WO2022049727A1 - Dispositif de traitement d'informations, procédé de commande et support de stockage - Google Patents

Dispositif de traitement d'informations, procédé de commande et support de stockage Download PDF

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Publication number
WO2022049727A1
WO2022049727A1 PCT/JP2020/033615 JP2020033615W WO2022049727A1 WO 2022049727 A1 WO2022049727 A1 WO 2022049727A1 JP 2020033615 W JP2020033615 W JP 2020033615W WO 2022049727 A1 WO2022049727 A1 WO 2022049727A1
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Prior art keywords
fatigue
degree
information
subject
display control
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PCT/JP2020/033615
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English (en)
Japanese (ja)
Inventor
祐 北出
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日本電気株式会社
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Priority to PCT/JP2020/033615 priority Critical patent/WO2022049727A1/fr
Priority to JP2022546820A priority patent/JPWO2022049727A5/ja
Publication of WO2022049727A1 publication Critical patent/WO2022049727A1/fr

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/16Devices for psychotechnics; Testing reaction times ; Devices for evaluating the psychological state
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services
    • G06Q50/22Social work or social welfare, e.g. community support activities or counselling services

Definitions

  • This disclosure relates to the technical fields of information processing devices, control methods, and storage media for displaying information on fatigue.
  • Patent Document 1 discloses a fatigue degree determination system that determines the degree of fatigue of a subject and displays the determination result in characters such as "good", “caution”, or "need attention”. This fatigue degree determination system also discloses a point of displaying a graph that visually displays the degree of fatigue of a subject.
  • Patent Document 1 does not disclose any indication of the degree of fatigue in consideration of such a problem.
  • An object of the present disclosure is to provide an information processing device, a control method, and a storage medium capable of suitably displaying information on fatigue in view of the above-mentioned problems.
  • One aspect of the information processing device is An acquisition means for acquiring at least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree.
  • a display control means for displaying information on the fatigue of the subject based on the first fatigue degree and the second fatigue degree, and a display control means. It is an information processing device having.
  • One aspect of the control method is by computer. At least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree are acquired. Information on the subject's fatigue is displayed based on the first fatigue degree and the second fatigue degree. It is a control method.
  • the "computer” includes any electronic device (which may be a processor included in the electronic device), and may be composed of a plurality of electronic devices.
  • One aspect of the storage medium is At least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree are acquired. It is a storage medium in which a program for causing a computer to execute a process of displaying information on the fatigue of the subject based on the first fatigue degree and the second fatigue degree is stored.
  • information on the degree of fatigue can be suitably displayed.
  • a schematic configuration of the fatigue analysis system according to the first embodiment is shown.
  • the hardware configuration of the information processing device is shown. This is an example of a functional block of an information processing device.
  • a display example of the fatigue confirmation screen in the first display mode is shown.
  • a first display example of the fatigue confirmation screen in the second display mode is shown.
  • a second display example of the fatigue confirmation screen in the second display mode is shown.
  • the schematic block diagram of the fatigue analysis system in 2nd Embodiment is shown. It is an example of the functional block of the information processing apparatus in the 2nd Embodiment.
  • An example of the data structure of the activity information stored in the activity information storage unit is shown.
  • An example of the data structure of the countermeasure rule stored in the countermeasure rule storage unit is shown.
  • the schematic configuration of the fatigue analysis system in the third embodiment is shown. It is a block diagram of the information processing apparatus in 4th Embodiment. This is an example of a flowchart executed by the information processing apparatus in the fourth embodiment.
  • System Configuration Figure 1 shows a schematic configuration of the fatigue analysis system 100 according to the first embodiment.
  • the fatigue analysis system 100 analyzes the fatigue of each subject belonging to the organization to be analyzed for fatigue, and visualizes the analysis result.
  • the fatigue analysis system 100 mainly includes an information processing device 1, an input device 2, a display device 3, a storage device 4, and a sensor 5.
  • the "target person” is a person who needs to manage the fatigue state, and corresponds to, for example, an athlete or an employee belonging to an organization.
  • the information processing device 1 performs data communication with the input device 2, the display device 3, and the sensor 5 via a communication network or by direct communication by radio or wire. Then, the information processing device 1 is fatigued by the subject based on the input signal "S1" supplied from the input device 2, the sensor signal “S3” supplied from the sensor 5, and the information stored in the storage device 4. Perform an analysis of. Further, the information processing device 1 generates a display signal "S2" based on the analysis result of the fatigue of the subject, and supplies the generated display signal S2 to the display device 3.
  • the input device 2 is an interface that accepts user input (manual input) of information about each target person, and receives, for example, information necessary for estimating fatigue of the target person, information about the activity of each target person, and the like.
  • the user who inputs information using the input device 2 may be the target person himself / herself, or may be a person who manages or supervises the activities of the target person.
  • the input device 2 may be various user input interfaces such as a touch panel, a button, a keyboard, a mouse, and a voice input device.
  • the input device 2 supplies the input signal S1 generated based on the user's input to the information processing device 1.
  • the display device 3 displays predetermined information based on the display signal S2 supplied from the information processing device 1.
  • the display device 3 is, for example, a display or a projector.
  • the sensor 5 measures the biological signal of the subject and supplies the measured biological signal or the like to the information processing device 1 as the sensor signal S3.
  • the sensor signal S3 is an arbitrary biological signal (including vital information) such as the subject's heartbeat, electroencephalogram, sweating amount, hormone secretion amount, cerebral blood flow, blood pressure, body temperature, myoelectricity, and respiratory rate. May be good.
  • the sensor 5 may be a device that analyzes blood collected from the subject and outputs a sensor signal S3 indicating the analysis result.
  • the sensor 5 may be a device for performing body measurement such as a jump for measuring body fatigue or the like.
  • the storage device 4 is a memory that stores various information necessary for calculating various fatigue degrees and the like.
  • the storage device 4 may be an external storage device such as a hard disk connected to or built in the information processing device 1, or may be a storage medium such as a flash memory. Further, the storage device 4 may be a server device that performs data communication with the information processing device 1. Further, the storage device 4 may be composed of a plurality of devices.
  • the storage device 4 functionally has a fatigue degree storage unit 41, an activity information storage unit 42, and an attribute information storage unit 43.
  • the fatigue degree storage unit 41 stores information indicating the fatigue degree for each subject.
  • the information processing apparatus 1 is based on at least one of the input signal S1 and the sensor signal S3, and as the degree of fatigue, the degree of physical fatigue of the subject (also referred to as “physical fatigue degree”) and mental. Estimate the degree of fatigue (also called “mental fatigue”) and the total degree of physical and mental fatigue (also called “total fatigue”). The degree of fatigue may be measured regularly (for example, at regular intervals every morning), or before or after the subject's activities. Then, the information processing apparatus 1 stores the estimation result of each fatigue degree in the fatigue degree storage unit 41 in association with the date and time information indicating the estimated date and time and the identification information (target person ID) of the target person.
  • the above-mentioned "estimated date and time” may be the date and time when the signal used for the estimation was generated, or may be the date and time when the estimation was performed.
  • the "estimated date and time” may indicate today's date and time.
  • the activity information storage unit 42 stores activity information related to the activities of each target person.
  • the activity information is, for example, information in which the activity content of each target person, the target person ID indicating the target person who performed the activity, the activity date and time, the activity time length, and the activity amount are associated with each other.
  • the "activity amount" indicates the quantitative or / and qualitative degree of the activity, and may be, for example, the practice intensity or / and the practice load amount when the activity is practice for athletes.
  • the information processing apparatus 1 updates the activity information stored in the activity information storage unit 42, for example, based on the input signal S1.
  • the fatigue level stored in the fatigue level storage unit 41 may be included in the activity information.
  • the activity information may further include information on various degrees of fatigue before and after each activity.
  • the attribute information storage unit 43 stores attribute information related to the attributes of each target person.
  • the attributes correspond to, for example, the age, gender, and affiliation group (organization) of each subject.
  • the storage device 4 may store various information necessary for the processing executed by the information processing device 1 in the present embodiment.
  • the configuration of the fatigue analysis system 100 shown in FIG. 1 is an example, and various changes may be made to the configuration.
  • the input device 2 and the display device 3 may be integrally configured.
  • the input device 2 and the display device 3 may be configured as a tablet-type terminal integrated with or separate from the information processing device 1.
  • the input device 2 and the sensor 5 may be integrally configured.
  • the information processing device 1 may be composed of a plurality of devices. In this case, the plurality of devices constituting the information processing device 1 exchange information necessary for executing the pre-assigned process among the plurality of devices. In this case, the information processing apparatus 1 functions as an information processing system.
  • FIG. 2 shows the hardware configuration of the information processing device 1.
  • the information processing device 1 includes a processor 11, a memory 12, and an interface 13 as hardware.
  • the processor 11, the memory 12, and the interface 13 are connected via the data bus 19.
  • the processor 11 functions as a controller (arithmetic unit) that controls the entire information processing device 1 by executing a program stored in the memory 6.
  • the processor 11 is, for example, a processor such as a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), a TPU (Tensor Processing Unit), or a quantum processor.
  • the processor 11 may be composed of a plurality of processors.
  • the processor 11 is an example of a computer.
  • the memory 12 is composed of various volatile memories such as RAM (Random Access Memory), ROM (Read Only Memory), and flash memory, and non-volatile memory. Further, the memory 12 stores a program for executing the process executed by the information processing apparatus 1. Further, for example, the memory 12 contains information on parameters of an inferior for estimating various fatigue degrees based on the input signal S1 and / and the sensor signal S3. A part of the information stored in the memory 12 may be stored by one or a plurality of external storage devices that can communicate with the information processing device 1, and is stored by a storage medium that can be attached to and detached from the information processing device 1. You may.
  • the interface 13 is an interface for electrically connecting the information processing device 1 and another device.
  • These interfaces may be wireless interfaces such as network adapters for wirelessly transmitting and receiving data to and from other devices, and may be hardware interfaces for connecting to other devices by cables or the like.
  • the hardware configuration of the information processing device 1 is not limited to the configuration shown in FIG.
  • the information processing device 1 may include at least one of the input device 2 and the display device 3. Further, the information processing device 1 may be connected to or built in a sound output device such as a speaker.
  • FIG. 3 is an example of a functional block of the information processing apparatus 1.
  • the processor 11 of the information processing device 1 functionally has an input receiving unit 14, a fatigue estimation unit 15, and a display control unit 16.
  • the blocks in which data is exchanged are connected by a solid line, but the combination of blocks in which data is exchanged is not limited to FIG. The same applies to the figures of other functional blocks described later.
  • the input receiving unit 14 receives the input signal S1 and the sensor signal S3 via the interface 13. Then, when the input receiving unit 14 receives the input signal S1 or / and the sensor signal S3 (also referred to as “fatigue-related information”) used for estimating fatigue, the input receiving unit 14 supplies the received fatigue-related information to the fatigue estimation unit 15. do. Further, when the input receiving unit 14 receives the input signal S1 relating to the update of the activity information storage unit 42, the input receiving unit 14 updates the activity information storage unit 42 based on the input signal S1. Further, when the input receiving unit 14 receives the input signal S1 related to the display due to the operation of the viewer who browses the display device 3, the input receiving unit 14 supplies the input signal S1 to the display control unit 16.
  • the fatigue estimation unit 15 estimates various fatigue levels of the subject based on the fatigue-related information supplied from the input / reception unit 14. Specifically, the fatigue estimation unit 15 estimates the physical fatigue level, the mental fatigue level, and the total fatigue level, respectively, based on the fatigue-related information. The fatigue estimation unit 15 may estimate each of these fatigue levels based on an arbitrary method (for example, a bio-evaluation method, a subjective evaluation method, etc.). Further, the fatigue estimation unit 15 configures various fatigue degree inferiors based on the parameters stored in the memory 12 or the storage device 4, and inputs fatigue-related information to the configured inferrers to obtain each fatigue degree. You may make inferences.
  • the inferior may be a general formula, or may be a predetermined statistical model obtained by learning or a learning model based on deep learning or the like.
  • the information used for estimating the physical fatigue level, the mental fatigue level, and the total fatigue level may be the same or different.
  • the fatigue estimation unit 15 extracts and extracts information used for estimating the physical fatigue level, the mental fatigue level, and the total fatigue level from the fatigue-related information supplied by the input / reception unit 14. Input information into various fatigue inferiors.
  • the display control unit 16 targets the display device 3 by referring to the fatigue level storage unit 41, the activity information storage unit 42, and the attribute information storage unit 43 based on the input signal S1 regarding the display supplied from the input reception unit 14.
  • a display signal S2 for displaying information regarding a person's fatigue is generated.
  • the display control unit 16 displays information on the fatigue of one or more subjects based on at least two fatigue levels of physical fatigue level, mental fatigue level, and total fatigue level.
  • the display signal S2 is generated.
  • the display control unit 16 supplies the generated display signal S2 to the display device 3 via the interface 13 to display information on fatigue on the display device 3.
  • the information to be displayed on the display device 3 will be described later.
  • the viewer of the information on fatigue displayed on the display device 3 may be, for example, a target person or a person who manages or supervises the target person.
  • each component of the input receiving unit 14, the fatigue estimation unit 15, and the display control unit 16 described with reference to FIG. 3 can be realized, for example, by the processor 11 executing a program. Further, each component may be realized by recording a necessary program in an arbitrary non-volatile storage medium and installing it as needed. It should be noted that at least a part of each of these components is not limited to being realized by software by a program, but may be realized by any combination of hardware, firmware, and software. Further, at least a part of each of these components may be realized by using a user-programmable integrated circuit such as an FPGA (Field-Programmable Gate Array) or a microcontroller. In this case, this integrated circuit may be used to realize a program composed of each of the above components.
  • FPGA Field-Programmable Gate Array
  • each component may be configured by an ASIC (Application Specific Standard Produce) or an ASIC (Application Specific Integrated Circuit).
  • ASIC Application Specific Standard Produce
  • ASIC Application Specific Integrated Circuit
  • a specific screen related to fatigue (also referred to as a “fatigue confirmation screen”) to be displayed on the display device 3 by the display control unit 16 transmitting the display signal S2 to the display device 3.
  • the display mode will be described.
  • the display control unit 16 generates a display signal S2 on a fatigue confirmation screen relating to the fatigue of one or a plurality of subjects based on at least two fatigue levels of physical fatigue, mental fatigue, and total fatigue.
  • the first display mode to the sixth display mode which are specific display modes of the fatigue confirmation screen, will be described.
  • (First display mode) In the first display mode, the display control unit 16 of each subject belonging to the designated group on the two-dimensional coordinates with at least two fatigue degrees of the physical fatigue degree, the mental fatigue degree, and the total fatigue degree as the coordinate axes. Display the degree of fatigue.
  • FIG. 4 shows a display example of the fatigue confirmation screen in the first display mode.
  • the display control unit 16 mainly includes a date selection field 20, a group selection field 21, a map selection field 22, an option selection field 23, a fatigue degree map 25, and a statistical display field 27.
  • the total fatigue level high-ranking person display button 28 are displayed on the fatigue confirmation screen.
  • the date selection field 20 is a user interface for selecting the date of the fatigue degree to be displayed.
  • the display control unit 16 displays a calendar on which an arbitrary date can be selected, and accepts a viewer to specify an arbitrary date.
  • the group selection field 21 is a pull-down menu format input field for designating a group for which the fatigue level is to be displayed.
  • the display control unit 16 receives, for example, the selection of an arbitrary group included in the attribute information stored in the attribute information storage unit 43 by the group selection field 21.
  • the candidate group selected in the group selection field 21 may be a group of arbitrary units in the organization in which the information processing apparatus 1 manages the fatigue state.
  • the candidate group may be a group divided by team or position if the target person is a player, and if the target person is an employee, a person in charge, a section, or a department. It may be a group divided by such as.
  • the candidate group may be a particular group of noted players (players picked up based on user input).
  • the map selection field 22 is a pull-down menu format input field for designating a display mode such as the coordinate axes of the fatigue map 25, which will be described later.
  • the display control unit 16 can select at least a combination of two fatigue degrees as coordinate axes of two-dimensional coordinates from the physical fatigue degree, the mental fatigue degree, and the total fatigue degree as a menu of selection candidates in the map selection field 22. Display on. In FIG. 4, “physical fatigue degree ⁇ mental fatigue degree” is designated in the map selection field 22. In this case, as will be described later, the display control unit 16 displays the two-dimensional coordinates with the physical fatigue degree as the horizontal axis and the mental fatigue degree as the vertical axis as the fatigue degree map 25.
  • the option selection column 23 is a column for designating options related to the display of the fatigue map 25, and the options that can be specified will be described later in the display mode.
  • the fatigue degree map 25 is a map showing the fatigue state of each subject belonging to the group designated in the group selection field 21 (also referred to as “designated group”).
  • group selection field 21 also referred to as “designated group”.
  • the display control unit 16 since the display control unit 16 has selected “physical fatigue degree ⁇ mental fatigue degree” in the map selection field 22, the two-dimensional coordinates of the physical fatigue degree and the mental fatigue degree are used as the fatigue degree map 25. indicate.
  • the display control unit 16 refers to the fatigue degree storage unit 41, and sets the icons 26x to 26w corresponding to each target person belonging to the designated group as the physical fatigue degree of the corresponding target person on the above two-dimensional coordinates. Place it in a position according to the degree of mental fatigue.
  • the icons 26x to 26w are, for example, images (here, face images) that can identify the corresponding target person. As a result, the viewer can grasp the fatigue state of each subject in the selected group from various viewpoints by referring to the fatigue degree map 25.
  • the icons 26x to 26w can be selected, and when the display control unit 16 detects that any one of the icons 26x to 26w is selected, the degree of fatigue of the subject corresponding to the selected icon, etc. Display the fatigue confirmation screen that individually displays. This display example will be described later with reference to FIG.
  • the statistical display column 27 is a column showing statistical information regarding the degree of fatigue of each subject belonging to the designated group.
  • the display control unit 16 refers to the fatigue degree storage unit 41, so that the average value, which is the statistic of the physical fatigue degree, the mental fatigue degree, and the total fatigue degree of each subject in the designated group, is the maximum. The value and the minimum value are calculated, and the calculation result is displayed in the statistical display column 27.
  • the total fatigue level high-ranking person display button 28 is a button that requests the display of the total fatigue level high-ranking person.
  • the display control unit 16 detects that the display button 28 for the person with the highest total fatigue level is selected, the display control unit 16 becomes the top n persons (n is an integer of 1 or more) among the subjects belonging to the designated group. Display the information of the person.
  • the display control unit 16 displays, for example, a list showing the names and the like of the superiors of the total fatigue degree together with the information of various fatigue degrees of each of the superiors on the fatigue confirmation screen or in a separate window.
  • the display control unit 16 can suitably present the fatigue state of each subject belonging to the designated group to the viewer using a plurality of fatigue levels.
  • the display control unit 16 displays the fatigue state of the subject using all of the physical fatigue level, the mental fatigue level, and the total fatigue level.
  • FIG. 5 shows a first display example of the fatigue confirmation screen in the second display mode.
  • the display control unit 16 since "mental fatigue / physical fatigue x total fatigue" is selected in the map selection field 22, the display control unit 16 sets the horizontal axis of the fatigue degree map 25 as mental fatigue with respect to the physical fatigue level. The ratio of degrees and the vertical axis of the fatigue degree map 25 are set to the total fatigue degree. Then, the display control unit 16 is based on the mental fatigue level, the physical fatigue level, and the total fatigue level of each target person in the designated group stored in the fatigue level storage unit 41, and the icons 26x to correspond to each target person in the designated group. 26w is displayed on the fatigue degree map 25.
  • the display control unit 16 can preferably present to the viewer the fatigue state of each subject in the designated group based on the mental fatigue level, the physical fatigue level, and the total fatigue level.
  • FIG. 6 shows a second display example of the fatigue confirmation screen in the second display mode.
  • the display control unit 16 displays on the fatigue degree map 25 two-dimensional coordinates in which the horizontal axis of the fatigue degree map 25 is the physical fatigue degree and the vertical axis of the fatigue degree map 25 is the mental fatigue degree.
  • the display control unit 16 displays icons 26x to 26w corresponding to each target person in the designated group based on the mental fatigue level and the physical fatigue level of each target person in the designated group stored in the fatigue degree storage unit 41. Display on dimensional coordinates.
  • the display control unit 16 displays contour lines based on the total fatigue level on the two-dimensional coordinates based on the total fatigue level of each subject.
  • the display control unit 16 displays a curve (here, an arc) indicating a boundary value (here, 40, 55, 70) which is a plurality of delimiters of the total fatigue degree on the two-dimensional coordinates.
  • the display control unit 16 colors the regions on the two-dimensional coordinates separated by the boundary value of the total fatigue degree with different colors.
  • the display control unit 16 arranges the arcs indicating each boundary value so that at least the magnitude relationship between the total fatigue level of each target person in the designated group and the boundary value corresponding to each arc matches.
  • the display control unit 16 can preferably present to the viewer the fatigue state of each subject in the designated group based on the mental fatigue level, the physical fatigue level, and the total fatigue level.
  • the mode for displaying the fatigue state of each subject in the designated group based on the mental fatigue level, the physical fatigue level, and the total fatigue level is not limited to the examples shown in FIGS. 5 and 6.
  • the display control unit 16 sets the two-dimensional coordinate axes of the fatigue map 25 according to the two types of fatigue, and the size of the icon of each target person in the designated group according to the remaining one type of fatigue.
  • the shape or color may be changed. That is, the display control unit 16 may use the icon itself as a medium (third axis) representing the third index.
  • the display control unit 16 displays the contour lines of the total fatigue level, which is a third index, on the fatigue level map 25, but the color of the icon of the target person is higher as the total fatigue level is higher.
  • the icon shape may be defined as a shape that darkens, increases the icon size, or / and has a large number of vertices.
  • the display control unit 16 may display the icon so that the number of the third index (for example, the value of the total fatigue degree) is displayed on the icon itself.
  • the display control unit 16 may display an icon so that the photograph of the target person and the numerical value of the third axis are alternately displayed at regular intervals.
  • the display control unit 16 may display the fatigue degree map 25 by three-dimensional display based on computer graphics.
  • the display control unit 16 displays a three-dimensional coordinate space of mental fatigue degree, physical fatigue degree, and total fatigue degree, and displays an icon corresponding to each target person of the designated group in the space for each target person. It is displayed according to the position according to the fatigue state of.
  • the display control unit 16 can suitably present the fatigue state of each subject of the designated group based on the mental fatigue degree, the physical fatigue degree, and the total fatigue degree to the viewer.
  • the display control unit 16 visualizes the relationship between the activity of the subject and fatigue based on the activity information stored in the activity information storage unit 42. Specifically, the display control unit 16 displays on the fatigue degree map 25 information on the amount of activity indicated by the activity information stored in the activity information storage unit 42, in addition to the fatigue state of each subject.
  • FIG. 7 is a display example of the fatigue confirmation screen in the third display mode.
  • the display control unit 16 maps the icons 26x to 26w on the two-dimensional coordinates in which the horizontal axis of the fatigue map 25 is the physical fatigue and the vertical axis of the fatigue map 25 is the amount of activity based on the activity information. Display on 25.
  • the "activity amount” is a value indicating the degree of activity immediately before the measurement of the fatigue degree on the day specified in the date selection field 20 or within a predetermined period (here, the latest 24 hours) immediately before the measurement. ing.
  • This amount of activity includes at least one of the activity content (for example, the practice menu if the subject is an athlete), the intensity of the activity (for example, the exercise intensity if the subject is an athlete), and the activity time. It may be an index that takes into consideration comprehensively.
  • the amount of activity is associated with each subject as, for example, activity information. If there are a plurality of activities performed by one target person within the last 24 hours, the display control unit 16 may consider the total value of the activity amounts of these activities as the activity amount of the target person.
  • the display control unit 16 sets the size of the icons 26x to 26w in the fatigue degree map 25 to a size corresponding to the total fatigue degree of the corresponding target person. Further, the display control unit 16 displays statistical information (average, maximum value, and minimum value) of the activity amount in addition to the statistical information of each fatigue degree in the statistical display column 27.
  • the display control unit 16 can preferably present information indicating the relationship between the activity of the subject and fatigue to the viewer.
  • the display control unit 16 visualizes the relationship between the activity of the subject and fatigue, as in the third display mode, and specifically, regarding changes in the fatigue state before and after the activity. Display information on the fatigue confirmation screen.
  • FIG. 8 is a first display example of the fatigue confirmation screen in the fourth display mode.
  • the display control unit 16 since the “state transition display before and after the activity” is selected in the option selection field 23, the display control unit 16 further provides an activity selection field 24 for the viewer to further specify the reference activity. it's shown.
  • the display control unit 16 sets the history of activities performed in the past by the target person belonging to the designated group as a candidate for the activity to be selected in the activity selection column 24 based on the activity information stored in the activity information storage unit 42. Display as selectable.
  • “Activity A” executed on January 24, 2019 is selected in the activity selection column 24 as the target activity.
  • the display control unit 16 has the activity designated in the activity selection column 24 (also referred to as “designated activity”) on the fatigue degree map 25 based on the selection results of the option selection column 23 and the activity selection column 24.
  • the transition of the fatigue state of each subject in the designated group before and after is displayed.
  • the display control unit 16 has various fatigue levels (physical fatigue level, before and after the designated activity of each subject in the designated group acquired by referring to the fatigue level storage unit 41 and the activity information storage unit 42. Obtain mental fatigue and total fatigue).
  • the display control unit 16 displays the fatigue state of each target person in the designated group immediately before the execution of the designated activity by the icons 26xa to 26wa, and the fatigue state of each target person in the designated group immediately after the execution of the designated activity.
  • the display control unit 16 arranges the icons 26xa to 26wa and the icons 26xb to 26wb at positions corresponding to the physical fatigue level and the mental fatigue level on the two-dimensional coordinates of the physical fatigue level and the mental fatigue level. , And set the icon size to the size corresponding to the corresponding total fatigue level.
  • the display control unit 16 starts from the icons 26xa to 26wa indicating the fatigue state before the designated activity for each target person, and sets the end points to the icons 26xb to 26wb indicating the fatigue state after the designated activity for the same target person.
  • An arrow is provided.
  • the display control unit 16 displays statistical information regarding the increase / decrease in the degree of fatigue before and after the designated activity for each target person in the designated group in the statistical display column 27. Specifically, the display control unit 16 has an average value, a maximum value, and a minimum value, which are statistics related to an increase / decrease in the degree of physical fatigue, an increase / decrease in the degree of mental fatigue, and an increase / decrease in the total degree of fatigue due to the designated activity “Activity A”. Is displayed.
  • the display control unit 16 can preferably present to the viewer information indicating the relationship between the activity arbitrarily designated by the viewer and the fatigue of the subject. ..
  • the display control unit 16 displays the transition of the fatigue state of each subject of the designated group before and after the lapse of the designated time, instead of displaying the transition of the fatigue state of each subject of the designated group before and after the designated activity.
  • the "designated time” may be a time length in units of time (Hour) specified by the user, or may be a time length in units of days or weeks. Further, even if the "transition of the fatigue state of the subject before and after the lapse of the specified time" refers to the transition of the fatigue state of the subject in two different time zones specified by the user, such as morning and night. good. In this case, the display control unit 16 can suitably present to the viewer the change in the fatigue state of each subject before and after a time arbitrarily designated by the viewer.
  • FIG. 9 is a second display example of the fatigue confirmation screen in the fourth display mode.
  • "display of difference value before and after activity” is selected in the option selection column 23, and "activity A” executed on January 24, 2019 is selected as a designated activity in the activity selection column 24. There is.
  • the display control unit 16 has various fatigue levels (physical fatigue level, mental fatigue level) before and after the designated activity of each subject of the designated group acquired by referring to the fatigue level storage unit 41 and the activity information storage unit 42.
  • the difference value of each fatigue level before and after the designated activity is calculated based on the degree and total fatigue level.
  • the display control unit 16 displays the icons 26x to 26w corresponding to each target person in the designated group on the fatigue degree map 25 based on the calculated difference value of each fatigue degree.
  • the map selection field 22 "physical fatigue x mental fatigue & total fatigue is reflected in the icon size" is selected.
  • the display control unit 16 arranges each icon 26x to 26w at a position corresponding to the difference value of the physical fatigue degree and the mental fatigue degree of the corresponding subject, and the total of the corresponding subjects. Set the size according to the difference value of the degree of fatigue.
  • the display control unit 16 can preferably present to the viewer the change in the fatigue state of each subject before and after the activity arbitrarily designated by the viewer.
  • the display control unit 16 displays information on the change in the fatigue state from the time specified by the viewer to the present, instead of displaying the information on the change in the fatigue state before and after the designated activity. You may. In this case, the display control unit 16 accepts an input for designating a date or the like for comparing fatigue states on the fatigue confirmation screen.
  • the display control unit 16 displays the fatigue degree map 25 that clearly shows the commonality of the attributes between the subjects based on the attribute information stored in the attribute information storage unit 43.
  • FIG. 10 is a display example of the fatigue confirmation screen in the fifth display mode.
  • "classification by attribute A” is selected in the option selection field 23. Therefore, the display control unit 16 extracts the attribute information related to the attribute A of each target person in the designated group from the attribute information storage unit 43, and has the same classification on the fatigue degree map 25 so that the classification of the attribute A becomes clear.
  • the subjects are surrounded by a frame 29 and a frame 30 and displayed. Attribute A corresponds to, for example, age (age), gender, or a group based on a classification different from the designated group.
  • the display control unit 16 frames the icons 26y, 26v, and 26w corresponding to these. Enclosed by 29, it is clearly shown that these are common to attribute A.
  • the display control unit 16 has the attributes A of the target persons “xxx” and “xxx” common in the classification “a2”, the icons 26x and 26z corresponding to these are surrounded by the frame 30, and these are surrounded by a frame 30. It is clearly stated that the attributes A are common.
  • the display control unit 16 detects that the display button 28A for the person with the highest total fatigue level is selected, the display control unit 16 has n persons with the highest total fatigue level among the subjects who belong to the designated group and have the attribute a1. n is an integer of 1 or more) and displays the information of the person. In this case, the display control unit 16 displays, for example, a list showing the names and the like of the superiors of the total fatigue degree together with the information of various fatigue degrees of each of the superiors on the fatigue confirmation screen or in a separate window.
  • the display control unit 16 detects that the display button 28B of the person with the highest total fatigue level is selected, the display control unit 16 belongs to the designated group and has the attribute a2, among the target persons having the attribute a2, the total fatigue level is the highest n people.
  • the information of the person who becomes (n is an integer of 1 or more) is displayed.
  • the display control unit 16 can suitably clearly indicate the commonality of the attributes between the subjects on the fatigue degree map 25 based on the attribute information.
  • the display control unit 16 may change the color of the icon for each target person having the same attribute instead of surrounding the icon of the target person having the same attribute specified by the viewer with a frame on the fatigue degree map 25. Often, the shapes or sizes of the icons may be different. Even in these cases, the display control unit 16 can suitably clearly indicate the commonality of the attributes between the subjects on the fatigue degree map 25.
  • the display control unit 16 displays a fatigue confirmation screen for the target person (also referred to as “designated target person”) designated by the viewer.
  • FIG. 11 is a display example of the fatigue confirmation screen in the sixth display mode.
  • the display control unit 16 detects that the viewer is selected by clicking the icon of the target person displayed on the fatigue degree map 25 or by mouse over on the fatigue confirmation screen of any one of FIGS. 4 to 10. .. Then, the display control unit 16 regards the selected target person (here, “xxv”) as the designated target person, and displays the fatigue confirmation screen shown in FIG. 11 regarding the fatigue of the designated target person.
  • the display control unit 16 is provided with an attribute information display area 31, a latest fatigue degree display area 32, and an activity content detail display area 33.
  • the display control unit 16 extracts the attribute information of the designated target person (here, “xxv”) from the attribute information storage unit 43, and sets the attribute of the designated target person indicated by the extracted attribute information in the attribute information display area 31. indicate. Further, the display control unit 16 extracts the latest various fatigue degrees of the designated subject from the fatigue degree storage unit 41 and the like, and displays the extracted latest various fatigue degrees on the latest fatigue degree display area 32.
  • the display control unit 16 extracts the fatigue level and activity information for the designated target person from the fatigue level storage unit 41 and the activity information storage unit 42, respectively, so that the details of the activity content of the designated target person can be displayed in detail. Displayed on the area 33.
  • the display control unit 16 provides an activity selection column 34 for selecting the activity of the designated target person to be displayed in detail on the activity content detail display area 33, and the content for the activity specified in the activity selection column 34 and the activity.
  • the change in the degree of fatigue of the designated subject before and after the activity is displayed.
  • the display control unit 16 displays the activity time, activity intensity, etc. of the activity A on the activity content detailed display area 33. It is displayed in.
  • the activity intensity is an index showing the degree of intensity of the activity in 10 stages, and may be synonymous with the above-mentioned activity amount, or may be one index used for calculating the activity amount. good.
  • the display control unit 16 displays a table 35 showing the mental fatigue level, the physical fatigue level, and the total fatigue level before and after the execution of the activity A on the activity content detailed display area 33.
  • the display control unit 16 can suitably present the details of the information regarding the fatigue of any designated target person designated by the viewer to the viewer on the fatigue confirmation screen.
  • FIG. 12 is an example of a flowchart showing a procedure of processing executed by the information processing apparatus 1 in the first embodiment.
  • the information processing apparatus 1 repeatedly executes the processing of the flowchart shown in FIG.
  • the information processing device 1 has information of each storage unit stored in the storage device 4 based on at least one of the input signal S1 supplied from the input device 2 and the sensor signal S3 supplied from the sensor 5. Is updated (step S11). For example, when the input receiving unit 14 receives the input signal S1 or the sensor signal S3 corresponding to the fatigue-related information for estimating fatigue, the fatigue estimation unit 15 is acquired by the input receiving unit 14. Various fatigue levels are estimated based on fatigue-related information. Then, the fatigue estimation unit 15 stores the estimation result in the fatigue degree storage unit 41 in association with the date, the subject ID, and the like. Further, when the input receiving unit 14 receives the input signal S1 related to the activity, the input receiving unit 14 updates the activity information storage unit 42 based on the received input signal S1.
  • the display control unit 16 determines whether or not there is a display request for information related to fatigue (step S12). For example, when the input receiving unit 14 acquires the input signal S1 requesting the display of the fatigue confirmation screen, the display control unit 16 determines that the display request has been made. Then, when the display control unit 16 determines that there is a display request for the state related to fatigue (step S12; Yes), the display control unit 16 refers to at least the fatigue degree storage unit 41, and the target person is based on a plurality of fatigue degrees of the target person. Information on fatigue is displayed on the display device 3 (step S13). For example, the display control unit 16 generates a display signal S2 for displaying the fatigue confirmation screen shown in any one of FIGS. 4 to 11, and transmits the generated display signal S2 to the display device 3. The fatigue confirmation screen shown in any of 4 to 11 is displayed on the display device 3.
  • the display control unit 16 displays a fatigue confirmation screen based on an index (for example, health or energy) that becomes lower as the fatigue level increases, instead of the physical fatigue level, mental fatigue level, and total fatigue level. You may.
  • the display control unit 16 sets the "physical health degree” obtained by subtracting the physical fatigue degree from 100, the “mental health degree” obtained by subtracting the mental fatigue degree from 100, and the total fatigue degree from 100 as the above indicators.
  • the fatigue confirmation screen is displayed using the subtracted "total health level". Also with this, the display control unit 16 can suitably present the fatigue state of the subject from various viewpoints.
  • the information processing device 1 refers to the fatigue level storage unit 41 in which the fatigue level estimated by another device is stored. May be good. In this case, the information processing device 1 does not receive the sensor signal S3 from the sensor 5, and refers to the fatigue degree storage unit 41 that is updated by another device based on the output of the sensor 5 or the like at the display timing of the fatigue confirmation screen or the like. By doing so, the display signal S2 to be supplied to the display device 3 is generated. Also in this aspect, the information processing apparatus 1 can suitably present information on fatigue to the viewer.
  • FIG. 13 shows a schematic configuration diagram of the fatigue analysis system 100A according to the second embodiment.
  • the storage device 4 has a countermeasure rule storage unit 44 that stores countermeasure rules for fatigue for each subject.
  • the information processing apparatus 1A in the second embodiment presents countermeasures according to the fatigue state of the subject by referring to the countermeasure rules stored in the countermeasure rule storage unit 44 of the storage device 4, and countermeasures. It differs from the information processing apparatus 1 of the first embodiment in that the countermeasure rule stored in the rule storage unit 44 is updated.
  • the same components as those in the first embodiment will be appropriately designated with the same reference numerals, and the description thereof will be omitted. It is assumed that the information processing apparatus 1A has the same hardware configuration as the hardware configuration of the information processing apparatus 1 shown in FIG.
  • FIG. 14 is an example of the functional block of the information processing apparatus 1A in the second embodiment.
  • the processor 11 of the information processing device 1A functionally has an input receiving unit 14, a fatigue estimation unit 15, a display control unit 16, and a countermeasure rule updating unit 17.
  • the display control unit 16 refers to the fatigue degree storage unit 41, the activity information storage unit 42, the attribute information storage unit 43, and the countermeasure rule storage unit 44, and the fatigue confirmation screen for the display device 3 in the first embodiment. Controls various displays related to. Further, in addition to this, the display control unit 16 controls to display measures according to the fatigue state of the designated target person on the fatigue confirmation screen when displaying a personal fatigue confirmation screen for the designated target person. I do.
  • "countermeasure” indicates an activity recommended by the information processing apparatus 1 to the designated target person, and the display control unit 16 refers to the countermeasure rule storage unit 44 according to the fatigue state of the designated target person. Propose the execution of optimal activities.
  • the countermeasure rule update unit 17 updates the countermeasure rule for each individual stored in the countermeasure rule storage unit 44 based on the activity information stored in the activity information storage unit 42. In this case, the countermeasure rule update unit 17 learns the effect on each activity for each subject based on the degree of change in various fatigue levels before and after each of the past activities executed by each subject. Update the countermeasure rules for each person.
  • FIG. 15 shows an example of the data structure of the activity information stored in the activity information storage unit 42.
  • the activity information shown in FIG. 15 mainly has each item of "target person”, “implementation date and time”, “activity content”, and "increase / decrease in fatigue level”.
  • Activity content indicates the activity performed by the corresponding target person.
  • each subject is an athlete, and each subject executes a menu such as a practice menu or a fatigue recovery menu as an activity.
  • "Increase / decrease in fatigue level” corresponds to the effect of the corresponding activity, and indicates the amount of change in the physical fatigue level, the mental fatigue level, and the total fatigue level before and after the corresponding activity, respectively.
  • the increase / decrease in the degree of fatigue per unit time may be recorded in the "increase / decrease in the degree of fatigue”.
  • the display control unit 16 calculates information corresponding to the item of "fatigue degree increase / decrease" based on the fatigue degree stored in the fatigue degree storage unit 41. By doing so, the information may be acquired.
  • FIG. 16 shows an example of the data structure of the countermeasure rule stored in the countermeasure rule storage unit 44.
  • the countermeasure rule shown in FIG. 16 is a table and mainly has each item of "target person", "condition", and "countermeasure content”.
  • the "condition” has at least a "time” indicating a temporal condition and a "fatigue degree” indicating a condition relating to at least one of a physical fatigue degree, a mental fatigue degree, and a total fatigue degree as sub-items.
  • the timing conditions for example, when the target person is an athlete, the measures can be changed depending on whether it is the time to build physical strength for the tournament or the time to emphasize the condition immediately before the tournament. ..
  • the measures related to various degrees of fatigue it is possible to formulate optimal measures according to the fatigue state of the subject.
  • Countermeasure details indicates the countermeasures to be presented to the target person when the conditions indicated by the “conditions” are met.
  • the measures recorded in the “measure contents” are activities that are recommended to be executed when the conditions indicated by the “conditions” are satisfied, and the effects of each past activity for each target person based on the activity information ( That is, it is determined based on the degree of change in the degree of fatigue before and after each activity for each subject).
  • each subject is an athlete, and a practice menu or a fatigue recovery menu is presented as a countermeasure.
  • the fatigue recovery menu refers to a menu (treatment) that gives top priority to recovery or treatment of the subject such as massage.
  • the countermeasure rule update unit 17 learns the activity corresponding to the above-mentioned activity condition for each target person based on the activity information of each target person, and updates the content of the "countermeasure content" of each record based on the learning result. do.
  • the countermeasure rule update unit 17 refers to the activity information of the target person (here, “xxx”) at the update timing of the countermeasure rule, and increases / decreases the degree of physical fatigue of each activity executed by the target person. Is calculated.
  • This increase / decrease value may be an increase / decrease value per unit time, or may be a representative value such as an average value when there are a plurality of histories of the same activity.
  • the countermeasure rule updating unit 17 is based on the calculated increase / decrease value of the physical fatigue level for each activity (menu), and the top three menus with high physical fatigue levels (here, "menu 18", “menu 5", “menu 5", “ Menu 25 ”) is specified, and these are recorded in the" countermeasure content "of the first record.
  • the countermeasure rule update unit 17 updates the item of "countermeasure content” by performing the above processing for all the records of the countermeasure rule.
  • the countermeasure rule update timing by the countermeasure rule update unit 17 may be a periodic timing or a timing based on the user's request.
  • the countermeasure rule update unit 17 can suitably determine the countermeasures to be applied according to the current fatigue state of each subject based on the actual results of changes in the fatigue level of the past activities of each subject.
  • the table of countermeasure rules shown in FIG. 16 is an example, and various changes may be applied.
  • the above table contains text information indicating the message text to be displayed on the fatigue confirmation screen, information on priority in case of duplicate application, or information necessary for displaying or updating other measures. May be good.
  • FIG. 17 is a display example of the fatigue confirmation screen in the second embodiment.
  • the fatigue confirmation screen shown in FIG. 17 is a screen relating to an individual's fatigue state when a specific target person (here, “xxv”) is designated.
  • the display control unit 16 takes measures in addition to the attribute information display area 31, the latest fatigue degree display area 32, and the activity content detail display area 33, which display the same contents as the fatigue confirmation screen shown in FIG.
  • the display area 36 is provided on the fatigue confirmation screen.
  • the display control unit 16 displays the countermeasures based on the countermeasure rules for the target person stored in the countermeasure rule storage unit 44, the latest fatigue level of the target person, and the current date (February 11, 2019). Determine the measures to be presented in area 36.
  • the condition timing condition: 2019 2 in which the current fatigue state and the current date and time of the target person “xxxy” are associated with the record related to the countermeasure rule “xxxy” shown in FIG. From the 1st to the 15th of February, it is determined that the fatigue level condition: the physical fatigue level is 70 or less and the total fatigue level is 80 or less). Therefore, in this case, the display control unit 16 sets the "menu 18", “menu 25", and “menu 3" recorded in the "measure content" of the record as the activity to be executed by the target person, and the countermeasure display area 36 Presented above.
  • the display control unit 16 can present an activity suitable for the current state of the target person as a countermeasure in consideration of individual differences in the degree of fatigue (effect) due to the execution of the activity.
  • FIG. 18 shows a schematic configuration of the fatigue analysis system 100B according to the third embodiment.
  • the fatigue analysis system 100B according to the third embodiment is a system of a server client model, and the information processing device 1B functioning as a server device is the information processing device 1 in the first embodiment or the information processing device 1A in the second embodiment. Perform processing.
  • the same components as those of the first embodiment or the second embodiment will be appropriately designated by the same reference numerals, and the description thereof will be omitted.
  • the fatigue analysis system 100A mainly includes an information processing device 1B that functions as a server, a storage device 4 that stores data necessary for fatigue estimation processing, and a terminal device 8 that functions as a client. Have.
  • the information processing device 1A and the terminal device 8 perform data communication via the network 7.
  • the terminal device 8 is a terminal having an input function, a display function, and a communication function, and functions as the input device 2 and the display device 3 shown in FIG.
  • the terminal device 8 may be, for example, a personal computer, a tablet terminal, a PDA (Personal Digital Assistant), or the like.
  • the terminal device 8 transmits a biological signal output by a sensor (not shown), information based on user input, or the like to the information processing device 1A.
  • the information processing device 1B has the same configuration as the information processing device 1 shown in FIGS. 1 to 3, for example. Then, the information processing device 1B receives information or the like acquired from the input device 2 and the sensor 5 by the information processing device 1 shown in FIG. 1 from the terminal device 8 via the network 7, and each storage unit of the storage device 4 has. Update the information of. Further, the information processing device 1B transmits a display signal S2 indicating the calculated information on the fatigue level to the terminal device 8 via the network 7 based on the display request from the terminal device 8. Thereby, the information processing apparatus 1B can suitably present the information regarding the degree of fatigue to the user of the terminal apparatus 8.
  • FIG. 19 is a block diagram of the information processing apparatus 1C according to the fourth embodiment.
  • the information processing apparatus 1C mainly includes an acquisition means 15C and a display control means 16C.
  • the information processing device 1C may be composed of a plurality of devices.
  • the acquisition means 15C acquires at least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree.
  • the "first degree of fatigue” and the “second degree of fatigue” can be, for example, any of the degree of physical fatigue, the degree of mental fatigue, and the degree of total fatigue.
  • the acquisition means 15C may acquire the first fatigue degree and the second fatigue degree by estimating based on the information about the subject, and the first estimated in advance and stored in a predetermined storage device or the like.
  • the fatigue degree and the second fatigue degree may be acquired.
  • the acquisition means 15C can be, for example, the fatigue estimation unit 15 in the first to third embodiments.
  • the display control means 16C displays information on the fatigue of the subject based on the first fatigue degree and the second fatigue degree.
  • the "target person” may be one person or a plurality of people.
  • the "information about fatigue” corresponds to, for example, the information shown in the fatigue degree map 25 of the first embodiment, the statistical display column 27, the latest fatigue degree display area 32, the table 35, and the countermeasure display area 36 of the second embodiment. ..
  • "displaying” is not limited to a mode in which predetermined information is displayed on a display or the like included in the information processing device 1C, and the display signal is supplied to an external display device other than the information processing device 1C. It also includes a mode in which a predetermined information is displayed on an external device.
  • the display control means 16C can be, for example, the display control unit 16 in the first to third embodiments.
  • FIG. 20 is an example of a flowchart executed by the information processing apparatus 1C in the fourth embodiment.
  • the acquisition means 15C acquires at least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree (step S21).
  • the display control means 16C displays information on the fatigue of the subject based on the first fatigue degree and the second fatigue degree (step S22).
  • the information processing apparatus 1C according to the fourth embodiment can suitably present the fatigue state of the subject to the viewer from a multifaceted viewpoint using the fatigue degrees of a plurality of indexes.
  • Non-temporary computer-readable media include various types of tangible storage media.
  • Examples of non-temporary computer-readable media include magnetic storage media (eg, flexible disks, magnetic tapes, hard disk drives), magneto-optical storage media (eg, magneto-optical disks), CD-ROMs (ReadOnlyMemory), CD-Rs, Includes CD-R / W, semiconductor memory (eg, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (RandomAccessMemory)).
  • the program may also be supplied to the computer by various types of transient computer readable medium.
  • Examples of temporary computer readable media include electrical, optical, and electromagnetic waves.
  • the temporary computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.
  • Information processing device with. [Appendix 2] The target persons are a plurality of persons. The information processing apparatus according to Appendix 1, wherein the display control means displays information regarding the fatigue of each of the subjects.
  • the display control means displays a map relating to the first fatigue degree and the second fatigue degree of each of the subjects as information regarding the fatigue, based on the first fatigue degree and the second fatigue degree.
  • the information processing device according to Appendix 2.
  • the acquisition means further acquires attribute information regarding each attribute of the target person, and obtains the attribute information.
  • the display control means displays, as information on the fatigue, the map that clearly shows the commonality of the attributes between the subjects based on the first fatigue degree, the second fatigue degree, and the attribute information.
  • the information processing apparatus according to Appendix 3.
  • the information processing apparatus according to any one of Supplementary note 2 to 4, wherein the display control means displays statistical information on the first fatigue degree and the second fatigue degree of the subject as information on the fatigue.
  • the acquisition means further acquires a third fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree and the second fatigue degree.
  • the display control means according to any one of Supplementary note 1 to 5, which displays information on the fatigue of the subject based on the first fatigue degree, the second fatigue degree, and the third fatigue degree.
  • Information processing equipment [Appendix 7] The display control means determines the display position of the target person based on the first fatigue degree and the second fatigue degree, and based on the third fatigue degree, the display control means of the target person at the display position.
  • the information processing apparatus according to Appendix 6, which displays a map in which a display mode is determined as information on the fatigue.
  • the acquisition means obtains the degree of physical fatigue indicating the degree of physical fatigue of the subject, the degree of mental fatigue indicating the degree of mental fatigue of the subject, and the degree of total fatigue of the subject.
  • the information processing apparatus according to any one of Supplementary note 1 to 7, wherein at least two of the indicated total fatigue degrees are acquired as the first fatigue degree and the second fatigue degree.
  • the acquisition means further acquires activity information regarding the activity of the subject who has affected the fatigue of the subject.
  • the display control means displays information indicating the relationship between the activity and the fatigue of the subject based on the activity information, the first fatigue degree, and the second fatigue degree.
  • the information processing device according to any one of the items.
  • the display control means displays information indicating changes in the first fatigue degree and the second fatigue degree before and after the activity based on the activity information, the first fatigue degree, and the second fatigue degree. ,
  • the information processing apparatus according to Appendix 9.
  • the display control means displays a map showing the relationship between the activity amount of the subject and the fatigue state of the subject based on the activity information, the first fatigue degree, and the second fatigue degree.
  • the information processing apparatus according to 9.
  • the display control means displays information indicating measures to be taken by the subject based on the first fatigue degree and the second fatigue degree as information on the fatigue of the subject, Appendix 1 to 11.
  • the information processing device according to any one of the items.
  • the display control means refers to a countermeasure rule in which a condition relating to fatigue and a countermeasure to be taken when the condition is satisfied are at least associated with each other, and the first fatigue degree and the second fatigue degree are set to at least one.
  • the information processing apparatus which determines the measures based on the above.
  • the information processing apparatus according to Appendix 13, further comprising a countermeasure rule updating means for updating the countermeasure rule based on the degree of change in the fatigue state of the subject before and after each of the activities executed by the subject.
  • a countermeasure rule updating means for updating the countermeasure rule based on the degree of change in the fatigue state of the subject before and after each of the activities executed by the subject.
  • Appendix 15 By computer At least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree are acquired. Information on the subject's fatigue is displayed based on the first fatigue degree and the second fatigue degree. Control method.
  • At least a first fatigue degree indicating the degree of fatigue of the subject and a second fatigue degree indicating the degree of fatigue based on an index different from the first fatigue degree are acquired.
  • a storage medium in which a program for causing a computer to execute a process of displaying information on the fatigue of the subject based on the first fatigue degree and the second fatigue degree is stored.

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Abstract

Selon l'invention, un dispositif de traitement d'informations 1C comprend principalement un moyen d'acquisition 15C et un moyen de commande d'affichage 16C. Le moyen d'acquisition 15C acquiert au moins un premier degré de fatigue indiquant un degré de fatigue d'un sujet et un second degré de fatigue indiquant un degré de fatigue basé sur un indice différent de celui du premier degré de fatigue. Le moyen de commande d'affichage 16C affiche des informations concernant la fatigue du sujet sur la base du premier degré de fatigue et du second degré de fatigue.
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WO2024019047A1 (fr) * 2022-07-20 2024-01-25 株式会社タニタ Dispositif d'évaluation de fatigue, système d'évaluation de fatigue, programme d'évaluation de fatigue et procédé d'évaluation de fatigue

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