JP2019126527A - Control system, control method, information processing apparatus, information processing method, and computer program - Google Patents

Abstract

To realize treatment at more earlier stage in a case where health measurement result includes an inappropriate value.SOLUTION: There is provided a control system comprising: a determination part for determining control content to an apparatus providing an effect on health condition of a target living subject on the basis of whether biological information acquired from the target living subject as a living subject to be a determination target for health condition meets with factors relating to predetermined health condition of the target living subject; and an apparatus control part for controlling the apparatus with the control content determined by the determination part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for controlling a device.

  In recent years, vital sensors for acquiring biological information have been proposed (see, for example, Patent Document 1). Such vital sensors are used in techniques for measuring the health of humans during work and exercise. There has also been proposed a system in which an alarm is output to a predetermined terminal device when the measurement result of the health condition becomes an inappropriate value. In such a system, in response to the measurement result of the health status becoming an inappropriate value, the person who received the notification realized maintenance of the health status by performing some kind of coping.

JP 2016-22165 A

However, the person who received the notification may not always be able to take action immediately. For example, since the person who received the notification concentrates on the work, there is a possibility that the information notified to the terminal may be overlooked. In addition, when the person who received the notification is a care recipient, there is a possibility that the treatment may be delayed because the care recipient can not be immediately informed that the treatment is necessary.
In view of the above-mentioned circumstances, the present invention aims to provide a technique capable of coping with earlier timing when the measurement result of the health condition is an inappropriate value.

  One aspect of the present invention is whether or not biological information acquired from a target living body, which is a living body to be subjected to health condition determination, is a condition related to the health state of the target living body and satisfies a predetermined condition. A control unit that determines control content for the device that affects the health condition of the target living body based on the control unit, and a device control unit that controls the device with the control content determined by the determination unit System.

  One aspect of the present invention is the control system described above, wherein contents of a control operation performed by the target living body on the device and biological information of the target living body at a timing when the control operation is performed. A condition determination unit that updates the condition is further included.

  One embodiment of the present invention is the control system described above, wherein the determination unit further determines the control content according to environmental information which is information on an environment around the target living body.

  One embodiment of the present invention is the control system described above, wherein the determination unit further determines the control content according to environmental information which is information on an environment around the target living body, and the condition determination unit The condition is updated based on the content of the control operation performed by the target living body on the device and the biological information and environmental information of the target living body at the timing when the control operation is performed.

  One aspect of the present invention is whether or not biological information acquired from a target living body, which is a living body to be subjected to health condition determination, is a condition related to the health state of the target living body and satisfies a predetermined condition. A control step of determining the control content for the device affecting the health condition of the target living body based on the above, and a device control step of controlling the device with the control content determined in the determination step Is the method.

  One aspect of the present invention is whether or not biological information acquired from a target living body, which is a living body to be subjected to health condition determination, is a condition related to the health state of the target living body and satisfies a predetermined condition. A determination unit that determines the control content for the device that affects the health state of the target living body based on the above, and the control content transmitted by the determination unit is transmitted to the device that controls the device And an information processing apparatus.

  One aspect of the present invention is whether or not biological information acquired from a target living body, which is a living body to be subjected to health condition determination, is a condition related to the health state of the target living body and satisfies a predetermined condition. A determination step of determining control content for the device affecting the health state of the target living body based on the transmission, and transmitting the control content determined in the determination step to the device for controlling the device And an information processing method comprising steps.

  One aspect of the present invention is whether or not biological information acquired from a target living body, which is a living body to be subjected to health condition determination, is a condition related to the health state of the target living body and satisfies a predetermined condition. A determination unit that determines the control content for the device that affects the health state of the target living body based on the above, and the control content transmitted by the determination unit is transmitted to the device that controls the device And a computer program for causing a computer to function as an information processing apparatus.

  According to the present invention, when the measurement result of the health condition is an inappropriate value, it is possible to cope with the timing earlier.

It is a schematic block diagram showing the system configuration of control system 100 in a 1st embodiment. It is a schematic block diagram which shows the outline of the function of the terminal device 20 in 1st Embodiment. It is a figure which shows the specific example of a biometric information table. It is a figure which shows the specific example of a control information table. It is a sequence chart which shows the example of the flow of the control sequence of the control system 100 in 1st Embodiment. It is a schematic block diagram showing the system configuration of control system 100a in a 2nd embodiment. It is a schematic block diagram which shows the outline of the function of the terminal device 20a in 2nd Embodiment. It is a figure which shows the specific example of a manual control information table. It is a sequence chart which shows the specific example of the flow of the manual control information recording sequence of the control system 100a in 2nd Embodiment. It is a sequence chart which shows the specific example of the flow of the condition information update sequence of the control system 100a in 2nd Embodiment. It is a schematic block diagram which shows the system configuration | structure of the control system 100b in 3rd Embodiment. It is a schematic block diagram which shows the outline of the function of the terminal device 20b in 3rd Embodiment. It is a figure which shows the specific example of an environment information table. It is a figure which shows the specific example of the control information table in 3rd Embodiment. It is a sequence chart which shows the specific example of the flow of the environmental information recording sequence of the control system 100b in 3rd Embodiment. It is a figure which shows the function structure of the structure of the control system 100 in a modification. It is a figure which shows the function structure of the structure of the control system 100 in a modification. It is a figure which shows the function structure of the structure of the control system 100 in a modification.

  Hereinafter, specific configuration examples of the present invention will be described with reference to the drawings.

First Embodiment
FIG. 1 is a schematic block diagram showing a system configuration of a control system 100 in the first embodiment. The control system 100 includes a vital sensor 10, a terminal device 20, and one or more target devices 30. The vital sensor 10 is communicably connected to the terminal device 20.

  Communication performed between the vital sensor 10 and the terminal device 20 may be wired communication, which may be wireless communication. This communication may be, for example, short-range wireless communication (for example, Bluetooth (registered trademark)). This communication may be performed, for example, via a USB (Universal Serial Bus) cable.

  The terminal device 20 and each target device 30 are connected to be communicable. Communication performed between the terminal device 20 and each target device 30 may be wireless communication or wired communication. This communication may be, for example, short-range wireless communication (for example, Bluetooth (registered trademark)). This communication may be, for example, a wireless LAN (Local Area Network). This communication may be performed, for example, via a USB (Universal Serial Bus) cable.

  The vital sensor 10 acquires biological information of a person who is a health condition determination target (hereinafter referred to as “target biological body”). The vital sensor 10 may be, for example, a device that can be worn on the subject's body. The biological information is, for example, values of heart rate, body temperature, blood pressure and the like. The vital sensor 10 may acquire the heart rate of the target living body and the action potential of the heart (cardiac electrocardiographic data) as biological information. The vital sensor 10 generates sensor information including the acquired biological information and the date and time when each piece of information is acquired. The vital sensor 10 transmits the generated sensor information to the terminal device 20.

  The terminal device 20 receives the sensor information transmitted from the vital sensor 10. The terminal device 20 determines whether or not a predetermined condition is satisfied according to the received sensor information. The predetermined condition is a condition related to the health state of the target living body. When the predetermined condition is satisfied, the terminal device 20 transmits control information to the predetermined target device 30.

  The target device 30 is a device that affects the health of the target living body by operating. The target device 30 is a device capable of bringing the body temperature of the target living body close to a normal temperature, for example. As a specific example of such a target device 30, there are an air conditioner (cooling and heating), air conditioning clothes (garment equipped with an air conditioner), a fan, an electric blanket, a heater, a humidifier, a dehumidifier, and a mist fan.

  Next, the terminal device 20 will be described in detail. The terminal device 20 is a communicable information processing device. The terminal device 20 includes a processor (for example, Central Processing Unit), a memory, an auxiliary storage device, and the like connected by a bus. The terminal device 20 operates when the processor executes a control program. Note that all or part of the functions of the terminal device 20 may be realized using hardware such as an application specific integrated circuit (ASIC), a programmable logic device (PLD), or a field programmable gate array (FPGA). The control program may be recorded on a computer readable recording medium. Examples of the computer-readable recording medium include portable media such as flexible disks, magneto-optical disks, ROMs, CD-ROMs, semiconductor storage devices (for example, SSD: Solid State Drive), hard disks incorporated in computer systems, and semiconductor storage A storage device such as a device. The control program may be transmitted via a telecommunication line.

  FIG. 2 is a schematic block diagram showing an outline of functions of the terminal device 20 in the first embodiment. The terminal device 20 includes a first communication unit 201, a second communication unit 202, a recording control unit 203, a storage unit 204, a determination unit 205, and a device control unit 206. Hereinafter, each function with which the terminal device 20 is provided is demonstrated.

  The first communication unit 201 is a communication interface that transmits and receives data to and from another device. The first communication unit 201 communicates with the vital sensor 10 using a predetermined protocol. The first communication unit 201 communicates with the vital sensor 10 to receive sensor information.

  The second communication unit 202 is a communication interface that transmits and receives data to and from another device. The second communication unit 202 communicates with the target device 30 using a predetermined protocol. The second communication unit 202 transmits control information by communicating with the target device 30.

  The recording control unit 203 generates a biometric information record based on the sensor information received by the first communication unit 201. The biometric information record is a record in which the value of the biometric information is associated with time information indicating the date and time when the value of the biometric information is obtained. The recording control unit 203 may generate a biometric information record, for example, by associating the biometric information included in the sensor information with the date and time. The recording control unit 203 may generate a biometric information record by, for example, associating the biometric information included in the sensor information with the date and time when the sensor information was received. The recording control unit 203 records the generated biometric information record in the storage unit 204.

  The storage unit 204 is configured using a storage device such as a magnetic hard disk drive or a semiconductor storage device. The storage unit 204 stores a biological information table and a control information table. FIG. 3 is a diagram illustrating a specific example of the biological information table. The biometric information table has a plurality of biometric information records. As described above, the biometric information record includes the biometric information included in the sensor information and the date and time when the sensor information was received.

  FIG. 4 is a diagram illustrating a specific example of the control information table. The control information table has a plurality of control information records. The control information record is information recorded by associating the content of control on the target device 30 with the condition of biometric information. In the example of FIG. 4, the control information record has a device ID, condition information, and control information in association with each other. The device ID is identification information indicating a target device 30 to be controlled. The condition information is information indicating a condition when control is performed. The condition indicated by the condition information is a condition related to the value of the biological information of the target living body. The control information indicates the content of control to be executed when the condition indicated by the condition information is satisfied for the target device 30 indicated by the device ID. In the example of FIG. 4, the condition information indicates a threshold value of the heart rate value. For example, when the condition that the heart rate is 140 or more is satisfied, control is performed to turn on the power to the target device 30 whose device ID is “A1”. For example, when the condition that the heart rate is 45 or less is satisfied, control is performed to turn off the power to the target device 30 whose device ID is "A1".

  The determination unit 205 performs control determination processing at a predetermined timing. The predetermined timing may be, for example, a timing at which a new biometric information record is recorded, or a timing at which a predetermined time period has arrived. The control determination process is a process of determining the content of control on each target device 30 based on the biological information of the target living body obtained at that time. For example, the determination unit 205 may perform control determination processing based on the latest biometric information, or calculate statistical values (for example, an average value) of the latest n pieces of biometric information, and perform determination processing based on the statistical values. You may go. The determination unit 205 executes control determination processing based on the control information table. When the condition information newly satisfied exists, the determination unit 205 determines that the control indicated by the control information is to be executed on the target device 30 indicated by the device ID associated with the condition information. The determination unit 205 notifies the device control unit 206 of the execution of the determined control.

  The device control unit 206 outputs a control signal corresponding to the control content determined by the determination unit 205 to the target device 30. For example, in the example of FIG. 4, when the condition that the heart rate is 140 or more is satisfied, the device control unit 206 transmits a control signal indicating that the power of the target device 30 whose device ID is “A1” is turned on. Send.

  FIG. 5 is a sequence chart showing a specific example of the flow of the control sequence of the control system 100 in the first embodiment. First, the vital sensor 10 acquires biological information (step S101). The vital sensor 10 transmits the acquired biological information to the terminal device 20 (step S102). The recording control unit 203 of the terminal device 20 acquires the biological information transmitted from the vital sensor 10, and generates a biological information record based on the acquired biological information. The recording control unit 203 records the generated biometric information record in the biometric information table of the storage unit 204 (step S103). The determination unit 205 performs control determination processing based on the latest biometric information at a predetermined timing (step S104). When it is necessary to control the target device 30 by execution of the control determination process, the determination unit 205 outputs the device ID of the target device 30 to be controlled and the control content to the device control unit 206. The device control unit 206 transmits a control signal corresponding to the control content to the target device 30 to be controlled (step S105). When receiving the control signal, the target device 30, which is the target device, executes control processing according to the received control signal (step S106).

In the control system 100 of the first embodiment configured as described above, the control content for the target device 30 that affects the health state of the target living body is determined based on the biological information acquired from the target living body. For example, when the heartbeat value of the target living body exceeds the threshold value indicating abnormality, control is performed to turn on the power to the target device 30 so as to keep the health state of the target living body more stable.
Hereinafter, a more detailed application example of such control will be described.

(First application example)
The target living body is a worker who is working at a construction or manufacturing site, and the target device 30 is an air-conditioning suit. If the heart rate in the worker's biometric information exceeds the upper threshold (for example, 140), the air-conditioning suit is controlled to be turned on. On the other hand, when the heart rate in the worker's biological information falls below the lower limit threshold (for example, 45), the power of the air-conditioning suit is controlled to be turned off.

(Second application example)
The target living body is a person who receives care or medical treatment, and the target device 30 is an electric blanket. The target living body turns on the electric blanket and goes to bed. When the heart rate value in the biological information of the target biological body exceeds an upper limit threshold (for example, 140), the electric blanket is controlled to be turned off. On the other hand, when the heart rate in the biological information of the target living body falls below the lower limit threshold (for example, 45), the electric blanket is controlled to be turned on.

(Modification)
A modification of the configuration of control system 100 will be described.
In the specific example of the control information table shown in FIG. 4, the control information is only power on or off. However, the control information does not have to be limited to power on or off. For example, information regarding the level of operation such as the set temperature of the air conditioner and the strength of the wind speed of the electric fan may be defined as the control information.

  In the specific example of the control information table shown in FIG. 4, the condition information indicates a condition based on each piece of biological information. However, the condition information may be defined as a condition based on biological information obtained from a plurality of target living organisms. For example, it may be defined as the condition information that the absolute number of the number of target organisms satisfying a predetermined condition or the ratio of the number to the whole exceeds a predetermined threshold. More specifically, there are the following application examples.

  The target living body is a worker who is working at a construction or manufacturing site, and the target device 30 is a mist fan. If the number of workers whose heart rate in the biometric information exceeds the upper threshold (for example, 140) exceeds 60% of all workers in the field, the mist fan is controlled to be turned on. On the other hand, the power supply of the mist fan is controlled to be turned off when the number of workers whose heart rate in biological information falls below the lower threshold (for example 45) exceeds 90% of all workers in the field. .

In FIG. 2, user interfaces such as an input unit and an output unit are not described as the configuration of the terminal device 20. However, the terminal device 20 does not have to be limited to a configuration that does not have a user interface. The terminal device 20 may include a user interface such as a touch panel or a display.
The target living body does not necessarily have to be limited to a person. For example, it may be a dog, a cat, or an animal such as a horse.

Second Embodiment
FIG. 6 is a schematic block diagram showing a system configuration of a control system 100a in the second embodiment. The control system 100a includes a vital sensor 10, a terminal device 20a, and one or more target devices 30. The control system 100a in the second embodiment is different in the configuration of the terminal device 20 from the control system 100 in the first embodiment. Hereinafter, with respect to the control system 100a of the second embodiment, points different from the first embodiment will be described.

  FIG. 7 is a schematic block diagram illustrating an outline of functions of the terminal device 20a according to the second embodiment. The terminal device 20a according to the second embodiment further includes an input unit 207, a display unit 208, and a condition determination unit 209, a storage unit 204a instead of the storage unit 204, and an equipment control unit instead of the equipment control unit 206. It differs from the terminal device 20 in 1st Embodiment by the point provided with 206a. About another structure, the terminal device 20a in 2nd Embodiment and the terminal device 20 in 1st Embodiment are the same.

  The input unit 207 is configured using an existing input device such as a keyboard, a pointing device (mouse, tablet or the like), a button, a touch panel or the like. The input unit 207 is operated by the user when inputting a user instruction to the terminal device 20a. The input unit 207 may be an interface for connecting an input device to the terminal device 20a. In this case, the input unit 207 inputs an input signal generated in response to a user input in the input device to the terminal device 20a.

  The display unit 208 is an image display device such as a cathode ray tube (CRT) display, a liquid crystal display, an organic electro luminescence (EL) display, and the like. The display unit 208 displays an image such as an image of a button selected by the user or an image showing the current control content of the target device 30. The display unit 208 may be an interface for connecting the image display device to the terminal device 20a. In this case, the display unit 208 generates a video signal for displaying the image, and outputs the video signal to the image display device connected to itself.

  The device control unit 206 a generates a control signal for controlling the target device 30 according to a user instruction input via the input unit 207, and transmits the control signal to the target device 30. The device control unit 206 a displays on the display unit 208 an image indicating the current operation state of the target device 30 and an image indicating the control result. Thus, the device control unit 206a controls the target device 30 not only according to the determination result by the determination unit 205 but also according to the manual operation by the user. The device control unit 206a associates the control content instructed by the user, the device ID of the target device 30 to be controlled, and the time information at which control was performed, and records the information in the storage unit 204.

  The storage unit 204a further stores a manual control information table. FIG. 8 is a diagram illustrating a specific example of the manual control information table. The manual control information table has a plurality of manual control information records. The manual control information record is information indicating the contents of control manually executed on the target device 30. In the example of FIG. 8, the manual control information record has a device ID, time information, and control information in association with each other. The device ID is identification information indicating the target device 30 that is the target of control. The time information is information indicating the date and time when the control is performed. The control information indicates the content of control executed on the target device 30 indicated by the device ID.

  The condition determination unit 209 executes condition information determination processing based on the biological information table and the manual control information table recorded in the storage unit 204a. By executing the condition information determination process, new condition information in the control information table is determined. The condition determination unit 209 updates the condition information of the control information table with the determined new condition information.

  Specifically, the condition determination unit 209 acquires one or more biological information of the target living body at the timing when the operation by the target living body is performed, based on the time information recorded in the manual control information table. For example, one piece of biological information associated with the time information closest to the timing may be acquired. For example, multiple pieces of biometric information associated with time information close to the above timing may be acquired. The condition determination unit 209 controls the control information of the manual control information record to be processed based on the acquired statistical value (average value, mode value, maximum value, minimum value, etc.) of one or more biological information items. New condition information is determined when the above control is executed. The condition determination unit 209 may determine new condition information on biological information in each control information by executing machine learning processing using the acquired one or more pieces of biological information as teacher data.

  The condition determination unit 209 may update the condition information of the control information table for each target living body based on the biological information table and the manual control information table obtained from the target living body. The condition determination unit 209 may update the condition information of the control information table based on the biological information table and the manual control information table obtained from a plurality of target living organisms.

  The timing at which the condition determination unit 209 performs such processing to update the condition information may be set as any timing. For example, it may be timing when an application for realizing the function of the condition determination unit 209 installed in the terminal device 20 is started or timing when the application is ended. For example, the timing at which the terminal device 20 logs in to the application or the timing at which logoff is performed may be used.

  FIG. 9 is a sequence chart showing a specific example of the flow of the manual control information recording sequence of the control system 100a in the second embodiment. First, the user (target living body) operates the input unit 207 of the terminal device 20a (step S201). When this operation is an operation for inputting control content to the target device 30, the device control unit 206a records manual control information in the manual control information table of the storage unit 204a (step S202). The device control unit 206a generates a control signal according to the operation, and transmits the control signal to the target device 30 to be controlled (step S203). When receiving the control signal, the target device 30, which is the target device, executes control processing according to the received control signal (step S204).

  FIG. 10 is a sequence chart showing a specific example of the flow of the condition information update sequence of the control system 100a in the second embodiment. When the predetermined timing arrives (step S301-YES), the condition determining unit 209 executes condition information determination processing (step S302). The condition determination unit 209 updates the contents of the control information table with the new condition information determined by the execution of the condition information determination process (step S303).

  In the control system 100a according to the second embodiment configured as described above, the content (particularly, the condition information) of the control information table is updated according to the result of the manual operation by the target living body. The updated condition information is determined according to the biological information when the target living body manually operates the target device 30. For example, the condition information according to the control information on power on for the target device 30 with the device ID “A1” corresponds to the target living body when the control for power on to the target device 30 with the device ID “A1” is manually operated. It is determined based on biological information. Therefore, more appropriate control can be performed using the condition information corresponding to the target living body.

Third Embodiment
FIG. 11 is a schematic block diagram showing a system configuration of a control system 100b in the third embodiment. The control system 100b includes a vital sensor 10, a terminal device 20b, one or more target devices 30, and an environment sensor 40. The control system 100b in the third embodiment is different in the configuration of the terminal device 20 from the control system 100a in the second embodiment, and further includes an environment sensor 40. Hereinafter, with respect to the control system 100b of the third embodiment, differences from the second embodiment will be described.

  The environment sensor 40 is a sensor that acquires information about the environment around the target living body (hereinafter referred to as “environment information”). The environment sensor 40 may acquire, for example, information on the temperature, humidity, or weather around the target living body as environment information. The ambient temperature or humidity around the subject may be the ambient temperature or humidity in an open space, or it may be the ambient temperature or humidity in a closed space such as the inside of the clothing of the subject.

  FIG. 12 is a schematic block diagram showing an outline of functions of the terminal device 20b in the third embodiment. The terminal device 20b in the third embodiment includes a recording control unit 203b instead of the recording control unit 203, a storage unit 204b instead of the storage unit 204a, and a determination unit 205b instead of the determination unit 205. This differs from the terminal device 20a in the second embodiment in that the condition determination unit 209 is replaced with a condition determination unit 209b. About another structure, the terminal device 20b in 3rd Embodiment and the terminal device 20a in 2nd Embodiment are the same.

  The recording control unit 203 b further records environmental information acquired by the environmental sensor 40 in the storage unit 204 b in addition to the biological information.

  The storage unit 204b further stores an environment information table. The control information table stored in the storage unit 204b is different from the control information table in the second embodiment in that the control information table further includes the value of the environment information.

  FIG. 13 is a diagram illustrating a specific example of the environment information table. The environment information table has a plurality of environment information records. The environment information record has values of time information and environment information. The time information indicates information on the date and time when the environment information was acquired.

  FIG. 14 is a diagram showing a specific example of the control information table in the third embodiment. The control information record of the control information table in the third embodiment further has values of environmental conditions in addition to the device ID, the condition information, and the control information. In the third embodiment, when the environmental condition indicated by the environmental information is satisfied for the target device 30 indicated by the device ID, and the condition indicated by the condition information is satisfied, the control information is indicated. Control is performed. In the example of FIG. 14, environmental conditions show the conditions regarding the value of air temperature. For example, when the air temperature is a value between 25 degrees and 30 degrees and the condition that the heart rate is 140 or more is satisfied, control is performed to turn on the power to the target device 30 whose device ID is "A1". To be done.

  The determination unit 205b performs a control determination process at a predetermined timing. The control determination process in the third embodiment is a process of determining the content of control on each target device 30 based on the biological information of the target living body obtained at that time and the environment information. For example, the determination unit 205b may perform control determination processing based on the latest biological information and environmental information, or the statistics (for example, the average value) of the latest n biological information and the statistics of the latest m environmental information A value may be calculated, and a determination process may be performed based on each statistical value. The determination unit 205b executes control determination processing based on the control information table. When the condition information newly satisfied exists, the determination unit 205b determines that the control indicated by the control information is to be executed on the target device 30 indicated by the device ID associated with the condition information. The determination unit 205b notifies the device control unit 206 of the execution of the determined control.

  The condition determination unit 209b executes condition information determination processing based on the biological information table, the environment information table, and the manual control information table recorded in the storage unit 204b. Execution of the condition information determination process determines new condition information of the control information table. The condition determination unit 209 b updates the condition information of the control information table with the determined new condition information.

  Specifically, based on the time information recorded in the manual control information table, the condition determination unit 209b performs environmental information at the timing when the operation by the target living body is performed and one or more biological information of the target living body. get. For example, environmental information associated with time information closest to the timing and one piece of biological information may be acquired. For example, environment information associated with time information close to the above timing and a plurality of pieces of biological information may be acquired. The condition determining unit 209 b is a processing target under environmental conditions that the acquired environment information satisfies based on the acquired statistical value (average value, mode value, maximum value, minimum value, etc.) of one or more biological information items acquired. The new control information when control of the control information of the manual control information record is implemented is determined. The condition determination unit 209b determines new condition information related to biological information in each control information by executing machine learning processing using the acquired environment information and one or more biological information as teacher data. Good.

  FIG. 15 is a sequence chart showing a specific example of the flow of the environment information recording sequence of the control system 100b in the third embodiment. First, the environment sensor 40 acquires environment information (step S401). The environment sensor 40 transmits the acquired environment information to the terminal device 20b (step S402). The recording control unit 203b of the terminal device 20b generates an environmental information record based on the environmental information transmitted from the environmental sensor 40, and records the generated environmental information record in the environmental information table (step S403).

  In the control system 100b according to the third embodiment configured as described above, the contents of the control information record corresponding to the environment information at the timing when the manual operation is performed according to the result of the manual operation by the target living body (especially the condition Information) is updated. The updated condition information is determined according to the biological information when the target living body manually operates the target device 30. For example, condition information according to control information of power on in the environment of 25 degrees to 30 degrees of air temperature for the target equipment 30 of equipment ID "A1" is manually apparatus ID "A1" in the environment of 25 degrees of temperature to 30 degrees. This is determined based on the biological information of the target living body when the power-on control for the target device 30 is operated. Therefore, more appropriate control can be performed using the condition information according to the environment and the target living body.

(First Modification of Configuration)
A modification of the configuration of control system 100 will be described. Some of the functions of the terminal device 20 of the control system 100 may be implemented in another device of the control system 100. For example, when the control system 100 includes an information processing device such as a server or a cloud system, part of the functions of the terminal device 20 may be implemented on the information processing device such as a server or a cloud system.

  FIG. 16 is a diagram illustrating a functional configuration of the configuration of the control system 100 according to the modification. In FIG. 16, the terminal device 20c differs from the terminal device 20b in the third embodiment in that the terminal device 20c does not include the condition determination unit 209b and that the terminal device 20c further includes a third communication unit 210 and a communication control unit 211. Regarding the other configuration, the terminal device 20c and the terminal device 20b in the third embodiment are the same. The server 50 includes a communication unit 501, a communication control unit 502, and a condition determination unit 503. The terminal device 20c and the server 50 are configured to be able to communicate with each other via the network 60.

  The third communication unit 210 is a communication interface that transmits and receives data to and from another device. The third communication unit 210 communicates with the server 50 using a predetermined protocol.

  The communication control unit 211 performs data communication with the server 50 via the third communication unit 210. The communication control unit 211 transmits the information of the biological information table and the manual control information table recorded in the storage unit 204b to the server 50 when the predetermined timing comes. The communication control unit 211 may be configured not to transmit duplicate records transmitted in the past.

  The communication unit 501 of the server 50 is a communication interface that transmits and receives data to and from other devices. The communication unit 501 communicates with the terminal device 20c using a predetermined protocol.

  The communication control unit 502 performs data communication with the terminal device 20 c via the communication unit 501. For example, upon receiving data indicating the biological information table and the manual control information table from the terminal device 20c, the communication control unit 502 outputs the received data to the condition determination unit 503.

  The condition determining unit 503 is configured in the same manner as the condition determining unit 209 b in the third embodiment. The condition determination unit 503 determines condition information in the terminal device 20c of the transmission source based on the contents of the biological information table and the manual control information table received by the communication control unit 502. The condition determining unit 503 transmits the determined condition information to the terminal device 20c via the communication control unit 502.

  Thus, part of the configuration of the terminal device 20b may be implemented in another information processing apparatus. The functions such as the storage unit 204, the storage unit 204a, the storage unit 204b, the determination unit 205, the determination unit 205b, and the condition determination unit 209 may be implemented in another information processing apparatus without being limited to the condition determination unit 209b described above.

(Second Modification of Configuration)
Of the functions of the terminal device 20 of the control system 100, the input unit 207 may be implemented in the target device 30. FIG. 17 is a diagram showing a functional configuration of the configuration of the control system 100 in the modification. In FIG. 17, the target device 30 includes an input unit. The target device 30 operates with control contents according to the operation when the input unit is operated by the target living body. For example, the target device 30 may be provided with a power button as an input unit. In this case, in response to the user operating the power button, the target device 30 executes processing so that the power of its own device is turned on. When the target device 30 is operated through the input unit of its own device, the target device 30 transmits, to the terminal device 20a, information indicating the content of control according to the operation performed by the target living body. The second communication unit 202 of the terminal device 20a receives the information indicating the content of the control. In this case, the second communication unit 202 outputs information indicating the content of control to the device control unit 206. As in the case of receiving an operation from the input unit 207, the device control unit 206 records information indicating the content of the received operation in the storage unit 204a as a manual control information record.

(Third Modification of Configuration)
Among the functions of the terminal device 20 of the control system 100, the device control unit 206 and the input unit 207 may be implemented in another device. FIG. 18 is a diagram showing a functional configuration of the configuration of the control system 100 in the modification. In FIG. 18, the control system 100 further includes an operating device 70. The operating device 70 is a device capable of operating the target device 30. The operation device 70 is, for example, a remote controller.

  The controller device 70 includes a communication unit 701, an input unit 702, and a device control unit 703. The communication unit 701 is a communication interface that communicates with the terminal device 20 a and the target device 30. The input unit 702 is an input device that receives an operation by a target living body. The device control unit 703 generates a control signal for controlling the target device 30 in accordance with the operation performed via the input unit 702. When an operation is performed by the target living body, the device control unit 703 transmits a control signal corresponding to the operation to the target device 30 via the communication unit 701. When the operation signal is transmitted, the device control unit 703 transmits information indicating the content of control to the terminal device 20a via the communication unit 701.

  The second communication unit 202 of the terminal device 20a receives information indicating the content of control. In this case, the second communication unit 202 outputs information indicating the content of control to the device control unit 206. As in the case of receiving an operation from the input unit 207, the device control unit 206 records information indicating the content of the received control in the storage unit 204a as a manual control information record.

  Although the second and third modifications of the configuration have been described by taking the configuration of the second embodiment as an example, even if the second or third modification is implemented in the configuration of the third embodiment. Good. That is, in the configuration of the third embodiment, a configuration in which the target device 30 is provided with the input unit or a configuration in which the operation device 70 is provided may be adopted.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design and the like within the scope of the present invention.

100, 100a, 100b: control system, 10: vital sensor, 20, 20a, 20b, 20c: terminal device, 30: target device, 50: server, 201: first communication unit, 202: second communication unit, 203, 203b ... recording control unit, 204, 204a, 204b ... storage unit, 205, 205b ... determination unit, 206, 206a ... device control unit, 207 ... input unit, 208 ... display unit, 209, 209b ... condition determination unit, 210 ... Third communication unit 211 ... Communication control unit 501 ... Communication unit 502 ... Communication control unit 503 ... Condition determination unit

Claims (8)

The target living body is based on whether or not biological information acquired from a target living body which is a living body to be subjected to a determination of a health state is a condition related to the health state of the target living body and meets a predetermined condition. A determination unit that determines the control content of the device that affects the health condition of
A device control unit that controls the device according to the control content determined by the determination unit;
Control system comprising:   The apparatus further comprises a condition determination unit that updates the condition based on the content of the control operation performed by the target living body on the device and the biological information of the target living body at the timing when the control operation is performed. The control system according to claim 1.   The control system according to claim 1, wherein the determination unit further determines the control content in accordance with environmental information which is information on an environment around the target living body. The determination unit further determines the control content according to environment information that is information related to an environment around the target living body,
The condition determination unit updates the condition based on the content of the control operation performed by the target living body on the device and the biological information and environmental information of the target living body at the timing when the control operation is performed. The control system according to claim 2. The target living body is based on whether or not biological information acquired from a target living body which is a living body to be subjected to a determination of a health state is a condition related to the health state of the target living body and meets a predetermined condition. A determination step of determining the control content of the device that affects the health condition of
A device control step of controlling the device according to the control content determined in the determination step;
Controlling method. The target living body is based on whether or not biological information acquired from a target living body which is a living body to be subjected to a determination of a health state is a condition related to the health state of the target living body and meets a predetermined condition. A determination unit that determines the control content of the device that affects the health condition of
A transmission unit that transmits the control content determined by the determination unit to a device that controls the device;
An information processing apparatus comprising: The target living body is based on whether or not biological information acquired from a target living body which is a living body to be subjected to a determination of a health state is a condition related to the health state of the target living body and meets a predetermined condition. A determination step of determining the control content of the device that affects the health condition of
A transmitting step of transmitting the control content determined in the determining step to a device that controls the device;
An information processing method comprising: The target living body is based on whether or not biological information acquired from a target living body which is a living body to be subjected to a determination of a health state is a condition related to the health state of the target living body and meets a predetermined condition. A determination unit that determines the control content of the device that affects the health condition of
A computer program for causing a computer to function as an information processing apparatus comprising: a transmission unit that transmits the control content determined by the determination unit to a device that controls the device.

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