JP6521143B1 - Physical condition management device, physical condition management method, program - Google Patents

Abstract

A physical condition management device is provided that performs management based on physical condition determination appropriate for each individual of a management target person and control of a device according to the individual with a simple configuration. SOLUTION: Physical condition judgment of the individual is performed based on the measured value of the biological information acquired about the specified individual and the statistical value of the biological information accumulated beforehand about the individual, and the individual based on the result of the physical condition judgment Perform administrative control of [Selected figure] Figure 1

Description

  The present invention relates to a physical condition management device, a physical condition management method, and a program.

  As the capabilities of information communication devices improve, techniques for performing various controls based on the health status of the person being managed are used. For example, Patent Document 1 discloses a technique for preventing pathogens from entering a building or a room when an infectious disease becomes prevalent. Further, Patent Document 2 discloses a technique for restricting execution of instruction processing for a user based on work content information and health condition information. Further, Patent Document 3 discloses a technique for determining whether or not the employee wearing the wearable terminal can use the body temperature data measured by the wearable terminal.

Unexamined-Japanese-Patent No. 2010-128976 JP, 2015-018522, A JP 2018-000278 A

  It is required to perform management based on appropriate physical condition determination and control of the device according to the individual with a simple configuration for each individual of the management target person.

  Then, this invention aims at providing the physical condition management apparatus, physical condition management method, and program which solve the above-mentioned subject.

According to the first aspect of the present invention, the physical condition management device is based on the measured value of the biological information acquired for the specified individual and the statistical value of the biological information previously stored for the individual. The management system includes : a physical condition determination unit performing physical condition determination; and a management unit performing management control of the individual based on a result of the physical condition determination , the management unit including the physical condition among a plurality of areas in which the individual can enter The identification information of one or more non-enterable areas specified based on the determination result is recorded, and the personal information is acquired from a device that detects an entry into the non-enterable area. It is characterized in that the operation of the gate device for restricting entry into the area is controlled to be closed .

According to the second aspect of the present invention, the physical condition management method is based on the measured value of the biological information acquired for the specified individual and the statistical value of the biological information previously stored for the individual. perform physical condition decision, the have line management control of the individual based on the result of the physical condition determination, in the management control were identified based on the physical condition of the determination results of the plurality of areas that can be the individual enters one A gate apparatus for recording the identification information of one or more non-enterable areas and for controlling entry into the area when acquiring personal information from the apparatus for detecting entry into the non-enterable area The operation is controlled to be closed .

According to the third aspect of the present invention, the program causes the computer of the physical condition management device to calculate the measured value of the biological information acquired for the specified individual and the statistical value of the biological information accumulated for the individual in advance. Function as physical condition determination means for performing physical condition determination on the basis of the individual, and management means for performing management control of the individual on the basis of the result of the physical condition determination, and the management means comprises a plurality of areas in which the individual can enter The personal information is acquired from a device that records identification information of one or more inaccessible areas identified based on the result of the physical condition determination, and detects entry into the inaccessible areas. In this case, the operation of the gate device for restricting the entry into the area is controlled to be closed .

  According to the present invention, it is possible to perform management based on physical condition determination appropriate for each individual of the management target person and control of the device according to the individual with a simple configuration.

It is a block diagram showing composition of a management system by this embodiment type. It is a hardware block diagram of the physical condition management apparatus by this embodiment. It is a functional block diagram of the physical condition management apparatus by this embodiment. It is a 1st figure which shows the processing flow of the physical condition management apparatus by 1st embodiment. It is a 2nd figure which shows the processing flow of the physical condition management apparatus by 1st embodiment. It is a block diagram which shows the structure of the management system by 2nd embodiment. It is a 1st figure which shows the processing flow of the physical condition management apparatus by 2nd embodiment. It is a figure which shows the minimum structure of the physical condition management apparatus by this embodiment.

Hereinafter, a management system provided with a physical condition management device according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of a management system according to the embodiment.
As shown in this figure, the management system 100 includes the physical condition management device 1. Further, the management system 100 is communicably connected to the face image camera 21 and the thermal camera 22. The face image camera 21 generates face image data based on photographing of a person to be managed. The thermal camera 22 generates infrared image data by photographing using infrared light of the face of a person to be managed. The physical condition management device 1 acquires face image data from the face image camera 21 and acquires infrared image data from the thermal camera 22. A plurality of face image cameras 21 may be installed in the management target area. A plurality of thermal cameras 22 may also be installed in the management target area.

  The physical condition management device 1 is connected to a physical condition management database 110 and a biological information database 120. The physical condition management database 110 stores physical condition management information for each individual. An example of the physical condition management information is information indicating a physical condition determination result based on the temperature of the individual. The physical condition management device 1 is also connected to the biometric information database 120. In the biometric information database 120, as an example, feature information of each face to be managed is recorded.

  Then, the physical condition management device 1 identifies the individual to be managed, and acquires the biometric information of the identified individual. The physical condition management device 1 determines the physical condition of the individual based on the measurement value of the biological information acquired for the individual and the statistical value of the biological information accumulated in advance for the individual. The physical condition management device 1 performs management control of an individual based on the result of physical condition determination.

FIG. 2 is a hardware configuration diagram of the physical condition management device.
As shown in FIG. 2, the physical condition management device 1 has a central processing unit (CPU) 101, a read only memory (ROM) 102, a random access memory (RAM) 103, a hard disk drive (HDD) 104, an interface 105, and a communication module 106. Each hardware configuration of is provided as an example.

FIG. 3 is a functional block diagram of the physical condition management device.
The physical condition management device 1 executes a physical condition management program stored in advance. By the execution of the physical condition management program by the CPU 101 of the physical condition management device 1, the physical condition management device 1 includes the functional units of the control unit 10, the personal identification unit 11, the physical condition judgment unit 12 and the management unit 13.

The control unit 10 controls other functional units and the like of the physical condition management device 1.
The personal identification unit 11 identifies an individual based on the biometric information of the person to be determined.
The physical condition determination unit 12 determines the physical condition of the individual based on the measurement value of the biological information acquired for the individual and the statistical value of the biological information accumulated in advance for the individual.
The management unit 13 performs management control of an individual based on the result of physical condition determination.

First Embodiment
FIG. 4 is a first diagram showing a process flow of the physical condition management device according to the first embodiment.
An example in which the physical condition management device 1 is used in a food factory will be described.
The physical condition management device 1 manages the physical condition of the employee who enters the food factory. First, a face image camera 21 and a thermal camera 22 are installed at an entrance gate of a food factory. The face image camera 21 transmits, to the physical condition management device 1, first sensing information including face image data of an employee passing through the entrance gate, shooting time, and a camera ID. The thermal camera 22 transmits, to the physical condition management device 1, second sensing information including infrared image data of the face of the employee, the photographing time, and the camera ID. The physical condition management device 1 receives the first sensing information and the second sensing information (step S101). The control unit 10 specifies the correspondence between the face image data included in the corresponding first sensing information and the infrared image data included in the second sensing information based on the camera ID and the photographing time. Based on the correspondence relationship between the face image data and the infrared image data, the control unit 10 links the corresponding first sensing information and second sensing information to the processing flag indicating the non-processing and temporarily stores it in the storage unit such as the HDD 104 or the like. Record on The control unit 10 repeats the above process each time the first sensing information and the second sensing information are received.

  The personal identification unit 11 identifies the pair of the first sensing information and the second sensing information from the HDD 104 based on the information of the unprocessed processing flag, and reads the respective sensing information (step S102). The control unit 10 updates the processing flag associated with the read first sensing information and the read second sensing information to processed. The personal identification unit 11 reads face image data included in the read first sensing information. The personal identification unit 11 extracts face feature information from face image data. The personal identification unit 11 sequentially reads face feature information of a large number of employees recorded in the biometric information database 120, and sequentially compares the face feature information with face feature information newly extracted from face image data (step S103). In the comparison, the personal identification unit 11 calculates the similarity of the personal feature information to be compared. The calculation of the degree of similarity may use a known technique. The personal identification unit 11 includes, in the biological information database 120, a large number of faces whose face feature information whose similarity to the face feature information newly extracted from face image data is equal to or greater than a predetermined threshold and which has the highest similarity. It specifies from the feature information (step S104). The personal identification unit 11 identifies the employee ID recorded in the biometric information database 120 in association with the identified facial feature information (step S105). The employee ID is identification information for identifying the employee corresponding to the face of the face image data. The personal identification unit 11 outputs the employee ID to the physical condition determination unit 12.

  The physical condition determination unit 12 acquires the statistical value of the body temperature recorded in the personal management information of the physical condition management database 110 in association with the employee ID (step S106). The statistical value may be an average value of the past body temperature of the employee corresponding to the employee ID. Alternatively, the statistical value may be a value obtained by adding a predetermined correction coefficient to the average value of the past body temperature of the employee corresponding to the employee ID. For example, the correction coefficient is “0” when the current time is in the morning time zone, and “+ 0.5 ° C.” when the time is near 16 o'clock in the evening, etc. It may be a correction coefficient that corrects the body temperature to be a reference value according to the current time in accordance with the rhythm.

  The physical condition determination unit 12 acquires infrared image data included in the second sensing information. The physical condition judging unit 12 detects the temperature of the photographed employee based on the RGB value of each pixel of the infrared image data (step S107). A known technique may be used as a method for detecting the body temperature based on the infrared image data by the physical condition judging unit 12. The physical condition determination unit 12 compares the statistical value of the employee with the current temperature. The physical condition determining unit 12 determines whether the heat is generated based on the detected body temperature of the employee and the statistical value of the body temperature of the employee (step S108). If the current body temperature of the employee is greater than the statistical value plus the additional value, the physical condition determination unit 12 determines that the employee is in the heat generation state. The addition value may be, for example, a value such as 1 ° C. The physical condition determination unit 12 outputs a management instruction signal instructing to perform management control at the time of heat generation to the management unit 13 when in the heat generation state. The management instruction signal includes the employee ID identified by the individual identification unit 11 and the current temperature.

  The management unit 13 extracts personal management information of the employee recorded in the physical condition management database 110 in association with the employee ID. The personal management information includes information such as the employee name and the area ID of one or more business areas where the employee enters the room, in addition to the statistical value of the body temperature described above in connection with the employee ID. The management unit 13 reads the employee name and outputs it to a warning device installed in the entrance gate (step S109). The warning device is an aspect of the control target device 3. When acquiring the employee name, the warning device reads the employee name by voice and outputs an announcement indicating that the heat is generated from the speaker. As a result, an employee who passes through the entrance gate can recognize that he / she is in a heat generating state when passing through.

  The physical condition management database 110 stores area IDs of one or more business areas which can not be entered in the heat generation state in association with employee IDs and stores them. Based on the employee ID, the management unit 13 reads, from the physical condition management database 110, area IDs of one or more business areas that can not be entered in the heat generation state (step S110). The management unit 13 associates the employee ID with the area ID of the work area where the employee can not enter, and records the result in the area management table of the physical condition management database 110 (step S111).

  The control unit 10 determines whether there is a pair of first sensing information and second sensing information recorded in the HDD 104 in association with the information of the unprocessed processing flag (step S112). If there is a pair of the first sensing information and the second sensing information recorded in the HDD 104 in association with the information of the unprocessed processing flag, the processing from step S102 is repeated. Further, the control unit 10 determines whether the process is completed (step S113). If it is not the end, the process from step S102 described above is repeated.

FIG. 5 is a second diagram showing the process flow of the physical condition management device according to the first embodiment.
When conducting work, employees pass through the area gate of each work area. A face image camera 21 is installed at each area gate. The face image camera 21 of the area gate captures the face of the employee passing the area gate to generate face image data. The face image camera 21 of the area gate transmits sensing information including face image data and a camera ID to the physical condition management device 1. The control unit 10 of the physical condition management device 1 receives third sensing information including face image data from the face image camera 2 of the area gate (step S201). The control unit 10 outputs face image data included in the sensing information to the personal identification unit 11. The personal identification unit 11 identifies the employee ID by the same process as described above (step S202). The personal identification unit 11 outputs management instruction information including the employee ID and the camera ID to the management unit 13. The management unit 13 acquires management instruction information.

  Since the face image camera 21 indicated by the camera ID is installed at the entrance of the work area, the camera ID and the area ID can be linked in advance and stored. Therefore, when receiving the management instruction information, the management unit 13 specifies an area ID corresponding to the camera ID included in the management instruction information based on the stored information (step S203). Thus, the management unit 13 can identify the work area where the employee is going to pass. The management unit 13 determines whether the employee ID and the area ID are linked and recorded in the area management table (step S204). When the employee ID and the area ID are linked and recorded in the area management table, the management unit 13 outputs a gate closing signal to the gate apparatus installed in the area which is recorded linked to the area ID. (Step S205). This causes the gate device to stop opening the gate. The gate apparatus may output an announcement sound from the speaker indicating that the room can not be entered based on the reception of the gate close signal. As a result, it is possible to automatically perform control to prohibit the employee in the heat generation state from entering a predetermined work area specified in advance. When the employee ID and the area ID are linked and not recorded in the area management table, the management unit 13 outputs a gate open signal to the gate apparatus installed in the area which is linked to the area ID and recorded. (Step S206). This causes the gate device to open the gate. The user can pass through the gate device and enter the work area.

  According to the above processing, the statistical value of the body temperature of each employee is stored, and it is determined whether the employee is in the heat generation state based on the statistic value, and management control such as area entrance restriction in the heat generation state It is carried out. Therefore, the management based on the physical condition determination appropriate for each individual of the management target person and the control of the device according to the individual can be performed with a simple configuration by the physical condition management device.

Second Embodiment
FIG. 6 is a block diagram showing the configuration of a management system according to the second embodiment.
Next, an example in which the physical condition management device 1 is used in a kindergarten will be described.
In the management system according to the second embodiment, a face image camera 21 and a thermal camera 22 are provided at a kindergarten entrance gate, and a face image camera 21 and a thermal camera 22 are also provided in a nursery room and a garden.

FIG. 7 is a first diagram showing a process flow of the physical condition management device according to the second embodiment.
The physical condition management device 1 manages the physical condition of kindergarten children. First, a face image camera 21 and a thermal camera 22 are installed at a kindergarten entrance gate. The face image camera 21 transmits, to the physical condition management device 1, first sensing information including face image data of a child passing through the entrance gate, shooting time, and a camera ID. The thermal camera 22 transmits, to the physical condition management device 1, second sensing information including infrared image data of the face of the child, the photographing time, and the camera ID. The physical condition management device 1 receives first sensing information including face image data and second sensing information including infrared image data (step S301). The control unit 10 specifies the correspondence between the face image data included in the corresponding first sensing information and the infrared image data included in the second sensing information based on the camera ID and the photographing time. Based on the correspondence relationship between the face image data and the infrared image data, the control unit 10 links the corresponding first sensing information and second sensing information to the processing flag indicating the non-processing and temporarily stores it in the storage unit such as the HDD 104 or the like. Record on The control unit 10 repeats the above process each time the first sensing information and the second sensing information are received.

  The personal identification unit 11 identifies the pair of the first sensing information and the second sensing information from the HDD 104 based on the information of the unprocessed processing flag, and reads the respective sensing information (step S302). The control unit 10 updates the processing flag associated with the read first sensing information and the read second sensing information to processed. The personal identification unit 11 reads face image data included in the read first sensing information. The personal identification unit 11 extracts face feature information from face image data. The personal identification unit 11 sequentially reads face feature information of a large number of children recorded in the biometric information database 120, and sequentially compares the face feature information with face feature information newly extracted from face image data (step S303). In the comparison, the personal identification unit 11 calculates the similarity of the personal feature information to be compared. The calculation of the degree of similarity may use a known technique. The personal identification unit 11 includes, in the biological information database 120, a large number of faces whose face feature information whose similarity to the face feature information newly extracted from face image data is equal to or greater than a predetermined threshold and which has the highest similarity. It specifies from the feature information (step S304). The personal identification unit 11 identifies the children ID recorded in the biometric information database 120 in association with the identified facial feature information (step S305). The child ID is identification information for specifying a child corresponding to the face of the face image data. The personal identification unit 11 outputs the child child ID to the physical condition determination unit 12.

  The physical condition judging unit 12 obtains the statistical value of the body temperature recorded in the personal management information of the biological information database 120 by being linked to the child ID (step S306). The statistical value may be an average value of past temperatures of the children corresponding to the children ID. Alternatively, the statistical value may be a value obtained by adding a predetermined correction coefficient to the average value of the past body temperature of the kindergarten child corresponding to the kindergarten child ID. For example, the correction coefficient is a rhythm of body temperature that changes according to the time zone, such as "0" when the current time is in the morning time zone and "+ 0.5.degree. C." In addition, it may be a correction coefficient that corrects the body temperature to be a reference value corresponding to the current time. The correction coefficient may be a value for correcting the body temperature to be a reference value corresponding to the season.

  The physical condition determination unit 12 acquires infrared image data included in the second sensing information. The physical condition judging unit 12 detects the temperature of the photographed child based on the RGB value of each pixel of the infrared image data (step S307). A known technique may be used as a method for detecting the body temperature based on the infrared image data by the physical condition judging unit 12. The physical condition determining unit 12 compares the statistical value of the temperature of the child with the current temperature of the child. The physical condition determination unit 12 determines whether the patient is in the fever state based on the statistical value of the body temperature of the kindergarten child and the current body temperature of the kindergarten child (step S308). If the current temperature of the kindergarten child is greater than the statistical value plus the addition value, the physical condition judgment unit 12 judges that the kindergarten child is in a fever state. The addition value may be, for example, a value such as 1 ° C. The physical condition determination unit 12 outputs a management instruction signal instructing to perform management control at the time of heat generation to the management unit 13 when in the heat generation state. The management instruction signal includes the children ID identified by the individual identification unit 11 and the current temperature.

  The management unit 13 extracts personal management information of the children recorded in the physical condition management database 110 in association with the child ID. The personal management information includes, for example, information such as a child's name and a guardian's telephone number, in addition to the statistical value of the body temperature described above in association with the child ID. The management unit 13 reads the children's name and the guardian's telephone number, and outputs them to a predetermined terminal device (step S309). The terminal device is an aspect of the communication destination device 4. The terminal device outputs a heat generation screen showing the kindergarten name and the guardian's telephone number. As a result, the teacher who manages the children, the clerk of the kindergarten, etc. can make a notification to notify the guardian that the children are feverish. In addition, it is possible to urge to go home if the parents are attending the same time when entering the park.

  The control unit 10 determines whether there is a pair of first sensing information and second sensing information recorded in the HDD 104 in association with the information of the unprocessed processing flag (step S310). If there is a pair of the first sensing information and the second sensing information recorded in the HDD 104 in association with the information of the unprocessed processing flag, the processing from step S102 is repeated. Further, the control unit 10 determines whether the process is completed (step S311). If it is not the end, the processing from step S302 described above is repeated.

  The physical condition management device 1 may perform the same monitoring as the monitoring at the entrance gate even when the children play in the nursery or the garden. That is, the face image camera 21 installed in the nursery room or the garden transmits to the physical condition management device 1 the first sensing information including the face image data of the child playing in the garden, the photographing time and the camera ID. The thermal camera 22 installed in the nursery room or the garden transmits, to the physical condition management device 1, second sensing information including infrared image data of the face of the child, shooting time, and a camera ID. Then, the physical condition management device 1 may determine whether the child is in the heat generation state in the same manner as described above, and may transmit information on the child's name and the guardian telephone number to the predetermined device when the child is in the heat generation state.

FIG. 8 is a diagram showing a minimum configuration of the physical condition management device.
The physical condition management device 1 may include at least the physical condition determination unit 12 and the management unit 13.
The physical condition determination unit 12 determines the physical condition of the individual based on the measured value of the biological information acquired for the individual and the statistical value of the biological information stored in advance for the individual.
The management unit 13 performs management control of an individual based on the result of the physical condition determination.

  Each of the above-described devices internally includes a computer system. And the process of each process mentioned above is memorize | stored in the computer readable recording medium in the form of a program, and the said process is performed when a computer reads and runs this program. Here, the computer readable recording medium refers to a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory or the like. Alternatively, the computer program may be distributed to a computer through a communication line, and the computer that has received the distribution may execute the program.

  Further, the program may be for realizing a part of the functions described above. Furthermore, it may be a so-called difference file (difference program) that can realize the above-described functions in combination with a program already recorded in the computer system.

1 ... physical condition management device 10 ... control unit 11 ... personal identification unit 12 ... physical condition judgment unit 13 ... management unit 21 ... face image camera 22 ... thermal camera 3 ... Control target device 4 ... communication destination device 110 ... physical condition management database 120 ... biological information database

Claims (7)

A physical condition determination unit that determines the physical condition of the individual based on the measured value of the biological information acquired for the identified individual and the statistical value of the biological information accumulated in advance for the individual;
A management unit that performs management control of the individual based on the result of the physical condition determination;
Equipped with
The management unit records identification information of one or more inaccessible areas specified based on the result of the physical condition determination among a plurality of areas in which the individual can enter, and the inaccessible area The physical condition management device for closing the operation of the gate device for restricting the entry into the area when the personal information is acquired from the device for detecting the entry into the device. A personal identification unit that identifies the individual based on biometric information of the person to be judged;
The physical condition management device according to claim 1, comprising: The physical condition management device according to claim 2, wherein the individual identification unit identifies an individual based on a face image of the determination target person. The physical condition management device according to any one of claims 1 to 3, wherein the management unit performs entry / exit control according to the work of the individual. The physical condition management device according to any one of claims 1 to 4, wherein the management unit outputs the result of the physical condition determination to a predetermined device. Determining the physical condition of the individual based on the measured value of the biological information acquired for the identified individual and the statistical value of the biological information previously stored for the individual;
There line management control of the individual based on the physical condition of the determination result,
In the management control, identification information of one or more inaccessible areas specified based on the result of the physical condition determination among a plurality of areas in which the individual can enter is recorded, and the inaccessible area The physical condition management method which controls to close operation of the gate apparatus which regulates entry to the said area, when information of the said individual is acquired from the apparatus which detects the approach to exit . Physical condition management computer,
Physical condition determination means for performing physical condition determination of the individual based on the measured value of the biological information acquired for the identified individual and the statistical value of the biological information previously stored for the individual;
A management unit that performs management control of the individual based on the result of the physical condition determination;
To function as,
The management means records identification information of one or more inaccessible areas specified based on the result of the physical condition determination among a plurality of areas in which the individual can enter, and the inaccessible area A program for closing operation of a gate device for restricting entry into the area when information of the individual is acquired from a device for detecting entry into the device .

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