the user by vibration. Further, the mobile terminal 5 in response to the user having received the notification performs a predetermined display instruction input, may be displayed a game image on the display 17.

In the above embodiment, the advice information is presented to the user at appropriate timing (time of user arousal, etc.). Here, in another embodiment, the terminal system 2, the contents of the calculated health information (e.g., evaluation results) in order to improve, may be presented to the user information different from advice information . That is, the terminal system 2, together with the advice information, or, in place of the advice information may be presented recommendation information to the user, may output the content. Recommendation information is information to introduce the product or the like to be recommended to the user in order to improve the content of the calculated health information. The content is a music and / or video is recommended to the user in order to improve the content of the calculated health information.

The terminal system 2, an image is displayed before the user leaves the floor, and / or an image which the user is displayed after-bed, and displays on the display 17 of the portable terminal 5 (or place of), it may be projected and displayed by the projector 25 of the base unit 6. Thus, the user may not take in hand portable terminal 5 at the time of awakening can confirm the evaluation results and the like. Note that the image displayed before the user leaves the floor, for example, the above awake game image, simplified display image, and / or a standby image. An image that the user is displayed after-bed, for example, the upper entry floor when the game image, and / or a replay game image.

As described above, the portable terminal 5 in response to the input floor is detected, measurement is initiated to calculate the health information of the user (step S23). In FIG. 6, the start timing of the measurement (step S23) is shown as following the display of the replay game image (step S22), and the measurement is started at an arbitrary timing in accordance with the input floor good.

When the measurement is started, the terminal system 2, as described above, to calculate the sleep metrics based on the measurement result. The terminal system 2 executes processing in response to the sleep state indicated by the sleep metric (step S24). As this information, for example, the following processing is executed.
· (Specifically, music and / or video prompts sleep onset) sleep onset fall asleep content in front of the user currently when playing a processing user to end the reproduction in response to user was entering Nemushi and arousal time in slightly before the timing when the process user is awake for displaying (specifically, music and / or video prompts wakefulness) arousal content portable terminal 5 in response to falling asleep process user to start playing the to change the status (e.g., turning off the power supply to the standby state, etc. to manner mode) to change the state of the portable terminal 5 in response to the awakening process user (e.g., the power is turned on, etc.) the process still cancel the manner mode, when presenting the image to the user in the above process, the display 17 may be used in the portable terminal 5, projects of the base apparatus 6 Motor 25 may be used, both may be used.

[3. Specific Example of Processes in Information Processing System]
Next, a specific example of processing executed in the information processing system.
First, referring to FIGS. 15 to 18, a specific example of processing executed in the terminal system 2. Mobile terminal 5, the measurement process, awakening during processing, during the day processing, and performs a-bed during the processing. In the present embodiment, each of these processes, the game program stored in the portable terminal 5 processing unit 11 is performed by executing. In other embodiments, a portion of each of these processes (e.g., measurement processing) may be implemented by a different other programs from the game program. Furthermore, each process, and a part of the whole process is another information processing apparatus (e.g., base unit 6 and / or server 3) may be executed by the portable terminal 5 and the other information processing apparatus it may be performed by but cooperating.

Measurement process is a process for calculating the health information by measuring biological information in the main sleep period of the user. Awake processing mainly when the user awake, (specifically, fine degree) Evaluation results of health information is a process for presenting to the user a game image or the like including a. During the day the treatment is mainly active period during the day in (in other words, the period of until the user-bed after lifting), the emergence information described above (specifically, activity information, environmental information, and a process for calculating the emotion information). -Bed during the process, mainly when the user-bed is a process for presenting to the user a game image or the like including an evaluation result of the health information of the day. Thus the above process is the generally-are those executed in different periods, two or more processing among the processing in a period of time may be executed in parallel. It will be described in detail above processes.

(3-1: measurement process)
Figure 15 is a flow chart showing an example of the measuring the flow of the processing executed in the mobile terminal 5. In the present embodiment, a series of processes shown in FIG. 15, the user is detected to have-bed, i.e., the mobile terminal 5 is started in response to that is attached to the base unit 6. In other embodiments, the series of processing may be started in response to the communication between the mobile terminal 5 and the base unit 6 is started, the user is the mobile terminal 5 or the base unit 6 it may be initiated in response to performing a predetermined start operation against.

In the present application, the processing of each step in the flowchart shown in the drawings are merely illustrative, as long as the same result is obtained, it may be changed the processing order of the steps, the processes of the steps Additionally (or place of) another process may be executed. Also provided herein (specifically, the portable terminal 5, the base 6, and the server 3) each apparatus processes of the steps of the flow chart will be described as the CPU of performing, in the flow chart the processing of some steps, a processor or a dedicated circuit other than the CPU may be executed.

In the measurement process, first, in step S31, the mobile terminal 5 executes the start processing. Beginning the process, in accordance with the start of the series of processes shown in FIG. 15 (in the present embodiment, in response to the mobile terminal 5 is attached to the base unit 6) is a process executed. In the present embodiment, as the starting time of processing, detection start processing and playback start process is executed (details will be described later).

In the detection start processing, the portable terminal 5, a sensor for detecting biological information for calculating the health information (i.e., the Doppler sensor 24) starts the detection by the. That is, the processing unit 11 of the mobile terminal 5, to the base unit 6, performs an instruction to start the detection operation. In response to this instruction, the control section 22 of base apparatus 6 starts the detection operation Doppler sensor 24.

Further, in the reproduction start process, the mobile terminal 5 starts the reproduction of sleep onset content. That is, the processing unit 11 reads the sleep onset content stored in advance, to reproduce the fall asleep content using a display 17 and / or speaker. The content (i.e., hypnagogic content or arousal content) to be reproduced in the terminal system 2 may be stored in the base unit 6, it may be stored in the portable terminal 5, an external device ( for example it may be obtained via the mobile terminal 5 from the server 3).

Further, when the start processing in step S31 is performed (in other words, in response to the mobile terminal 5 is attached to the base unit 6), the base unit 6 executes the charge start processing. In charge start processing, the base unit 6 starts charging the portable terminal 5. Specifically, the control unit 22 executes an instruction to start charging the power acquisition unit 23. In response to this instruction, the power acquisition unit 23 supplies the electric power supplied from an external power source, to the mobile terminal 5 via the connector 21. The base unit 6 is assumed to be a state of being connected to an external power source (i.e., a state in which the power plug is connected to the outlet). The base unit 6 checks the battery level of the mobile terminal 5 may be started charging operation on condition that the remaining battery level is equal to or less than a predetermined amount. Charging operation is terminated in response to the battery of the portable terminal 5 is charged to capacity.

In other embodiments, processing is executed as start process is optional, the three processes (i.e., the detection start process, reproduction start process, the charge start processing) any one or two of processing to may be executed, may be different from the processing performed from the above three processes, the start process may not be performed.

After the process in step S31, the processing in steps S32 ~ S38 to be described below is repeatedly executed during the sleep period. In the present embodiment, the processing loop of steps S32 ~ S38 is executed at every predetermined time.

In step S32, the mobile terminal 5, the detection result of the Doppler sensor 24 (i.e., biometric information) acquired. Doppler sensor 24 starts detecting operation by the detection start processing of the step S31 (specifically, the output waveform) detection result output to the control unit 22. Controller 22 sends a detection result to the portable terminal 5. Thus, the detection result of the Doppler sensor 24 is acquired in the mobile terminal 5. The control unit 22, to the information of the detection result of the Doppler sensor 24 may be transmitted directly to the mobile terminal 5, some processing on the detection result (for example, a process of removing noise contained in the signal detection result, it may be transmitted to the mobile terminal 5 performs processing or the like) for calculating the sleep metrics.

In step S33, the portable terminal 5 calculates the sleep information (e.g., various sleep metrics). That is, the processing unit 11, has been detected result obtained in step S32 (e.g., biological information) based on, calculates various sleep metrics. Calculation of the sleep metric is above: carried out by the method described in "(2-2 Health calculation method information)". In the step S33, the processing unit 11, information used to determine a sleep state of the user in step S34 and S35 will be described later (i.e., sleep metric) may be calculated. In step S33, the processing unit 11, sleep metrics which can not be calculated unless the point at which the sleep period has ended (e.g., total sleep time), (in other words, the degree of fatigue) Fatigue information, and not to calculate a fine degree it may be.

In step S34, the mobile terminal 5 executes the processing in accordance with the sleep state of the user (step S24 shown in FIG. 6). That is, the processing unit 11, similarly to the step S24, determines whether the sleep state of the user becomes a predetermined state. When it is determined that a condition exists, the operation of the portable terminal 5 (and the base unit 6), the operating mode, and / or setting is controlled.

In step S35, the mobile terminal 5 determines whether or not the user has awakened. That is, the processing unit 11, the biometric information is acquired in step S32, and / or, based on the sleep metrics calculated in step S33, determines whether the user has awakened. If the user is determined to have awakened, the series of processing in steps S36 ~ S38 are executed. On the other hand, if the user is determined not to be awakened, the processing of a series of processing is skipped step S32 in step S36 ~ S38 is executed again. That is, until it is determined that the user has awakened, the series of processing in steps S32 ~ S35 are repeated.

In step S36, the mobile terminal 5 (specifically, the biological information) information obtained during sleep period to calculate the health information based on. Health information, described above: is calculated by the method described in "(2-2 calculation method of health information)". In the present embodiment, at step S36, the processing unit 11 first calculates the autonomic nervous index based on the obtained biometric information in step S32. The processing unit 11, sleep metrics can not be calculated during sleep period (e.g., total sleep time, etc.) is calculated based on the obtained biometric information in step S32. Further, the processing unit 11 calculates the degree of fatigue and vigor degree based on the autonomic nervous index with various sleep metrics. Above the health information including the fatigue index and sleep metric is calculated.

In step S37, the portable terminal 5 transmits the health information calculated in step S36 to the server 3. That is, the processing unit 11 transmits to the server 3 health information calculated by the communication unit 10. Thus, health information on sleep period one is transmitted to the server 3 will be saved in the server 3. Thus, in the present embodiment, the portable terminal 5 is automatically transmitted to the server 3 of information to be transmitted. That is, the user even without instruction, information to the server 3 is uploaded.

After the step S37, the portable terminal 5 terminates the measurement process. At this time, the processing unit 11 of the mobile terminal 5, to the base unit 6, performs an instruction to stop the detection operation. In response to this instruction, the control section 22 of base apparatus 6 stops the detection operation Doppler sensor 24.

Note that (if for example, the hit the mobile terminal 5 when the user struck rolling over) In the present embodiment, during the sleep period, when the portable terminal 5 for any reason is removed from the base unit 6, the base device 6 can not transmit the detection result of the Doppler sensor 24 to the mobile terminal 5. In this case, the base unit 6, the storage unit of the own data of the detected result which could not be transmitted to the mobile terminal 5 (e.g., memory, etc.) stored in a. And then the portable terminal 5 in response to that is attached to the base unit 6, the base unit 6 transmits the data of the detection result stored in the storage unit to the portable terminal 5. The mobile terminal 5 that has received the above data, calculates the sleep metrics based on the detection result (step S33). The mobile terminal 5 may not perform control processing (step S34) based on the sleep metrics calculated this time. Sleep index calculated this time is because it is based on the past detection result.

Further, based on the calculated sleep metrics, if the user is determined to be awake (if the decision result in the step S35 is affirmative), the mobile terminal 5 executes the processing in steps S36 ~ S38 . Thus, even when the portable terminal 5 in a user's sleep is detached from the base unit 6, the next time the mobile terminal 5 is attached to the base unit 6, health information is calculated to the server 3 It is sent. Thus, for example, when the user awake, when the portable terminal 5 is noticed that was out from the base unit 6, the user may be wearing the portable terminal 5 to the base unit 6. Thus, the terminal system 2 is able to calculate the health information transmitted to the server 3.

Note that in other embodiments, if the mobile terminal 5 and the base unit 6 can be wireless communication, a portable terminal 5 is a case where out of the base unit 6, the processing in steps S32 ~ S35 it is possible to continue to run.

(3-2: awake during processing)
Figure 16 is a flowchart illustrating an example of wakefulness the flow of the processing executed in the mobile terminal 5. In the present embodiment, a series of processes shown in FIG. 16 is started in response to that the user has awakened is detected (Yes in step S35).

In the awake time process, first, in step S40, the portable terminal 5 displays the wakefulness game image described above (step S11 shown in FIG. 6). Incidentally, prior to the step S40, the processing unit 11, in the processing of step S36 in the measurement process (FIG. 15) (specifically, fine degree) Evaluation results of medical information previously calculated. Processing unit 11, awake to generate a game image based on the calculated health information is displayed on the display 17. When the predetermined time has elapsed from the display of the awake game image, processing in step S41 is executed.

In step S41, the portable terminal 5 displays the simplified display image described above (step S12 shown in FIG. 6). That is, the processing unit 11 generates a simple display image on the basis of the health information calculated in the process at step S36, displayed on the display 17. When the predetermined time has elapsed from the display of the simplified display image, the processing of step S42 is executed.

In step S42, the portable terminal 5 displays the standby image described above (step S13 shown in FIG. 6). That is, the processing unit 11 displays the standby image prepared in advance on the display 17.

In step S43, the mobile terminal 5 determines whether or not to display details. That is, the processing unit 11 determines during the display of the standby image, instruction input for displaying details (e.g., the input to the detail display button 56) whether or not been performed. If the decision result in the step S43 is affirmative, the process of step S44 is executed. On the other hand, when the determination result of step S43 is negative, the process of step S45 is executed.

In step S44, the mobile terminal 5 executes the detailed display process (step S14 shown in FIG. 6). In detail display processing, the processing unit 11, based on the health information calculated in the process at step S36 to create a variety of detailed display image (FIGS. 10 and 11), and displays on the display 17. In addition, depending on the content of the detail display image processing unit 11 reads the past health information stored in the mobile terminal 5 may create the detailed display image on the basis of the health information. The processing unit 11 receives the health information of other users from the server 3, may create the detailed display image on the basis of the health information. Processing in step S44, the input of the predetermined end instruction by the user (e.g., input to the menu button 59) to exit in response to is performed, then the process of step S42 is executed again.

On the other hand, in step S45, the mobile terminal 5 determines whether or not to execute the mini game. That is, the processing unit 11 determines during the display of the standby image, an instruction input indicating the execution of the mini-game (e.g., the input to the mini-game button 57) whether or not been performed. If the decision result in the step S45 is affirmative, the process of step S46 and S47 are executed. On the other hand, when the determination result of step S45 is negative, the process of step S48 to be described later is executed.

In step S46, the mobile terminal 5 executes the mini-game (step S15 shown in FIG. 6). That is, the processing unit 11 receives the game input by the user, and executes the mini-game processing in accordance with the game input, and displays a game image representing the result of the mini-game on the display 17. If the mini-game ends, or when the instruction to end the mini game user has performed, the processing of step S46 is terminated, then the process of step S47 is executed.

In step S47, the mobile terminal 5 to correct the vitality level based on the mini-game results, and transmits the vitality of the corrected to the server 3. That is, the processing unit 11 based on the result of the mini game at step S46, corrects the vitality level calculated in step 36. Further, the processing unit 11 transmits to the server 3 the information indicating the corrected fine degree by the communication unit 10. After step S47, the processing in step S42 is executed again.

On the other hand, in step S48, the mobile terminal 5 determines whether or not the user has lifting. That is, the processing unit 11, the mobile terminal 5 determines whether or not removed from the base unit 6. If the decision result in the step S48 is affirmative, the process of step S49 is executed. On the other hand, when the determination result of step S48 is negative, the process of step S43 is executed again. That is, in this case, the display of the standby image is continuously performed.

In step S49, the portable terminal 5 displays the lifting when the game image as described above. That is, the processing unit 11 (specifically, energetic degree) health information calculated in the process at step S36 or the step S47 to generate a lifting when the game image based on, displayed on the display 17. When the predetermined time has elapsed from the display of the lifting when the game image, the portable terminal 5 terminates the time series of awakening process shown in FIG. 16.

(3-3: during the day processing)
Figure 17 is a flowchart illustrating an example of a medium processing flow day executed in the mobile terminal 5. In the present embodiment, a series of processes shown in FIG. 17 is started in response to the awakening time process (FIG. 16) has been completed (in other words, is performed following the wakefulness treatment).

In step S50, whether the mobile terminal 5 (specifically, energetic degree) health information if not (in other words or calculating the wakefulness information for correcting the timing of calculating the wakefulness information arrives and it determines whether or not). That is, the processing unit 11 performs the determination process whether or not a condition for calculating is satisfied with any of a variety awake information. This specific contents of determination processing is arbitrary, in the present embodiment, the determination process in the following process is conducted.

For activity information, processing unit 11 determines whether a condition for calculating the activity information is met. This calculation condition is arbitrary, in the present embodiment, the movement of the user is completed (a first condition), and the user to place to calculate the activity information is to the fact (second condition stays ) is used. If one of the first and second conditions is satisfied, it is determined that conditions for calculating the activity information is met.

Whether the first condition is satisfied, for example, the detection position indicated by the position information, after moving from one location, or a predetermined time (e.g., 10 minutes or more) depending on whether stopped by location it can be determined.

Further, whether the second condition is satisfied it is determined as follows. That is, the processing unit 11 first determines the detection position is a predetermined time or more in the location registered in advance whether or not start moving after was limited (e.g., 15 minutes or more). Not remain for a predetermined time or more, or, if it is determined not to start moving, processing unit 11 determines that the second condition is not satisfied. It should be noted that the above-mentioned "pre-registered location" is, for example, such as the home or workplace of the user, may be a place on the user, gyms, restaurants, or may be at the facility, such as a movie theater,. If it is determined that the user stayed at this location, activity information is calculated.

Environmental information, processing unit 11 determines whether a condition for calculating the environmental information is met. In the present embodiment, it is assumed that the environment information is calculated at the timing when the activity information is calculated. Therefore, the processing unit 11, the determination is performed on whether activity information is calculated.

For the emotion information, the processing unit 11 determines whether a condition for calculating the emotion information is met. In the present embodiment, for example, the following conditions are set as a condition for calculating the emotion information.
· Period the user's voice or image is detected (e.g., a predetermined length or more periods) predetermined event period that users who quit is terminated it, preset call by the mobile terminal 5 has been completed things you, the user of the audio / image previously registered data of the user in advance of the audio / video to a mobile terminal 5, by comparing the voice / image detected by the microphone 15, a voice / image registered in can be identified. Further, the predetermined event period, for example, can be identified on the basis of the information registered as a schedule in the mobile terminal 5 (e.g., conference, etc.).

In the step S50, the processing unit 11, information for calculating the wakefulness information (specifically, positional information, environmental sensor information, the information of the captured image by the camera 16, and the information of the detected sound by the microphone 15) acquires and performs the determination process based on the acquired information. When the determination result of the step S50 is affirmative, the process of step S51 is executed. On the other hand, when the determination result of the step S50 is negative, the process of step S51 is skipped and processing in step S52 is executed.

In step S51, the mobile terminal 5, among various awake information, performs calculation processing for calculating conditions are met information. The mobile terminal 5 transmits the calculated information to the server 3. Specifically, if the condition is met on the activity information at step S50, the processing unit 11 calculates the activity information based on the position information. Further, if the condition regarding environmental information is satisfied in step S50, the processing unit 11 calculates the environmental information on the basis of the environmental sensor information. Further, if the condition regarding emotion information is satisfied in step S50, the processing unit 11, an image is captured by the camera 16, and / or to calculate the emotion information based on the sound detected by the microphone 15. Then, the processing unit 11 transmits to the server 3 the calculated information by the communication unit 10. Processing of a step S52 in step S51 to execute.

In step S52, the mobile terminal 5 determines whether or not to display a standby image. That is, the processing unit 11, the display timing of the standby image (i.e., the timing at which a predetermined time has elapsed from the start of the display of the lifting when the game image by the step S49 described above) or not has come, and, for displaying a game image determines whether a predetermined instruction input. Then, when the display timing is determined to have arrived, or when it is determined that the above command input, the processing unit 11 determines to display the standby image, it executes the process of step S53. On the other hand, it is determined that the display timing has not arrived, and, when it is determined that there is no the input instruction, the processing unit 11 determines not to display the standby image, executes the process of step S56 to be described later.

In step S53, the mobile terminal 5 determines whether the user has passed a predetermined time after ambulation. That is, the processing unit 11 determines whether the determination result in step S48 described above a predetermined time has elapsed since a positive. If the decision result in the step S53 is affirmative, the process of step S54 is executed. On the other hand, when the determination result of step S53 is negative, step S55 is executed.

In step S54, the mobile terminal 5, the mini-game to display the standby image can not (step S17 shown in FIG. 6). That is, the processing unit 11 displays the standby image without the mini-game button 57 on the display 17. If the standby image is displayed, the user can not perform a mini-game. After step S54, processing in step S56 is executed.

In step S55, the mobile terminal 5, the mini-game displays a standby image possible (step S17 shown in FIG. 6). That is, the processing unit 11 displays the standby image including a mini-game button 57 (FIG. 9) on the display 17. If the standby image is displayed, the user can perform a mini-game. After step S55, processing in step S56 is executed.

In step S56, the mobile terminal 5 determines whether or not to display details. Determination processing in step S56 is the same as the determination processing in step S43. Note that the standby image during processing of the step S56 if it is not displayed, it is determined not to perform display details. If the decision result in the step S56 is affirmative, the process of step S57 is executed. On the other hand, when the determination result of step S56 is negative, the process of step S58 is executed.

In step S57, the mobile terminal 5 executes the detailed display process (step S18 of FIG. 6). Detailed display processing in step S57 is the same as the detailed display processing in step S44. Processing in step S57 (specifically, the input to the menu button 59) the input of the predetermined end indicated by the user to exit in response to the has been made, then the process of step S53 is executed again.

In step S58, the mobile terminal 5 determines whether or not to execute the mini game. Determination processing in step S58 is the same as the determination processing in step S45. Note that the standby image during processing of the step S58 if it is not displayed, it is determined not to perform the mini game. If the decision result in the step S58 is affirmative, the process of step S59 is executed. On the other hand, if the result of the determination at the step S58 is negative, the process of step S61 is executed.

In step S59, the mobile terminal 5 executes the mini-game (step S19 shown in FIG. 6). Mini game processing in step S59 is the same as the mini-game processing in step S46.

In the following step S60, the mobile terminal 5 to correct the vitality level based on the mini-game results, and transmits the vitality of the corrected to the server 3. Processing in step S60 is the same as the processing in step S47. Processing of a step S61 in step S60 is executed.

In step S61, the mobile terminal 5, the user determines whether-bed. That is, the processing unit 11, the mobile terminal 5 determines whether or not mounted on the base unit 6. When the determination result of step S61 is negative, the process of step S50 is executed again. Then, until the user is determined to have-bed, a series of processing in steps S50 ~ S61 are repeated. On the other hand, when the determination result of step S61 is affirmative, the processing unit 11 terminates the medium processing date shown in Figure 17.

(3-4:-bed during processing)
Figure 18 is a flowchart showing an example of a-bed when the flow of the processing executed in the mobile terminal 5. In the present embodiment, a series of processes shown in FIG. 18 is started in response to that the user has-bed is detected (Yes in step S61).

In-bed time process, first, in step S71, the mobile terminal 5, game result (specifically, a game result based on the vitality of the day today) requesting transmission of the game result information indicating a relative server 3 to. In response, the server 3 transmits the game result information about the user to the portable terminal 5. Processing unit 11, the game result information transmitted from the server 3, received via the communication unit 10, the storage unit of the portable terminal 5.

In subsequent step S72, the portable terminal 5 displays the input floor when the game image of the above (step S21 shown in FIG. 6). That is, the processing unit 11 displays a-bed when the game image prepared in advance on the display 17. When the predetermined time has elapsed from the display of the upper fill floor when the game image, the process of step S73 is executed.

In step S73, the portable terminal 5 displays the above-described replay game image (step S22 shown in FIG. 6). That is, the processing unit 11 generates the incoming floor when the game image based on the game result information received via the communication unit 10 from the server 3, and displays on the display 17 (see FIG. 14). This, along with the game result based on the vitality of the day is presented to the user, benefit is granted to the user in some cases. A predetermined time has passed from the video playback completion replay game image in step S73, the portable terminal 5 terminates the incoming bed during the process shown in FIG 18.

(3-5: processing in the server)
Next, with reference to FIG. 19, a specific example of processing executed in the server 3. As described above, the portable terminal 5 transmits the health information and the like to the server 3. Server 3, the health of the user evaluation (i.e., corrects the vitality of) or, or provide network services in accordance with the evaluation result based on the received information. The following describes details of processing executed in the server 3.

Figure 19 is a flowchart showing an example of the flow of processing executed in the server. Flowchart shown in FIG. 19, regardless of the state of the portable terminal 5 (e.g., regardless of whether a sleep period or a wake-up period of the user) are performed continuously.

First, in step S81, the server 3 determines whether it has received information from the mobile terminal 5. As described above, the mobile terminal 5 transmits various information to the server 3 at an appropriate timing. Here, the information server 3 receives from the portable terminal 5, for example, or health information transmitted in step S37, (specifically, vitality of the corrected) health information transmitted in step S47 or S60 Ya , arousal during information (here, activity information, environmental information, and emotion information) calculated in step S51, and the like. When the various information is received at the server 3, the result of the determination in step S81 becomes affirmative. On the other hand, if the above various information is not received by the server 3, the result of the determination in step S81 is negative. If the decision result in the step S81 is affirmative, step S82 is executed. On the other hand, if the decision result in the step S81 is negative, the process of step S82 is skipped, the process of step S83 to be described later is executed.

In step S82, the server 3 stores the information received from the mobile terminal 5 for each user (also referred to as accumulation). That is, (specifically, CPU) processing unit of the server 3, the user data indicating a variety of information about the user is updated to include the received information. The following describes the user data stored in the server 3.

Figure 20 is a diagram illustrating an example of a data structure of the user data stored in the server according to the present embodiment. Figure 20 shows the user data to be stored for a single user to the server 3. Although not shown, the server 3, respectively, for each user in the network services, and stores the same data and user data shown in FIG. 20 in a predetermined storage unit.

As shown in FIG. 20, the user data, user identification data, user status data, game data, and a bonus data. In the server 3, these five kinds of data sets are stored for each user. The user data may also include other data in addition to these four types of data may not include some of the data of these four types of data. In other embodiments, the user data may, for example, may include preference data indicating the user's preference. The user data in addition to user status data, information used to calculate the information indicating the user state data (e.g., the above-mentioned position information and environmental sensor information, etc.) may be stored.

User identification data is data indicating identification information for identifying a user (e.g., ID, password, etc.). In the present embodiment, the predetermined registration processing executed at the start of the network service to the user, the identification information is set, the user identification data is stored in the server 3 indicating the identification information set. In the present embodiment, the portable terminal 5, when transmitting information to the server 3 transmits to the server 3, including the identification information to the information. Server 3, based on the identification information included in the received information, to identify the source of the user.

User status data is data indicating various states of the user. In the present embodiment, the user state data includes data representing the health information, data indicating the activity information, data indicating the environmental information, and the data indicating the emotion information. These four data each include a plurality of information among the information acquired in the past. That is, in the present embodiment, the four data, for example, a predetermined storage period in the past from the latest (for example, 1 year) indicating information obtained in. Therefore, if the information in the step S81 is received, in step S82, the server 3, so that the contents including the information received, among the above four data, data corresponding to the received information to update. The server 3 is the above storage period for the above four data are the same, the length of the storage period for the four data is arbitrary, it may be different.

Game data is data indicating information on the game processing for receiving the health information, including data indicating the game result. The game data, information about the mini-games above (e.g., information of the result of the mini game) may include data indicating a.

Privilege data is data showing the benefits granted to the user. Bonus data, for example, data indicating the benefits of history given to the user so far.

Referring back to FIG. 19, in step S83, the server 3 determines whether to correct the vitality of. That is, the processing unit of the server 3, the information received in step S81 that the last execution, determines whether the wake time information. If the determination result of step S83 is affirmative, step S84 is executed. On the other hand, when the determination result of step S83 is negative, the process of step S84 is skipped, the process of step S85 to be described later is executed.

In step S84, the server 3 corrects the vitality level based on the information received in step S81. That is, the processing unit of the server 3, by the method described in the above "(process in the daytime)", corrects the vitality level based on the received information. Processing of a step S85 in step S84 is executed.

In step S85, the server 3 determines whether the game result information request to send a had from the mobile terminal 5. When the determination result of step S85 is affirmative, step S86 is executed. On the other hand, when the determination result of step S85 is negative, the process of step S86 and S87 are skipped, the process of step S81 is executed again.

In step S86, the server 3 on the basis of the information received in step S81, to impart benefits to the user as needed. That is, the processing unit of the server 3, based on the vitality of the present, whether or not to give a benefit, and, in the case of imparting a benefit to determine the content of benefits. It should be noted that the vitality of the moment, which is finally calculated healthy degree in one day today. Specifically, vitality of the current, if the processing of step S84 is performed today, is the last on the corrected fine degree in the process of step S84 executed, execution processing of the step S84 is today If not, a fine degree indicated by the information received last by the processing in step S81.

In the following step S87, the server 3 transmits the game result information described above to the mobile terminal 5 that has transmitted the request in step S85. That is, the processing unit of the server 3 generates a game result information includes information indicating the vitality of the present time, and information indicating a privilege granted in step S87, and transmits to the mobile terminal 5. After step S87, processing in step S81 is executed again.

As described above, in the present embodiment, in response to the various wakefulness information for correcting the vitality of has been received, processing for correcting the vitality of (step S84) is executed, the game result information in response to the request to send has had from the mobile terminal 5, the process of treatment for imparting benefits (step S86) is executed. Here, the timing at which the process of step S84 is executed, and the timing of the process of step S85 is performed is arbitrary. For example, in other embodiments, depending on that there was a the request, the process of step S84 may be performed. Further, in response to the emergence information is received, the processing of step S85 may be performed.

Server 3 repeatedly executes a series of processing in steps S81 ~ S87 explained above. The server 3 may show, for each mobile terminal with a plurality of users to receive a network service, to perform a series of processing in steps S81 ~ S87.

In the above, with reference to FIGS. 15 to 19, describing the main processing to be executed in the portable terminal 5 and the server 3. Here, the portable terminal 5 and the server 3 is not limited to the processes shown in FIGS. 15 to 19, may perform other processing. For example, the server 3 may manage the website for providing the above-described network services. The user can be accessed using the mobile terminal 5 in this web site, you can view the result of evaluation by the server 3, it is possible to or made a purchase of the product or the like on the recommendation information to be presented from the server 3. In this case, the mobile terminal 5 receives the input for performing various requests for the web site, and performs processing in accordance with the input received. And this request, for example, a request to log in to the web site, web page (page is shown, for example, the evaluation results, and, including the page to perform the purchase of goods, etc.) within the web site request to view, as well as, products, etc. is a request or the like to buy. The server 3 executes processing according to a request from the mobile terminal 5. For example, if the request is a login request to the Web site, the server 3 (specifically, a web page) images for login transmits information to the portable terminal 5. Further, for example, if the request is a request for acquisition of the web page, the server 3 transmits the information of the web page to the mobile terminal 5.

[4. Effects of the Embodiment]
(Effect and relates that the processing of the application in conjunction with the sleep state is performed)
In the embodiment described above (specifically, a game application) Application information processing system 1 to perform acquires user information for calculating information about sleep of the user (step S32). The information processing system 1, based on the acquired user information, to determine the state regarding sleep of the user (step S33, S35, S48, S61).

Here, the "state associated with the user's sleep", for example, waking (including mid-arousal) and may be a sleep state of the user such as sleep onset, such as-bed and leaves the floor, a user of the state before and after the sleep it may be. Thus, the "user information" may be information capable of calculating the sleep state of the user may be information capable of calculating the state of the user before and after the sleep. That is, the user information (specifically, the biological information) information detected by the Doppler sensor 24 may be a, or may be information indicating a detachment state of the portable terminal 5 and the base unit 6. Moreover, "state associated with the user's sleep", the above-described user's operation (e.g., arousal, sleep onset,-bed, and lifting, etc.) may be in the state relating to the status regarding evaluation of sleep (e.g., above state vitality of the satisfy a predetermined condition, and more specifically, the cumulative value of the damage to the enemy character may be a state) fine degree exceeding a predetermined amount is calculated.

Further, the information processing system 1, the predetermined information processing in the application, run in conjunction with the state regarding sleep of the user. Here, "in conjunction with information processing in the state associated with the user's sleep and run", executes information processing in response to the state related to the sleep of the user becomes a predetermined state, or sleep-related user state means that executes information processing in response to a predetermined condition is satisfied. In the above embodiment, the "in conjunction with information processing in the state associated with the user's sleep run" is the state relating to the sleep of the user becomes a predetermined state (or the state related to sleep users predetermined in response to) satisfying the conditions, automatically by executing the processing, or are realized by executing the processing in real time.

Further, in the case where "processing of in conjunction with the state associated with the user's sleep run" may be a relevant to the contents of the status and information processing, the result of effects and the relevance of the information processing state there may be. For example, as an example of the former, in the above embodiment, the information processing to perform an operation corresponding to the state regarding sleep of the user to the player object is performed. That is, in the above embodiment, awakening the user, lifting, and processing for displaying the image showing the player object 51 performs an operation in accordance with the-bed is performed (step S11 shown in FIG. 6, S16, S21 ). As examples of the latter, in the above embodiment, the information processing as a good game result in accordance with the good evaluation results for the state regarding sleep of the user is obtained can be obtained is performed. That is, in the embodiment described above, evaluation of the state related to the user sleeping results (specifically, the game result) depending on, proceeding with the game story is executed (step S22 shown in FIG. 6).

According to the above, since the information processing system 1 in conjunction with the state regarding the sleep users executes information processing, the user may not perform the operation for causing the information processing. According to this, it is possible to simplify the operation of the user in the information processing system 1. Therefore, it is possible to improve user convenience.

In the above embodiment, the information processing system 1 will automatically begin execution of the predetermined information processing according to that user's status becomes a predetermined state is determined. The information processing system 1, sequentially acquires the user information in real time in a given time period (step S32), based on the acquired user information, and sequentially determining the state regarding sleep of the user (step S33, S36), the state of the user starts executing the predetermined processing in response to it is determined that that a condition exists (step S40, S49, S72). According to the above, predetermined processing is performed in real time in response to a user of the state becomes a predetermined state. The predetermined period of time, in the above embodiment, the user is a period until the mobilization after-bed, may be any time period. For example, in other embodiments, the predetermined period may be a period until the user awake from-bed or input Nemushi may be a period designated by the user.

Here, "automatically" as used herein means "even without a user's operation (or instruction)". In other words, "automatically executes information processing" and executes the information processing means that there is no need to perform the user (more specifically, the causes start execution) operation or instruction for. Note that "automatically" is not intended to mean that not require any operation (or instruction) to the user. For example, the information processing system 1 performs a notification that execution of the predetermined information processing is started for the user, the user instruction not to execute the predetermined processing is performed within a predetermined time from the notification If no may be executed the predetermined information processing. Alternatively, the information processing system 1 in the predetermined execution start time or running processing, may request the input of predetermined information to be used in the information processing to the user.

Further, the "real-time" as used herein, is not limited to the meaning which has exactly immediacy. For example, the information processing system 1, after being detected by the user information sensors, etc., may acquire the user information after a lapse of about ten seconds from a few seconds. The information processing system 1 may perform a predetermined processing after the state of the user has passed about ten seconds from a few seconds after a predetermined state.

In the above embodiment, the information processing system 1 calculates based on the health information about sleep and / or fatigue of the user in the user information (step S33, S36), the predetermined information using the health information as input for an application process is executed (step S40, S72, S73). According to this, the information processing based on the health information can be executed even if the user performs no instruction operation.

The information processing system 1 performs the predetermined processing determined based on health information parameters about the object (player character) to appear in the application (step S40,). According to this, the parameters of the object changes based on the health information, so that the health condition of the user is reflected in the state of the object. This makes it possible to have the user interest in health information, it is possible to give the user the motivation to check the health information. Note that the application has been as in the above embodiment is a game application, in other embodiments, may be any application not limited to the game. The parameter, in the above embodiment employs a indicates the amount of damage to the player object remaining machine number and the enemy character, contents shown parameter is optional.

The information processing system 1, as the predetermined processing, (in the above embodiment, the process of calculating the amount of damage to the enemy character) predetermined game process in the game application executing on the basis of the health information. According to this, an act such as measurement and confirmation of health information a user can perform a game, it is possible to provide the motivation to perform these actions on an ongoing basis to the user.

The information processing system 1, based on the health information, the health (in the above embodiments, fine degree) information indicating the contents presented to the user and generates advice information and / or recommendation information for improving the (7, 8, step S40). According to this, it is possible to provide useful information to the user. In the embodiment described above, the presentation of the advice information and / or the recommendation information is a game application (i.e., during the game) is performed. According to this, by presenting the information in a game, it is possible to motivate to verify such information continuously to the user.

In the above embodiment, the information processing system 1, as the predetermined information processing, executes the following processing.
Game story game parameter based on the health information processing user to advance the (specifically, the amount of damage to the remaining machine number and the enemy characters) of imparting benefits (item etc.) in the game process, a game with According to the process above, the game processing as the predetermined processing is executed by the game input reflecting the health information. Therefore, the user can perform an act such as measurement and confirmation of health information a game, it is possible to provide the motivation to perform these actions on an ongoing basis to the user.

In the above embodiment, the information processing system 1, the user awake (in other embodiments, the user may. Be that the liftoff) to determine the, it is determined that the user has awakened depending on a given awake game (i.e., mini-game) instruction starts reception of input (see FIG. 9) to start the execution of, when a corresponding instruction input is awake based on an operation input of the user It performs a game process (step S15, S19, S46, S59). According to this, the information processing system 1 can carry out the wakefulness game to the user, it can be expected to awaken to the user by playing the awake game.

The information processing system 1, the case where wakefulness game is executed, to reflect the results of the awake game health information (step S47). According to this, the information processing system 1 can calculate the health information reflecting the state of the user after awakening.

The information processing system 1, the user has awake (in other embodiments, the user in which may be. It has lifting) the condition that the time when it is judged to be within a predetermined period, awake to reflect the result of the game to health information (step S53, S55). According to this, it is possible to reduce the possibility of health information without a state after awakening the user is correctly reflected is calculated.

Note that in other embodiments, the information processing system 1, on condition that the time when the user is determined to awake or ambulation is within the predetermined time period, to accept an instruction input to start execution of awakening when the game it may be. According to this, awake game can be started within a predetermined time period from the awake or ambulation. That is, the user, if you want to play the awakening during the game, it becomes possible to start the awakening during the game awake sleepy. Therefore, according to the above, it is possible to motivate wake up the user. In addition, also by itself to play the awakening when the game, it is possible to expect the effect to wake up the user. The predetermined period is, for example, may be a period until a predetermined time has elapsed from the point the user from the time point may be a period until a predetermined state. Specifically, the predetermined time period from the time the user is determined to awake may be a period until the time the user is judged to have liftoff. The predetermined period is from the time the user is determined to awake or mobilization may be a period until the time the user is detected to have left the home.

The information processing system 1 performs a game process based on the results of the awake games health information (e.g., game processing relating to a game progress) (step S73). According to this, it is possible to improve the interest of the game by a plurality of game input, and thus can provide stronger the user motivation of ongoing actions such measurement and confirmation of health information.

The information processing system 1 includes a user input performed in wakefulness game processing, based on the status related sleep of the user, information about the fatigue of the user (in the above embodiment, vitality degree) is calculated ( step S47). According to this, reflecting the state of the user after awakening, it is possible to calculate the information about the fatigue. The "user input performed in awake when the game process" as in the above embodiment, may be an input of a game operation in wakefulness game, the answer by the user to a questionnaire in the emergence Games an input may be.

In the above embodiment, the information processing system 1 (specifically, the Doppler sensor 24) Sensor (specifically, display 17) and the display device and the portable terminal 5 provided with, via the mobile terminal 5 and a network and a communication server capable 3. Here, the portable terminal 5, acquires sensor information from the sensor and displays on the display device an image representing the result of the predetermined information processing. The server 3 stores the data based on the state related to the sleep of the user (Figure 20). According to this, the user can it is possible to check the result of a predetermined information processing by using the portable terminal 5, keep the data in the server 3.

(Effect and about that game process is advanced on the basis of the sleep state)
In the above embodiment, the information processing system 1 which executes a game application, acquires user information for calculating information about sleep of the user (step S32). The information processing system 1, based on the acquired user information, and calculates the health information about sleep and / or fatigue of the user (step S36, S47, S84). The information processing system 1 is controlled based on the game progress in the game application in health information (step S40, S42, S49, S54, S55, S72, S73). According to the above, by the user to measure the health information, the game progresses. As a result, it is possible to give a measurement of health information can be performed by the player in the game sense, the motivation to continue to carry out the measurement and confirmation of health information to the user.

Note that "controlled based on the health information game progress", as in the above embodiment, to perform the operation on the player object in accordance with the health information (e.g., the player object eyes in response to arousal of the user wake up, to the player object in response to the user's liftoff may also be starting) that the adventure, the game of the story progress of the game of the application (for example, the player object advances to the next stage) in the health information or it may be controlled based. Further, the "controlled based on the health information game progress" may be to grow in accordance with the parameters of the object appearing in the game application in health information. For example, the mobile terminal 5, when fine degree calculated in the step S36 is equal to or greater than a predetermined value (i.e., if the energetic level is higher than the predetermined reference), also to increase the parameter of the player object good. Thus, by being continued to be healthy degree good results, so that the player object is gradually growing.

The information processing system 1 automatically controls the game progress in response to a predetermined condition is satisfied health information is calculated. For example, in the above embodiment, in response to the health information indicating that the user has awakening is calculated, the player object is wake up. Further, for example, in the above embodiment, in response to the vitality of such amount of damage against an enemy character exceeds a predetermined amount has been calculated, the player object goes to the next stage. According to this, since the game even without performing the game operation to the user progresses, (in other words, measurement of the health information) the progress of the game it can be easily continued for a user.

[5. Modification]
(Variation on the evaluation of health information)
In the above embodiment, the evaluation result of the health information (in other words, health information calculated since the last sleep period) health information calculated today are calculated based on. Here, in other embodiments, the evaluation result of the health information, in addition to the health information calculated today, may be calculated based on historical health information of the user.

For example, the mobile terminal 5, newly calculated energetic degree in step S36 (i.e., energetic degree calculated today) and, based on the past vitality degree may calculate the evaluation results. Specifically, the portable terminal 5, vigor degree calculated today, past fine degree (e.g., last month average of energetic degree) over a predetermined reference than (e.g., more than 5 points) to improve to determine dolphin not, it may be the evaluation result of the determination result. The evaluation results, numerical value based on a new health information (for example, today's healthy degree), and be based on the difference between the numerical value based on the past of health information (for example, the average value of the last month of healthy degree) it may be.

Thus, the information processing system 1 (in other words, daily sleep duration) multiple sleep periods of the user obtains the user information in (specifically), for each of the plurality of sleep periods of the user, calculating respectively the health information based on the user information. The information processing system 1, the latest sleep period (i.e., morning sleep bout) performing and health information about the evaluation on the basis of a comparison result between the information based on the health information about the sleep period prior to the sleep period . According to this, evaluation on the basis of past health information of a user can be performed, for example, it can be evaluated based on whether the health information of the user is improved. Further, by confirming the user whether health information is improved, it can be provided more strongly to the user a desire to improve health.

Also, in other embodiments, the evaluation result of the health information, the health information about the user of the portable terminal 5, may be calculated on the basis of the health information about other users. For example, the mobile terminal 5 obtains the average value of healthy of the other users from the server 3, the average value acquired, vitality degree calculated in step S36 (i.e., energetic degree about the user of the portable terminal 5) it may calculate the evaluation results based on. The user of interest for calculating the evaluation result is arbitrary. For example, the user of interest may be the whole user registered in the network service may be a user satisfying predetermined selection criteria. Selection criteria, for example, the region (for example, country), age, gender, may be a standard for the personal information of the occupation, and the like.

As described above, the information processing system 1 can access the storage unit for storing health information for a plurality of users (the storage unit in the server 3). The information processing system 1 is calculated in the terminal system 2 users, and health information on the user, based on the comparison result of the health information about other users that are stored in the storage unit, evaluation may be performed . According to this, it is possible to evaluate on the basis of the health information of other users, for example, be evaluated based on whether the user is a good assessment of the portable terminal 5 as compared with other users it can. Further, by confirming the result of comparison with other users on the user, it can give stronger by the user desire to improve health.

Further, as described above, even when the evaluation reflects the historical health information results of and / or the evaluation results reflecting the health information about other users is calculated, as in the above embodiment, based on the evaluation result game processing may be executed Te. That is, the mobile terminal 5, the evaluation to game element representing the result may be presented to the user, it may be caused to advance the game according to the evaluation results.

The mobile terminal 5, past health information first evaluation results that reflect (and / or health information about other users) and, the health information second evaluation results that do not reflect (i.e., calculated today been, health information about the user of the portable terminal 5) and a may be calculated, respectively. At this time, the portable terminal 5, and the game elements representing first evaluation results may be presented to a user and a game element representing the second evaluation results. According to this, it can be presented to clearly user two kinds of evaluation results.

Figure 21 is a diagram showing an example of a game image displayed in the modified example of the embodiment. Figure 21 shows a modification of awakening when the game image shown in FIG. In the modification shown in FIG. 21, the mobile terminal 5, the vitality of the health information calculated today, the information based on historical fine degree (e.g., the average value of the last month of the vitality of) improved by more than a predetermined reference than It determines whether or not to have to. Then, if it is determined that the fine degree is improved, the mobile terminal 5, to add a number of remaining machine as a bonus due to health information is improved. In this case, as shown in FIG. 21, the mobile terminal 5, the remaining machine number corresponding to the energetic degree calculated today (in FIG. 21 is "80") in addition to, the number of remaining unit to be added as the bonus (in FIG. 21, "5") is displayed. In the case where it is determined that there is not improved vitality of the portable terminal 5 does not perform any additional remaining machine number by the bonus. In this case, the remaining machine number of the bonus is not displayed. According to the above, it can be presented in easy to understand user and the vitality of the user himself, and the bonus due to improvement.

Note that the game elements representing first evaluation result, and the game element representing a second evaluation result may be a game element of the same type as in the above remaining machine number, a different type of game element it may be. For example, the mobile terminal 5, the item to be granted in response to a first evaluation result displayed in the game image, the number of remaining unit representing a second evaluation result may be displayed in the game image. Further, the two types of game elements may be simultaneously displayed, it may be displayed at different times.

(Modification regarding the display reflecting the plurality of health information)
In a variant of the above embodiment, the portable terminal 5, when displaying a game image, a plurality of types of health information calculated be displayed an image of an object that reflects the (sleep metrics and fatigue index, etc.) good. For example, in the above embodiment, since a plurality of types of sleep metric is calculated as health information, the portable terminal 5 in response to each of several sleep metric of which the player object 51 color, shape, and / or it may be to vary the pattern or the like. Specifically, as sleep metrics, sleep time, mid-arousal number, and when using a pleasant sleep degree, expression of the player object 51 in wakefulness game image is changed depending on the sleep time, hairstyle of the player object 51 is arousal changes according to the number of clothing of the player object 51 may be changed depending on the sleep of. More specifically, the mobile terminal 5, the facial expression of the more player objects 51 sleep time is an ideal value is bright, sleeping habit is badly of the more mid-arousal number of times the player object 51, a high sleep degree it may be made with the bright colors of the clothing about.

As described above, the information processing system 1, in the application, a plurality of health information (e.g., a plurality of types of sleep metric) predetermined display device to generate an image of the contents is changed according to the respective (in this case, the display it may be displayed in 17). According to this, it is possible to present the measurement results of the plurality of health information in a user intuitively understand easily how.

The information processing system 1 may be displayed on the display device automatically the image in response to the user is determined to have awakened or ambulation. For example, the mobile terminal 5, in conscious when the game image and / or lifting the game image in the above embodiment, may be displayed to the player object 51 in this modification. Here, the time of awakening or mobilization, since the user has just woke up, for example be presented each number representing a multiple of health information to the user, there is a perplexing risk for the user. In contrast, according to this modification, by presenting an image as described above, it can be roughly grasped the calculation result of this morning's health information.

The information processing system 1, the first type of display mode for a given object appearing in the application, and change in response to the first health information of the plurality of health information, the second type relates to the object the display mode is changed in response to a second health information among the plurality of health information. Note that "changes the display manner of the object", for example, the color related to all or part of the object, the shape, changing the size and / or patterns, as well as changing the number of the object it is meant to include. According to the above, since the display mode for an object is changed, the user is able to see the object, it is possible to know the calculation result of the health information itself.

The predetermined object, but need not one object, the information processing system 1 may change a display mode for a plurality of objects of the same type. Figure 22 is a diagram showing an example of an image displayed in the modified example of the embodiment. In the example shown in FIG. 22, the application of growing a tropical fish is executed in the information processing system 1, an image shown in FIG. 22 is displayed on the display 17. In the above example, the information processing system 1, in accordance with each of the plurality of health information, changing the number of tropical fish which corresponds to health information. For example, the mobile terminal 5, sleep time by increasing the number of the first fish object 71 as an ideal value, to increase the number of the second fish object 72 the larger the mid-arousal number, sleep degree it may be to increase the number of higher second fish object 73. Thus, the user, it is possible to recognize the quality of the respective sleep metric by the number of the fish object (specifically, sleep) health information by the total number of fish object to recognize the quality of the it can.

Further, the information processing system 1, different kinds of images (which may be an image of an object, there may be a background image) may change the display mode for. For example, in the example shown in FIG. 22, the information processing system 1 is configured to change the display mode of the fish objects in accordance with the first health information, according to (different from the first health information) a second health information Te, the amount of aquatic plants, the size of the water plant, and / or may change the display mode of transparency like water.

(Modification regarding communication with a terminal of another user)
In another embodiment, the terminal system 2, the state regarding sleep of the user (e.g., arousal, sleep onset,-bed, and lifting, etc.) according to, to the portable terminal of another user (referred to as other user terminals) it may perform the notification. For example, the mobile terminal 5, previously registered other user terminal as the notification destination, in response to a user awake or lifting may notify the to another user terminal that the user woke up. Alternatively, mobile terminal 5 in response to a user falling asleep or-bed, may notify the to another user terminal that the user went to bed. According to this, it is possible to automatically notify the state about the sleep of the user to another user (e.g., family and friends). The notification from the mobile terminal 5 to the other user terminal, may be performed via the server 3 may be performed not via the server 3.

Further, in another embodiment, the terminal system 2 may transmit the information indicating the status concerning sleep of the user to the server 3. That is, the server 3, the information indicating a state relating to sleep for each user in the network services received from the terminal system, may be stored. In this case, the server 3 to the terminal system 2, may provide information based on the state related to the sleep of other users. Terminal system 2 obtains information about other users registered in advance as a friend in the server 3 from the server 3 may present the acquired information to the user. Thus, the user of the terminal system 2, the current state of another user registered as a friend (e.g., sleeping, or do like awake) can be known. The server 3, the information based on the state of an unspecified number of other users, may be provided to the terminal system 2. For example, the server 3, information indicating the percentage of users is happening among the users in a particular area may be transmitted to the terminal system 2. According to this, the user can know what kind of state a plurality of other users.

Information indicating the other conditions relating to sleep users as described above, may be presented in a game application. At this time, the state of the player object 51 of the above embodiment (or behavioral), it may be expressed by the user state. For example, if the user is in a state during sleep, a game image representing a state in which sleeping player object 51 may be displayed to other users of the mobile terminal.

(Modification regarding the application)
In the above embodiment has been described with respect to an example in which the game application is executed in the terminal system 2, the type of application executed in the terminal system 2 is not limited to the game, it is optional. In addition, if the game application is executed, genre and content of the game is optional. Terminal system 2, for example, in following the game may be controlled game progress based on the health information.
- in foster pet games, pet grows (pet of the parameters change) based on the health information of the user.
In the game to run a restaurant, it is larger (store or increased or increased, menu) restaurant on the basis of the health information of the user. Actual recipe may be imparted to the user based on the health information.
- in the game to travel and earn mileage points in response to health information, it will be able to travel to far away.
In-field and games to create a ranch and gardens, animals and plants to grow in response to health information.

(Modification regarding the function of each device included in the information processing system 1)
In the above embodiment, the base unit 6, by the portable terminal 5, and the server 3, the processing in the information processing system 1 is executed. Here, the processes in the information processing system 1, the three configurations (base device 6, the portable terminal 5, and the server 3) may be performed in any.

Base unit 6 is sent the information detected by the sensor to the mobile terminal 5, in other embodiments, may transmit information calculated from the detected information. For example, the base unit 6 may transmit breathing and / or calculates the biometric information of the body motion to the mobile terminal 5 may transmit to the mobile terminal 5 to calculate sleep metrics, health information (including evaluation results) may be transmitted to the portable terminal 5 calculates.

Further, the mobile terminal 5, information received from the base apparatus 6, and / or, to the information detected by itself may be transmitted directly to the server 3 transmits the information calculated from these information to the server 3 it may be. In either case, the server 3 may calculate the health information based on the information received from the mobile terminal 5.

As in the above embodiments, or a plurality of types of health information is calculated, in the case of or plural kinds of evaluation is performed, some health among a plurality of types of health information (including evaluation results) for information calculated by the mobile terminal 5, for the remaining health information may be calculated by the server 3.

Also, in other embodiments, the base unit 6 may communicate with the server 3 without using the portable terminal 5. For example, the base unit 6, like the portable terminal 5 may have a function of communicating with the server 3 via the network 4. At this time, the base unit 6 may transmit the information detected by itself directly to the server 3 may transmit to both the mobile terminal 5 and the server 3. Further, when the base unit 6 can communicate with the server 3, the portable terminal 5 may acquire information via the server 3 from the base unit 6. That is, the mobile terminal 5, to obtain the information from the base unit 6, the information transmitted to the server 3 from the base apparatus 6 may obtain from the server 3.

(Modification regarding sensor)
In the above embodiment, the sensor for acquiring the biometric information of the user is a sensor for detecting biological information of the user in a state not contacting the user. In other words, the sensor of the present embodiment (specifically, the Doppler sensor) sensor contactless (and non-worn) is. The sensor is placed around the user to be detected. Thus, the user does not need to worry about the detection operation by the sensor, it is possible to reduce the user's burden of detection. Further, the sensor in the case of non-mounting type, for example, the user does not occur a problem is detected not performed by forgetting to mount the sensor.

The sensor of non-contact (and non-mounted) is not limited to the Doppler sensor 24 described above. That is, in the embodiment described above, the Doppler sensor 24 receives reflected waves sends out radio waves toward a detection target, to analyze the motion of the detection target based on it (Doppler phenomenon of a received wave based on a reception result it by) to the biometric information. In other embodiments, not limited to this. For example, the non-contact type sensor, sends out radio waves (or waves) toward the detection object, receives a reflected wave, the received result (received wave) may output the biological information based on. Specifically, the sensor acquires an image of the detection target based on the received wave may be to analyze the motion of the detection target from the image information outputted biometric information. Also, the non-contact sensor may be a sensor using a predetermined detection wave of the ultrasonic wave or the like instead of radio waves. Also, the non-contact sensor may be a capturing means arranged on the periphery of the user (camera). In other words, the camera takes an image from a distance of a detection target, the information processing system may output the biological information by analyzing the motion of the detection target from the captured image.

The above embodiment, the purpose of such to simplify the operation of the user, for example, can be utilized in an information processing system or the like which executes a game application.

1 an information processing system 2 terminal system 3 Server 4 network 10 communication unit 11 processing unit 12 operation input unit 13 the position detecting unit 14 environmental sensor 15 Microphone 16 camera 17 display 18 speaker 19 connector 21 connector 22 control unit 23 power acquisition unit 24 Doppler sensor 25 projector 26 speaker 27 camera 41 waveform analyzer 42 sleep calculating unit 43 autonomic calculation section 44 fatigue calculator

Claims (30)

  1. An information processing system for executing an application,
    An acquisition unit configured to acquire user information for calculating information about the user's sleep,
    A sleep judging means for judging a state relating to sleep of the user based on the acquired user information,
    The predetermined information processing in the application, and a processing executing means for executing in conjunction with the state related to the sleep of the user, the information processing system.
  2. It said processing execution means starts the execution of automatic said predetermined information processing according to the state of the user by the sleep judging means becomes a predetermined state is determined, according to claim 1 the information processing system.
  3. Said acquisition means, said user information sequentially acquired in real time in a given time period,
    The sleep determining means, based on the acquired user information, and sequentially determining the state regarding sleep of the user,
    Said processing execution means starts the execution of the predetermined information processing in response to the state of the user is discriminated that a condition exists by the sleep judging means, to claim 1 or claim 2 the information processing system according.
  4. The sleep determining means calculates based on the health information about sleep and / or fatigue of a user in the user information,
    Said processing execution means, said executing the predetermined processing by using the health information as input to the application, the information processing system according to any one of claims 1 to 3.
  5. It said processing execution means executes the predetermined processing to determine on the basis of parameters related to objects appearing in the application to the health information, the information processing system according to claim 4.
  6. The application is a game application,
    Said processing execution means, said a predetermined information processing, the executed based on the health of the predetermined game process in the game application, the information processing system according to claim 4 or claim 5.
  7. The obtaining unit obtains the user information in the plurality of sleep periods of the user,
    The sleep determining means, for each of the plurality of sleep periods of the user, respectively calculated health information based on the user information,
    It said processing execution means includes a health information on the latest sleep periods, executes the predetermined processing based on a result of comparison between information based on the health information for the previous sleep period than the sleep period, from the claims 4 the information processing system according to any one of claims 6.
  8. The information processing system is accessible in a storage unit for storing health information for a plurality of users,
    Said processing execution means executes the predetermined game processing based on the comparison result of the health information calculated by said sleep determining means, the health information about other users stored in the storage unit, according to claim 4 the information processing system according to any one of claims 7.
  9. On the basis of the health information, the health information generated by the advice information and / or recommendation information to improve the content indicated by further comprising presentation means for presenting to the user, any one of claims 4 to claim 8 the information processing system according to (1).
  10. The application is a game application,
    It said processing execution means, as the predetermined processing, executes a game process of advancing the game story, the information processing system according to any one of claims 1 to 3.
  11. The application is a game application,
    Said processing execution means, said a predetermined information processing, executes a game process of awarding a benefit in the game, the information processing system according to any one of claims 1 to 3.
  12. The application is a game application,
    It said processing execution means sets a game parameter based on the health information about sleep and / or fatigue of the user, executes predetermined game processing as the predetermined information processing by using the game parameter, according claim 1 the information processing system according to any one of claim 3.
  13. The sleep determining means determines that the user has awake or lifting,
    In response to the user it is determined to awake or lifting, to start accepting instruction input to start execution of a predetermined awake games, when there is the instruction input, based on the operation input of the user awake when further comprising wakefulness game processing means for executing a game processing, the information processing system according to any one of claims 1 to 12.
  14. The application is a game application,
    The sleep determining means calculates based on the health information about sleep and / or fatigue of a user in the user information,
    It said processing execution means executes the game process using the health information as input for the game application,
    The sleep determining means, when said awake game is executed, to reflect the results of the awake game health information, the information processing system according to claim 13.
  15. The sleep determining means, on condition that the time when the user is determined to awake or ambulation is within the predetermined time period, and receives an instruction input to start the execution of the awake game, claim 13 or claim 14 the information processing system according to.
  16. The application is a game application,
    Said processing execution means, said executes the game processing based on the result of the health information and the emergence game, an information processing system according to any one of claims 15 claim 13.
  17. An input of the user to be performed in the wakefulness game process, on the basis of the status related user's sleep, further comprising a fatigue calculation means for calculating information about the fatigue of the user, any one of claims 13 to claim 16 the information processing system according to (1).
  18. The application is a game application,
    The sleep determining means calculates based on the health information about sleep and / or fatigue of a user in the user information,
    It said processing execution means, the well as presented to the user as a game element a part of information in the health information, the same or different health information with the part of the health information is presented to the user as an index indicating the health, the information processing system according to any one of claims 1 to 17.
  19. The sleep determining means, that the user was entering Nemushi, and / or to determine that it has awakened, the information processing system according to any one of claims 1 to 18.
  20. The sleep determining means, that the user has-bed, and / or to determine that it has liftoff, the information processing system according to any one of claims 1 to 18.
  21. The sleep determining means, as a state related to the sleep of the user,
    (1) The time from the entry floor to fall asleep,
    (2) time until the mobilization from awakening,
    (3) Input Nemushi in the period until a predetermined time after, the percentage of time in the sleep depth state,
    (4) in the period from onset of arousal before a predetermined time, the percentage of time that sleep is in a shallow state,
    (5) the period of REM sleep,
    (6) the ratio of the time of time and non-REM sleep REM sleep,
    (7) sleep time,
    (8) the difference between the actual fall-asleep timing and the ideal of the fall-asleep timing,
    (9) the difference between the actual awakening timing and the ideal of the wake-up timing,
    (10) the number of arousal,
    (11) the timing of the mid-arousal,
    (12) of arousal during sleep time,
    (13) the number of rolling over,
    (14) The size of snoring, and (15) of the environment during sleep, to determine at least one information processing system according to any one of claims 20 to claim 1.
  22. The information processing system comprises a sensor, a terminal device including a display device, and a communication capable server via the terminal device and the network,
    The terminal device,
    Acquires the user information from said sensor,
    Displays an image representing the result of the predetermined information processing on said display device,
    The server stores the data based on the state related to the sleep of the user, the information processing system according to any one of claims 21 claim 1.
  23. Further comprising a notification means for performing notification to prompt arousal to a user, the information processing system according to any one of claims 22 claim 1.
  24. The acquisition unit, the user's pulse, respiration, and acquires the user information from the sensor to detect at least one of the body movement, information processing system according to any one of claims 23 claim 1.
  25. The information processing system further comprises a sensor for detecting biological information of the user in a state not in contact to the user,
    It said acquisition means, from said sensor, acquires biometric information as the user information, the information processing system according to any one of claims 24 claim 1.
  26. The sensor receives the reflected wave sends out radio waves or sound waves toward a detection target, and outputs the biological information based on the results received, the information processing system according to claim 25.
  27. The sensor is a Doppler sensor, an information processing system according to claim 26.
  28. An information processing apparatus for executing an application,
    An acquisition unit configured to acquire user information for calculating information about the user's sleep,
    A sleep judging means for judging a state relating to sleep of the user based on the acquired user information,
    Predetermined information processing in the application, and a processing executing means for executing in conjunction with the state related to the sleep of the user, the information processing apparatus.
  29. An information processing program to be executed by a computer of an information processing apparatus for executing an application,
    An acquisition unit configured to acquire user information for calculating information about the user's sleep,
    A sleep judging means for judging a state relating to sleep of the user based on the acquired user information,
    Predetermined information processing in the application, causes the computer to function as process execution means for executing in conjunction with the state related to the sleep of the user, the information processing program.
  30. An information processing method executed in an information processing system for executing an application,
    An acquisition step of acquiring user information for calculating information about the user's sleep,
    And sleep determining step to determine the state regarding sleep of the user based on the acquired user information,
    Predetermined information processing in the application, and a processing execution step of executing in conjunction with the state related to the sleep of the user, an information processing method.
PCT/JP2015/061273 2014-01-17 2015-04-10 Information processing system, information processing device, information processing program, and information processing method WO2016021235A1 (en)

Priority Applications (14)

Application Number Priority Date Filing Date Title
JPPCT/JP2014/070931 2014-08-07
PCT/JP2014/070931 WO2015107710A1 (en) 2014-01-17 2014-08-07 Information processing system, information processing server, information processing program, and fatigue evaluation method
JPPCT/JP2014/078824 2014-10-29
PCT/JP2014/078829 WO2015107748A1 (en) 2014-01-17 2014-10-29 Information processing system, information processing server, information processing program, and information providing method
JPPCT/JP2014/078829 2014-10-29
PCT/JP2014/078828 WO2015107747A1 (en) 2014-01-17 2014-10-29 Information processing system and information processing device
PCT/JP2014/078827 WO2015107746A1 (en) 2014-01-17 2014-10-29 Display system and display apparatus
JPPCT/JP2014/078828 2014-10-29
JPPCT/JP2014/078826 2014-10-29
PCT/JP2014/078824 WO2015107743A1 (en) 2014-01-17 2014-10-29 Information processing system, server system, information processing device, and information processing method
PCT/JP2014/078825 WO2015107744A1 (en) 2014-01-17 2014-10-29 Information processing system, server system, information processing program, and information processing method
JPPCT/JP2014/078825 2014-10-29
PCT/JP2014/078826 WO2015107745A1 (en) 2014-01-17 2014-10-29 Information processing system, server system, and information processing program
JPPCT/JP2014/078827 2014-10-29

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
JP2015061273A JPWO2016021235A1 (en) 2014-08-07 2015-04-10 Information processing system, an information processing apparatus, information processing program, and information processing method
JP2016540128A JP6392875B2 (en) 2014-01-17 2015-07-08 The information processing system, an information processing server, information processing program, and an information providing method
PCT/JP2015/069653 WO2016021361A1 (en) 2014-08-07 2015-07-08 Information processing system, information processing server, information processing program, and information provision method
EP15830638.1A EP3179381A4 (en) 2014-08-07 2015-07-08 Information processing system, information processing server, information processing program, and information provision method
US15/421,724 US20170135495A1 (en) 2014-01-17 2017-02-01 Information processing system, information processing server, storage medium storing information processing program, and information provision method
JP2018158911A JP2019012542A (en) 2014-01-17 2018-08-28 Information processing system, information processing server, information processing program, and information provision method

Publications (1)

Publication Number Publication Date
WO2016021235A1 true WO2016021235A1 (en) 2016-02-11

Family

ID=55269053

Family Applications (2)

Application Number Title Priority Date Filing Date
PCT/JP2015/061273 WO2016021235A1 (en) 2014-01-17 2015-04-10 Information processing system, information processing device, information processing program, and information processing method
PCT/JP2015/061274 WO2016021236A1 (en) 2014-01-17 2015-04-10 Information processing system, information processing device, information processing program, and information processing method

Family Applications After (1)

Application Number Title Priority Date Filing Date
PCT/JP2015/061274 WO2016021236A1 (en) 2014-01-17 2015-04-10 Information processing system, information processing device, information processing program, and information processing method

Country Status (2)

Country Link
JP (2) JPWO2016021236A1 (en)
WO (2) WO2016021235A1 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018150720A1 (en) * 2017-02-20 2018-08-23 ソニー株式会社 Information processing system and information processing method
WO2018163558A1 (en) * 2017-03-08 2018-09-13 ソニー株式会社 Information processing device, information processing method, and program

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018179501A1 (en) * 2017-03-30 2018-10-04 株式会社村田製作所 Game program and portable game terminal

Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH1048363A (en) * 1996-07-30 1998-02-20 Taito:Kk Alarm clock with electronic game function
JP2002034955A (en) * 2000-07-26 2002-02-05 Matsushita Electric Works Ltd System and method for judging sleeping condition and midway awakening, and recording medium recording program for judging sleeping condition and midway awakening
JP2002315738A (en) * 2001-04-24 2002-10-29 Matsushita Electric Works Ltd Body movement measuring apparatus
JP2003319910A (en) * 2002-02-26 2003-11-11 Kao Corp Beautification support system
JP2004157596A (en) * 2002-11-01 2004-06-03 Junichi Ninomiya System and method for health management
JP2005074107A (en) * 2003-09-02 2005-03-24 Fuji Photo Film Co Ltd Life management system
JP2007319238A (en) * 2006-05-30 2007-12-13 Toshiba Consumer Marketing Corp Sleep monitoring device
JP2009078070A (en) * 2007-09-27 2009-04-16 Nippon Shikizai Inc Terminal apparatus having skin measuring function
JP2010099173A (en) * 2008-10-22 2010-05-06 Aisin Seiki Co Ltd Sleep management system for many people, and sleep management method for many people
JP2013146463A (en) * 2012-01-20 2013-08-01 Omron Healthcare Co Ltd Sleep display program, sleep display method and sleep display device
JP2013192620A (en) * 2012-03-16 2013-09-30 Fujitsu Ltd Sleeping depth determination apparatus, and sleeping depth determination method
JP2014052834A (en) * 2012-09-06 2014-03-20 Kita Denshi Corp Sleep privilege giving system, sleep privilege giving server device and sleep privilege giving program

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001344352A (en) * 2000-05-31 2001-12-14 Toshiba Corp Life assisting device, life assisting method and advertisement information providing method
JP2005237719A (en) * 2004-02-27 2005-09-08 Daikin Ind Ltd Monitoring unit and monitoring system

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH1048363A (en) * 1996-07-30 1998-02-20 Taito:Kk Alarm clock with electronic game function
JP2002034955A (en) * 2000-07-26 2002-02-05 Matsushita Electric Works Ltd System and method for judging sleeping condition and midway awakening, and recording medium recording program for judging sleeping condition and midway awakening
JP2002315738A (en) * 2001-04-24 2002-10-29 Matsushita Electric Works Ltd Body movement measuring apparatus
JP2003319910A (en) * 2002-02-26 2003-11-11 Kao Corp Beautification support system
JP2004157596A (en) * 2002-11-01 2004-06-03 Junichi Ninomiya System and method for health management
JP2005074107A (en) * 2003-09-02 2005-03-24 Fuji Photo Film Co Ltd Life management system
JP2007319238A (en) * 2006-05-30 2007-12-13 Toshiba Consumer Marketing Corp Sleep monitoring device
JP2009078070A (en) * 2007-09-27 2009-04-16 Nippon Shikizai Inc Terminal apparatus having skin measuring function
JP2010099173A (en) * 2008-10-22 2010-05-06 Aisin Seiki Co Ltd Sleep management system for many people, and sleep management method for many people
JP2013146463A (en) * 2012-01-20 2013-08-01 Omron Healthcare Co Ltd Sleep display program, sleep display method and sleep display device
JP2013192620A (en) * 2012-03-16 2013-09-30 Fujitsu Ltd Sleeping depth determination apparatus, and sleeping depth determination method
JP2014052834A (en) * 2012-09-06 2014-03-20 Kita Denshi Corp Sleep privilege giving system, sleep privilege giving server device and sleep privilege giving program

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018150720A1 (en) * 2017-02-20 2018-08-23 ソニー株式会社 Information processing system and information processing method
WO2018163558A1 (en) * 2017-03-08 2018-09-13 ソニー株式会社 Information processing device, information processing method, and program

Also Published As

Publication number Publication date
JPWO2016021235A1 (en) 2017-05-18
JPWO2016021236A1 (en) 2017-05-18
WO2016021236A1 (en) 2016-02-11

Similar Documents

Publication Publication Date Title
US8348840B2 (en) Device and method to monitor, assess and improve quality of sleep
JP5937230B2 (en) Energy consumption
JP5896344B2 (en) Change exercise route based on the information device decides
KR101602589B1 (en) Athletic watch
US20130245396A1 (en) Mental state analysis using wearable-camera devices
US8847789B2 (en) Information provision system, information provision device, information provision method, terminal device, and display method
KR101817587B1 (en) Athletic watch
US9205327B2 (en) Storage medium having information processing program stored thereon, information processing apparatus, information processing system, and information processing method
JP5727231B2 (en) Systems and kits related to stress and relaxation management
JP4481682B2 (en) The information processing apparatus and control method thereof
US9369365B2 (en) Tracking user physical activity with multiple devices
US20140099614A1 (en) Method for delivering behavior change directives to a user
US20120313776A1 (en) General health and wellness management method and apparatus for a wellness application using data from a data-capable band
US8832278B2 (en) Information processing system, computer-readable storage medium having information processing program stored therein, information processing apparatus, and information processing method
JP5591699B2 (en) Human behavior monitoring apparatus including a distance calculation
US20150196805A1 (en) Fuzzy logic-based evaluation and feedback of exercise performance
CN105980008B (en) Body position optimization and bio signal feedback for intelligent wearable device
US20100240945A1 (en) Respiratory biofeedback devices, systems, and methods
US9568998B2 (en) Information processing apparatus, system, and method for displaying bio-information or kinetic information
CN101795831B (en) Robot control system, robot, program, and information recording medium
US20130002435A1 (en) Sleep management method and apparatus for a wellness application using data from a data-capable band
US20110230790A1 (en) Method and system for sleep monitoring, regulation and planning
JP3931889B2 (en) An image display system, an image display apparatus, image display method
US20120326873A1 (en) Activity attainment method and apparatus for a wellness application using data from a data-capable band
US9589445B2 (en) Activity recognition with activity reminders

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 15830390

Country of ref document: EP

Kind code of ref document: A1

ENP Entry into the national phase in:

Ref document number: 2016539859

Country of ref document: JP

Kind code of ref document: A

NENP Non-entry into the national phase in:

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 15830390

Country of ref document: EP

Kind code of ref document: A1