JP2015195830A - Information processing device, information processing system, information processing method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device capable of intelligibly displaying change of a user condition in a travelling route.SOLUTION: An information processing device includes a position information acquiring unit 51, a biological information acquiring unit 52, an external factor acquiring unit 53, an information analyzing unit 54, and an output control unit 57. The position information acquiring unit 51 acquires position information. The biological information acquiring unit 52 acquires biological information of a user. The external factor acquiring unit 53 detects an external factor occurring to the user. The information analyzing unit 54 detects a change state of the biological information. The output control unit 57 displays a map indicating the change state of the biological information and the external factor correspondingly to each other at a position presented by the position information on the travelling route.

Description

  The present invention relates to an information processing apparatus, an information processing system, an information processing method, and a program.

  2. Description of the Related Art Conventionally, there is known one that displays a travel route on a map based on a travel history such as running. Further, the technique described in Patent Document 1 discloses a technique for displaying a measurement value obtained by measuring a user's state at the time of traveling together with a traveling history on a traveling route developed on a map.

JP 2005-195425 A

However, in the technique described in Patent Document 1 described above, only the measurement value measured at that time is displayed as the user's state on the travel route. It is difficult to display how the change has occurred.
That is, in the conventional technology, it is difficult to display the change in the user's state on the travel route in an easy-to-understand manner.

  The present invention has been made in view of such a situation, and an object thereof is to display a change in a user's state on a travel route in an easy-to-understand manner.

In order to achieve the above object, an information processing apparatus of one embodiment of the present invention provides:
Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
An external factor acquisition means for acquiring an external factor generated for the user;
Change state detection means for detecting a change state of the biological information;
Display control means for displaying a map in which the state of change and the external factor are displayed in association with the position represented by the position information on a movement route;
It is characterized by providing.

  According to the present invention, it is possible to display a change in the state of the user on the travel route in an easy-to-understand manner.

It is a block diagram which shows the hardware constitutions of the information processing apparatus which concerns on one Embodiment of this invention. It is a functional block diagram which shows the functional structure for performing a travel history acquisition process and a travel history display process among the functional structures of the information processing apparatus of FIG. It is a figure which shows the example of the travel map memorize | stored in a travel map memory | storage part. It is a flowchart explaining the flow of the travel history acquisition process which the information processing apparatus of FIG. 1 which has the functional structure of FIG. 2 performs. It is a flowchart explaining the flow of the travel history display process which the information processing apparatus of FIG. 1 which has the functional structure of FIG. 2 performs.

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

FIG. 1 is a block diagram showing a hardware configuration of an information processing apparatus 1 according to an embodiment of the present invention.
The information processing apparatus 1 is configured as a wrist terminal such as a smart watch.

  The information processing apparatus 1 includes a CPU (Central Processing Unit) 11, a ROM (Read Only Memory) 12, a RAM (Random Access Memory) 13, a bus 14, an input / output interface 15, a GPS unit 16, and a sensor unit. 17, an input unit 18, an output unit 19, a storage unit 20, a communication unit 21, and a drive 22.

  The CPU 11 executes various processes according to a program recorded in the ROM 12 or a program loaded from the storage unit 20 to the RAM 13. For example, the CPU 11 executes a travel history acquisition process according to a program for a travel history acquisition process described later, or executes a travel history display process according to a program for a travel history display process.

  The RAM 13 appropriately stores data necessary for the CPU 11 to execute various processes.

  The CPU 11, ROM 12, and RAM 13 are connected to each other via a bus 14. An input / output interface 15 is also connected to the bus 14. A GPS unit 16, a sensor unit 17, an input unit 18, an output unit 19, a storage unit 20, a communication unit 21, and a drive 22 are connected to the input / output interface 15.

The GPS unit 16 receives GPS signals from a plurality of GPS (Global Positioning System) satellites including an antenna, and acquires position information of the information processing apparatus 1.
The sensor unit 17 is configured to be able to measure physical information such as movement of the information processing device 1 in the XYZ axis directions and vibration of the information processing device 1 and biological information such as heartbeat and blood pressure. Specifically, the sensor unit 17 acquires physical information such as movement and vibration of the information processing apparatus 1 using a sensor capable of measuring a physical quantity such as a gyro sensor or an acceleration sensor. The sensor unit 17 acquires biological information of the user wearing the information processing apparatus 1 using a biological sensor such as a heart rate sensor or a blood pressure sensor.

The input unit 18 includes various buttons and the like, and inputs various types of information according to user instruction operations.
The output unit 19 includes a display, a speaker, and the like, and outputs images and sounds.
The storage unit 20 is configured by a hard disk, a DRAM (Dynamic Random Access Memory), or the like, and stores various image data.
The communication unit 21 controls communication with other devices (not shown) via a network including the Internet.

  A removable medium 31 made of a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like is appropriately attached to the drive 22. The program read from the removable medium 31 by the drive 22 is installed in the storage unit 20 as necessary. The removable medium 31 can also store various data such as image data stored in the storage unit 20 in the same manner as the storage unit 20.

FIG. 2 is a functional block diagram showing a functional configuration for executing a travel history acquisition process and a travel history display process among the functional configurations of the information processing apparatus 1 of FIG.
The travel history acquisition process refers to a series of processes until the position information and biological information during travel are acquired in association with external factors detected during travel and stored as the travel history of the user.
The travel history display process refers to a series of processes for displaying a travel map in which a travel route traveled by a user and labels representing various information included in the travel history are associated with each other based on the travel history.

  When the travel history acquisition process and the travel history display process are executed, as shown in FIG. 2, in the CPU 11, the position information acquisition unit 51, the biological information acquisition unit 52, the external factor acquisition unit 53, and the information analysis unit 54, a label generation unit 55, a travel map creation unit 56, and an output control unit 57 function. The external factor acquisition unit 53 includes an event factor detection unit 53a and a travel route factor detection unit 53b, as will be described later.

  In one area of the storage unit 20, a travel history information storage unit 71, a map data storage unit 72, and a travel map storage unit 73 are set.

  The travel history information storage unit 71 stores travel history information including position information acquired from the GPS unit 16, biological information acquired from the sensor unit 17, and external factors acquired by the external factor acquisition unit 53.

The map data storage unit 72 stores map data near the travel route.
The travel map storage unit 73 stores the generated travel map. The travel map is a map in which a travel route and a label indicating a characteristic point in the travel history (hereinafter referred to as “characteristic point label”) are associated with each other and displayed on the map. Note that characteristic points in the travel history include points where the measured parameter shows the maximum or minimum value, points where the measured parameter is stable, points where the user's condition has changed, etc. This is a point where various features of the history are detected.

FIG. 3 is a diagram illustrating an example of a travel map stored in the travel map storage unit 73.
In the travel map shown in FIG. 3, labels 1 to 5 are respectively displayed at points P1 to P5 on the travel route, and an avatar schematically showing the state of the user is also displayed near each point P1 to P5. Has been. In the present embodiment, as the avatar schematically showing the user's state, the five stages of “very good”, “good”, “normal”, “somewhat tired”, and “very tired” in the order of good state. Are available.

Specifically, in the travel map shown in FIG. 3, after starting from the start point S, the user passes the point P1 soon.
This point P1 is a point at which the feature that the traveling speed is the maximum speed is detected. Therefore, a label 1 indicating the point of the highest speed and the biological information such as the heart rate and blood pressure at that time is displayed at the point P1. In addition, an avatar indicating that the state of the user is “very good” is displayed near the point P1.

In the travel map shown in FIG. 3, the user passes the point P2 after passing the point P1.
This point P2 is a point at which the feature of the first inflection point (the point at which the heart rate suddenly starts to decrease) in the biological information is detected. Therefore, the point P2 is a point where a heart rate decrease appears, biological information such as the heart rate and blood pressure at that time, and the passage timing of the point P2 (within a predetermined time before passing the point P2) A label 2 indicating a specific factor (incoming mail) is displayed. In addition, an avatar indicating that the state of the user is “normal” is displayed near the point P2.

In the travel map shown in FIG. 3, the user passes through point P3 after passing through point P2.
This point P3 is a point at which the feature that the traveling speed was most stable was detected. Therefore, a label 3 indicating that the travel speed is stable and the biological information such as the heart rate and blood pressure at that time is displayed at the point P3. In addition, an avatar indicating that the user's state is “good” is displayed near the point P3.

In the travel map shown in FIG. 3, the user passes the point P4 after passing the point P3.
This point P4 is a point where a feature of a second inflection point (a point at which the heart rate suddenly starts to rise) in the biological information is detected. Therefore, the point P4 is a point where an increase in the heart rate appears, biological information such as the heart rate and blood pressure at that time, and the passage timing of the point P4 (within a predetermined time before passing the point P4) A label 4 is displayed that indicates the cause (traveling uphill). In addition, an avatar indicating that the user is “somewhat tired” is displayed near the point P4.

In the travel map shown in FIG. 3, the user passes the point P5 after passing the point P4.
This point P5 is a point at which the feature that the traveling speed is the lowest speed is detected. Therefore, the label 5 indicating the point of the lowest speed and the biological information such as the heart rate and blood pressure at that time is displayed at the point P5. Further, an avatar indicating that the user is “very tired” is displayed near the point P5.

Returning to FIG. 2, the position information acquisition unit 51 acquires position information (latitude, longitude, and altitude) from the GPS unit 16 at a predetermined time interval (for example, every second), and the acquired position information is the travel history information storage unit 71. To remember.
The biological information acquisition unit 52 acquires the biological information of the user wearing the information processing apparatus 1 from the sensor unit 17 at a predetermined time interval (for example, every 30 seconds), and stores the acquired biological information in the travel history information storage unit 71. . In the present embodiment, the biological information acquisition unit 52 acquires the user's heart rate and blood pressure as biological information.

The external factor acquisition unit 53 acquires an external factor that acts on the user. Specifically, the external factor acquisition unit 53 includes an event factor detection unit 53a and a travel route factor detection unit 53b.
The event factor detection unit 53a monitors the communication unit 21, and when an email is received or an incoming call is received from the information processing apparatus 1, the communication type (mail reception or phone call) is an external factor based on the event. Is stored in the travel history information storage unit 71 in association with the position on the travel route that has occurred.

  The travel route factor detection unit 53b analyzes the travel route based on the map data stored in the map data storage unit 72 and, as an external factor based on the travel route, the specific travel environment (gradient above a certain level, A certain level of elevation difference, a large number of corners, etc.) are detected. Then, the travel route factor detection unit 53b associates the detected type of the specific travel environment (the gradient is large, the height difference is large, the turn angle is large, etc.) with the position on the travel route, and externally based on the travel route. This is stored in the travel history information storage unit 71 as a factor. The travel route factor detection unit 53b may calculate a travel environment on the travel route based on the detection result of the sensor unit 17, and may acquire an external factor based on the travel route based on the calculation result.

  The information analysis unit 54 analyzes the state of change in the biological information acquired by the biological information acquisition unit 52. Specifically, the information analysis unit 54 analyzes a waveform of biological information acquired in time series, and detects an inflection point in the waveform as a feature of the biological information. In addition, the information analysis unit 54 detects the waveform point having the maximum value, the waveform point having the minimum value, or the waveform section in a stable state in the waveform of the biological information acquired in time series, A waveform section is detected as a feature of biological information. Further, the information analysis unit 54 analyzes the user's travel state (travel speed, etc.) in the travel history, and, like the biometric information, the inflection point, the maximum value, the minimum value, the stable state, etc. are characterized by the travel state. Detect as. Then, the information analysis unit 54 stores the detected feature of the biological information and the feature of the traveling state in the traveling history information storage unit 71 in association with the position on the traveling route.

The label generation unit 55 acquires travel history information corresponding to the points on the travel route where the characteristics of the biological information and the travel state features are detected by the information analysis unit 54. When the external factor is acquired by the external factor acquisition unit 53, the travel history information acquired at this time includes the external factor. Even if external factors are not acquired at the same points on the travel route where the characteristics of the biometric information and the characteristics of the driving state are detected, neighboring points (for example, within the threshold of time or distance) If an external factor is acquired in (1), the label generation unit 55 may acquire the external factor.
And the label production | generation part 55 produces | generates the label showing the information contained in the acquired driving history information, and outputs the produced | generated label to the driving map creation part 56 as a feature point label.

Note that the label generation unit 55 can also generate normal labels (labels that simply display biometric information at each point) other than the feature point labels according to the instruction input and settings. Then, the information is output to the travel map creation unit 56 as appropriate.
The travel map creation unit 56 refers to the travel history stored in the travel history information storage unit 71, and acquires map data in a range corresponding to the travel history from the map data storage unit 72. The travel map creation unit 56 also creates a travel map by associating the feature point label generated by the label generation unit 55 with the position where the feature in the travel history is detected. The travel map creation unit 56 stores the created travel map in the travel map storage unit 73.
The output control unit 57 displays the travel map stored in the travel map storage unit 73 on the display of the output unit 19.

Next, the operation will be described.
FIG. 4 is a flowchart for explaining the flow of the travel history acquisition process executed by the information processing apparatus 1 of FIG. 1 having the functional configuration of FIG.
The travel history acquisition process is started in response to an instruction input for execution of the travel history acquisition process via the input unit 18.

In step S <b> 11, the position information acquisition unit 51 reads settings such as a time interval for acquiring position information and a running route. In addition, the biometric information acquisition unit 52 reads the settings of the time interval for acquiring biometric information and the types of biometric information to be acquired (here, heart rate and blood pressure).
In step S12, the position information acquisition unit 51 starts acquiring position information at predetermined time intervals. Thereafter, the position information acquisition unit 51 executes interrupt processing at predetermined time intervals, sequentially acquires the position information, and stores it in the travel history information storage unit 71.
In step S <b> 13, the biological information acquisition unit 52 starts acquiring biological information at predetermined time intervals. Thereafter, the biometric information acquisition unit 52 executes interrupt processing at predetermined time intervals to sequentially acquire biometric information and store it in the travel history information storage unit 71.

In step S14, the external factor acquisition unit 53 determines whether or not an external factor that acts on the user has occurred. Specifically, the external factor acquisition unit 53 detects an external factor based on the event by the event factor detection unit 53a, and detects an external factor based on the travel route by the travel route factor detection unit 53b. The travel route factor detection unit 53b may detect an external factor based on the travel route in advance for the preset travel route.
If it is determined in step S14 that an external factor acting on the user has occurred (YES), the process proceeds to step S15.
On the other hand, if it is determined in step S14 that an external factor acting on the user has not occurred (NO), the process proceeds to step S17.

In step S15, the external factor acquisition unit 53 acquires the contents of the external factor that has occurred (such as incoming mail).
In step S <b> 16, the external factor acquisition unit 53 stores the acquired content of the external factor in the travel history information storage unit 71 in association with the position on the travel route where the external factor has occurred.

In step S <b> 17, the position information acquisition unit 51 determines whether or not the travel on the travel route has ended. Whether or not the travel of the travel route has ended is determined based on whether or not an end point of a predetermined travel route has been reached or whether an instruction input indicating the end of the travel has been performed by the user. Can be determined.
If it is determined in step S17 that the travel on the travel route has not ended (NO), the process proceeds to step S14.
On the other hand, if it is determined in step S17 that the travel of the travel route has been completed (YES), the process ends.

Next, the travel history display process will be described.
FIG. 5 is a flowchart for explaining the flow of the travel history display process executed by the information processing apparatus 1 of FIG. 1 having the functional configuration of FIG.
The travel history display process is started in response to an instruction input for execution of the travel history display process via the input unit 18.
In step S21, the travel map creation unit 56 displays the travel history to be displayed, the type of biometric information characteristics to be generated (maximum value, inflection point, stable section, etc.) and the biometric information displayed on the label. Read the settings of display information attributes such as contents.
In step S22, the travel map creation unit 56 acquires map data corresponding to the travel history to be displayed.

In step S23, the label generation unit 55 refers to the travel history and generates a feature point label corresponding to the feature of the biological information and the feature of the travel state. At this time, if an external factor is acquired at the point corresponding to the feature of the biological information and the feature of the running state or a point in the vicinity thereof, the feature point label includes the content of the external factor.
In step S24, the travel map creating unit 56 creates a travel map by associating the characteristic point label with the travel route on the map. At this time, normal labels other than characteristic point labels (labels for simply displaying biometric information at each point) are also displayed according to the setting of display information attributes. The travel map created by the travel map creation unit 56 is displayed on the output unit 19 by the output control unit 57.

In step S25, the output control unit 57 determines whether or not a label moving operation has been performed on the displayed travel map. The label moving operation is an operation in which the user moves the position of the label on the travel map to display a label at a different point.
If it is determined in step S25 that the label moving operation has been performed on the displayed travel map (YES), the process proceeds to step S26.
On the other hand, when it is determined in step S25 that the label moving operation is not performed on the displayed travel map (NO), the process proceeds to step S27.
In step S26, the label generation unit 55 refers to the travel history and updates the label to the content corresponding to the point after the movement operation is performed.

In step S27, the output control unit 57 determines whether or not an instruction input for ending the display of the travel map has been performed.
If it is determined in step S27 that the instruction input for ending the display of the travel map has not been made (NO), the process proceeds to step S25.
On the other hand, if it is determined in step S27 that an instruction input for ending the display of the travel map has been made (YES), the process ends.

In the above embodiment, the date and time, the time from the start of travel, and the distance from the start of travel may be displayed on the label.
Moreover, it is good also as displaying the content displayed on a label with forms, such as a meter and a pointer | guide.
Alternatively, a plurality of label types may be prepared, contents to be displayed may be set for each of the plurality of types of labels, and a travel map may be created using the types of labels selected by the user.
Further, past travel histories may be accumulated and stored, the maximum value or minimum value of the parameters in the whole may be detected, and a label may be displayed at the corresponding point.

Further, as an external factor, it may be detected that the user has operated the information processing apparatus 1 or has received an SNS (Social Networking Service) message.
In addition, as a specific travel environment, points set by the user in advance (every predetermined distance from the start (every 5 km, etc.), every predetermined time from the start (every 10 minutes, etc.), or any travel distance or elapsed time arbitrarily set Etc.) may be detected.
Further, a point at which the user starts, interrupts, resumes or ends traveling may be detected, and a label corresponding to the point may be generated.
Alternatively, it may be detected that a condition set by the user as a target of the day or a cumulative total (target travel time, target travel distance, etc.) is satisfied, and a label corresponding to the point may be generated.

The information processing apparatus 1 configured as described above includes a position information acquisition unit 51, a biological information acquisition unit 52, an external factor acquisition unit 53, an information analysis unit 54, and an output control unit 57.
The position information acquisition unit 51 acquires position information.
The biometric information acquisition unit 52 acquires the biometric information of the user.
The external factor acquisition unit 53 detects an external factor generated for the user.
The information analysis unit 54 detects the change state of the biological information.
The output control unit 57 displays a map in which the change state of the biological information and the external factor are displayed in association with the position represented by the position information on the movement route.
Thereby, the information processing apparatus 1 can display on the map in an easy-to-understand manner what external factors have caused the user's state to change when the user's state has changed.
Therefore, it is possible to display the change in the user's state on the travel route more clearly.

Moreover, the information analysis part 54 detects the inflection point of the said biometric information acquired in time series as a change state of biometric information.
Thereby, since it can detect appropriately that the user's state changed, it becomes possible to set appropriately the point which displays a user's state in a map.

In addition, the information processing apparatus 1 includes a label generation unit 55.
The label generation unit 55 generates a label including the biological information and external factors when the information analysis unit 54 detects the change state of the biological information.
The output control unit 57 displays the label generated by the label generation unit 55 on the map based on the position where the change state of the biological information is detected.
Thereby, information including biological information and external factors can be displayed in the form of a label at the point where the user's state has changed.
Therefore, it is possible to display the user's state more clearly.

Further, the external factor acquisition unit 53 detects at least one of an external factor based on an event that has occurred in the information processing apparatus 1 and an external factor based on the travel environment of the travel route as the external factor.
As a result, when an influence caused by a sudden event such as an incoming mail or an influence caused by the traveling environment of the traveling route occurs in the user, those factors can be displayed in association with the change in the state. , The user's state can be displayed more clearly.

  In addition, this invention is not limited to the above-mentioned embodiment, The deformation | transformation in the range which can achieve the objective of this invention, improvement, etc. are included in this invention.

In the above-described embodiment, the information processing apparatus 1 has been described as executing the travel history acquisition process and the travel history display process. However, the present invention is not limited to this.
For example, the information processing apparatus 1 can execute only the travel history acquisition process, and the information processing apparatus (such as a personal computer or a smartphone) different from the information processing apparatus 1 can execute the travel history display process. is there. That is, the information processing apparatus 1 and the other information processing apparatus constitute an information processing system, one of the information processing apparatuses executes a travel history acquisition process, and the acquired data is used by the other information processing apparatus. The travel history display process may be executed.
As a result, the apparatus for executing the travel history acquisition process can be downsized, and the apparatus for executing the travel history display process can perform a display on a large screen, and the apparatus configuration suitable for the usage mode can be obtained. .

  Further, in the above-described embodiment, the information analysis unit 54 may calculate the ratio (margin) to the maximum value of the parameters sequentially acquired as the biological information or the running state as the feature of the biological information or the feature of the running state. Good. In this case, the biometric information or a margin for the maximum value of the running state (that is, a margin for the user's running) can be displayed on the label, and the user's state during the running can be displayed in an easy-to-understand manner.

In the above-described embodiment, the information processing apparatus 1 to which the present invention is applied has been described using the wrist terminal as an example, but is not particularly limited thereto.
For example, the present invention can be applied to general electronic devices having a travel history display processing function. Specifically, for example, the present invention can be applied to a notebook personal computer, a printer, a television receiver, a video camera, a portable navigation device, a mobile phone, a smartphone, a portable game machine, and the like.

The series of processes described above can be executed by hardware or can be executed by software.
In other words, the functional configuration of FIG. 2 is merely an example and is not particularly limited. That is, it is sufficient that the information processing apparatus 1 has a function capable of executing the above-described series of processing as a whole, and what functional block is used to realize this function is not particularly limited to the example of FIG. .
In addition, one functional block may be constituted by hardware alone, software alone, or a combination thereof.

When a series of processing is executed by software, a program constituting the software is installed on a computer or the like from a network or a recording medium.
The computer may be a computer incorporated in dedicated hardware. The computer may be a computer capable of executing various functions by installing various programs, for example, a general-purpose personal computer.

  The recording medium including such a program is not only constituted by the removable medium 31 of FIG. 2 distributed separately from the apparatus main body in order to provide the program to the user, but also in a state of being incorporated in the apparatus main body in advance. It is comprised with the recording medium etc. which are provided in. The removable medium 31 is composed of, for example, a magnetic disk (including a floppy disk), an optical disk, a magneto-optical disk, or the like. The optical disc is composed of, for example, a CD-ROM (Compact Disk-Read Only Memory), a DVD (Digital Versatile Disc), a Blu-ray (registered trademark) Disc (Blu-ray Disc), and the like. The magneto-optical disk is configured by an MD (Mini-Disk) or the like. In addition, the recording medium provided to the user in a state of being preliminarily incorporated in the apparatus main body includes, for example, the ROM 12 in FIG. 1 in which a program is recorded, the hard disk included in the storage unit 20 in FIG.

In the present specification, the step of describing the program recorded on the recording medium is not limited to the processing performed in chronological order according to the order, but is not necessarily performed in chronological order, either in parallel or individually. The process to be executed is also included.
Further, in the present specification, the term “system” means an overall apparatus configured by a plurality of devices, a plurality of means, and the like.

  As mentioned above, although several embodiment of this invention was described, these embodiment is only an illustration and does not limit the technical scope of this invention. The present invention can take other various embodiments, and various modifications such as omission and replacement can be made without departing from the gist of the present invention. These embodiments and modifications thereof are included in the scope and gist of the invention described in this specification and the like, and are included in the invention described in the claims and the equivalents thereof.

The invention described in the scope of claims at the beginning of the filing of the present application will be appended.
[Appendix 1]
Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
An external factor acquisition means for acquiring an external factor generated for the user;
Change state detection means for detecting a change state of the biological information;
Display control means for displaying a map in which the state of change and the external factor are displayed in association with the position represented by the position information on a movement route;
An information processing apparatus comprising:
[Appendix 2]
The information processing apparatus according to appendix 1, wherein the change state detection unit detects an inflection point of the biological information acquired in time series as the change state of the biological information.
[Appendix 3]
Label generation means for generating a label including the biological information and the external factor when the change state of the biological information is detected by the change state detection means,
The said display control means displays the said label produced | generated by the said label production | generation means on the said map based on the position where the state of the said biometric information change was detected, The additional statement 1 or 2 characterized by the above-mentioned. Information processing device.
[Appendix 4]
The external factor acquisition means acquires, as the external factor, at least one of an external factor based on an event that has occurred in the information processing apparatus and an external factor based on the traveling environment of the travel route. The information processing apparatus according to any one of supplementary notes 1 to 3, which is a feature.
[Appendix 5]
An information processing apparatus that constitutes an information processing system that displays a map related to the user's movement route based on user position information and biological information,
Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
An external factor acquisition means for acquiring an external factor generated for the user;
An information processing apparatus comprising:
[Appendix 6]
An information processing apparatus that constitutes an information processing system that displays a map related to the user's movement route based on user position information and biological information,
Change state detection means for detecting a change state of the biological information;
Display control means for displaying a map in which the state of the change and an external factor generated for the user are displayed in association with the position represented by the position information on the movement route;
An information processing apparatus comprising:
[Appendix 7]
Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
A first information processing apparatus comprising: an external factor acquisition means for acquiring an external factor generated for a user;
Change state detection means for detecting a change state of the biological information;
A second information processing apparatus comprising: a display control unit configured to display a map in which the state of change and the external factor are displayed in association with each other at a position represented by the position information on a movement route;
An information processing system comprising:
[Appendix 8]
A location information acquisition step for acquiring location information;
A biometric information acquisition step of acquiring biometric information of the user;
An external factor acquisition step of acquiring an external factor generated for the user;
A change state detecting step for detecting a change state of the biological information;
A display control step of displaying a map in which the state of change and the external factor are displayed in association with each other on the position represented by the position information on a movement route;
An information processing method comprising:
[Appendix 9]
An information processing method for an information processing system for displaying a map related to a user's movement route based on user position information and biological information,
A location information acquisition step for acquiring location information;
A biometric information acquisition step of acquiring biometric information of the user;
An external factor acquisition step of acquiring an external factor generated for the user;
An information processing method comprising:
[Appendix 10]
An information processing method for an information processing system for displaying a map related to a user's movement route based on user position information and biological information,
A change state detecting step for detecting a change state of the biological information;
A display control step of displaying a map in which the state of the change and an external factor generated for the user are displayed in association with the position represented by the position information on the movement route;
An information processing method comprising:
[Appendix 11]
On the computer,
A location information acquisition function for acquiring location information;
A biometric information acquisition function for acquiring biometric information of a user;
An external factor acquisition function for acquiring external factors generated for a user;
A change state detection function for detecting a change state of the biological information;
A display control function for displaying a map in which the state of change and the external factor are displayed in association with each other at a position represented by the position information on a movement route;
A program characterized by realizing.
[Appendix 12]
Based on the user's position information and biological information, a computer constituting an information processing system that displays a map relating to the user's movement route,
A location information acquisition function for acquiring location information;
A biometric information acquisition function for acquiring biometric information of a user;
An external factor acquisition function for acquiring external factors generated for a user;
A program characterized by realizing.
[Appendix 13]
Based on the user's position information and biological information, a computer constituting an information processing system that displays a map relating to the user's movement route,
A change state detection function for detecting a change state of the biological information;
A display control function for displaying a map in which the state of the change and an external factor generated for the user are displayed in association with the position represented by the position information on the movement route;
A program characterized by realizing.

  DESCRIPTION OF SYMBOLS 1 ... Information processing apparatus, 2 ... Wrist terminal, 11 ... CPU, 12 ... ROM, 13 ... RAM, 14 ... Bus, 15 ... Input / output interface, 16 ... Image pickup unit, 17 ... sensor unit, 18 ... input unit, 19 ... output unit, 20 ... storage unit, 21 ... communication unit, 22 ... drive, 31 ... removable Media 51 ... Position information acquisition unit 52 ... Biometric information acquisition unit 53 ... External factor acquisition unit 53a ... Event factor detection unit 53b ... Travel route factor detection unit 54 ... Information analysis section, 55 ... Label generation section, 56 ... Travel map creation section, 57 ... Output control section, 71 ... Travel history information storage section, 72 ... Map data storage section 73 ... travel map storage unit

Claims (13)

Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
An external factor acquisition means for acquiring an external factor generated for the user;
Change state detection means for detecting a change state of the biological information;
Display control means for displaying a map in which the state of change and the external factor are displayed in association with the position represented by the position information on a movement route;
An information processing apparatus comprising:   The information processing apparatus according to claim 1, wherein the change state detection unit detects an inflection point of the biological information acquired in time series as the change state of the biological information. Label generation means for generating a label including the biological information and the external factor when the change state of the biological information is detected by the change state detection means,
The said display control means displays the said label produced | generated by the said label production | generation means on the said map based on the position where the state of the change of the said biometric information was detected. Information processing device.   The external factor acquisition means acquires, as the external factor, at least one of an external factor based on an event that has occurred in the information processing apparatus and an external factor based on the traveling environment of the travel route. The information processing apparatus according to any one of claims 1 to 3, wherein the information processing apparatus is characterized in that: An information processing apparatus that constitutes an information processing system that displays a map related to the user's movement route based on user position information and biological information,
Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
An external factor acquisition means for acquiring an external factor generated for the user;
An information processing apparatus comprising: An information processing apparatus that constitutes an information processing system that displays a map related to the user's movement route based on user position information and biological information,
Change state detection means for detecting a change state of the biological information;
Display control means for displaying a map in which the state of the change and an external factor generated for the user are displayed in association with the position represented by the position information on the movement route;
An information processing apparatus comprising: Position information acquisition means for acquiring position information;
Biometric information acquisition means for acquiring biometric information of the user;
A first information processing apparatus comprising: an external factor acquisition means for acquiring an external factor generated for a user;
Change state detection means for detecting a change state of the biological information;
A second information processing apparatus comprising: a display control unit configured to display a map in which the state of change and the external factor are displayed in association with each other at a position represented by the position information on a movement route;
An information processing system comprising: A location information acquisition step for acquiring location information;
A biometric information acquisition step of acquiring biometric information of the user;
An external factor acquisition step of acquiring an external factor generated for the user;
A change state detecting step for detecting a change state of the biological information;
A display control step of displaying a map in which the state of change and the external factor are displayed in association with each other on the position represented by the position information on a movement route;
An information processing method comprising: An information processing method for an information processing system for displaying a map related to a user's movement route based on user position information and biological information,
A location information acquisition step for acquiring location information;
A biometric information acquisition step of acquiring biometric information of the user;
An external factor acquisition step of acquiring an external factor generated for the user;
An information processing method comprising: An information processing method for an information processing system for displaying a map related to a user's movement route based on user position information and biological information,
A change state detecting step for detecting a change state of the biological information;
A display control step of displaying a map in which the state of the change and an external factor generated for the user are displayed in association with the position represented by the position information on the movement route;
An information processing method comprising: On the computer,
A location information acquisition function for acquiring location information;
A biometric information acquisition function for acquiring biometric information of a user;
An external factor acquisition function for acquiring external factors generated for a user;
A change state detection function for detecting a change state of the biological information;
A display control function for displaying a map in which the state of change and the external factor are displayed in association with each other at a position represented by the position information on a movement route;
A program characterized by realizing. Based on the user's position information and biological information, a computer constituting an information processing system that displays a map relating to the user's movement route,
A location information acquisition function for acquiring location information;
A biometric information acquisition function for acquiring biometric information of a user;
An external factor acquisition function for acquiring external factors generated for a user;
A program characterized by realizing. Based on the user's position information and biological information, a computer constituting an information processing system that displays a map relating to the user's movement route,
A change state detection function for detecting a change state of the biological information;
A display control function for displaying a map in which the state of the change and an external factor generated for the user are displayed in association with the position represented by the position information on the movement route;
A program characterized by realizing.

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