JP2019175364A - Biological information monitoring server, biological information monitoring system, and biological information monitoring method - Google Patents

Abstract

To provide a biological information monitoring server, a biological information monitoring system, and a biological information monitoring method that can improve confidentiality while reducing the possibility that a medical staff fails to monitor state information on a subject.SOLUTION: A biological information monitoring server includes: a communication unit for receiving state information on a subject and identification information on the subject from the outside; a storage unit for associating and storing the state information with the identification information; and a control unit for transmitting the state information in the state of being associated with the identification information to an external display device. Furthermore, the control unit transmits the state information in a state of not being associated with the identification information to an external printing device or an external voice outputting device by using the communication unit.SELECTED DRAWING: Figure 3

Description

  The present disclosure relates to a biological information monitoring server, a biological information monitoring system, and a biological information monitoring method.

  In recent years, a biological information monitoring system has been proposed in which a medical worker such as a doctor can remotely monitor state information such as biological information of a subject, for example, a patient performing home medical care. In such a biological information monitoring system, a medical worker usually accesses a dedicated server using a display device such as a personal computer (PC), and displays based on the status information of the subject received from the server. By checking the contents, it is possible to monitor the status information of the subject.

  By the way, depending on the medical staff, the operation of such a display device may feel complicated. This is particularly noticeable for elderly health workers. Therefore, for example, in Patent Document 1, in a health management system including a center system that receives and accumulates biological information of a subject transmitted from the outside, the biological information accumulated in the center system is transmitted to the transmission destination. The transmission means set for each doctor as a medical worker, for example, processing in a format suitable for a facsimile or the like is described.

JP 2001-275996 A

  According to the health management system described in Patent Literature 1, since the biological information of the subject is processed and transmitted into a format suitable for the transmission means set for each medical worker, the medical worker can examine the subject. It is possible to reduce the possibility of neglecting monitoring of biological information. However, when the set transmission means is, for example, a printed matter such as a facsimile, the printed matter may touch the eyes of a person other than the medical staff who should monitor the biological information of the subject, and from the viewpoint of confidentiality There was room for improvement.

  In view of the above problems, an object of the present disclosure is to provide a biological information monitoring server, a biological information monitoring system, and biological information that can improve confidentiality while reducing the possibility that a medical staff will fail to monitor the state information of a subject. It is to provide a monitoring method.

  The biological information monitoring server as one aspect of the present invention includes a communication unit that receives the state information of the subject and the identification information of the subject from the outside, a storage unit, the state information, and the identification information, A control unit that associates and stores the state information in the storage unit, and the control unit transmits the state information to an external display device in a state associated with the identification information using the communication unit. The control unit further uses the communication unit to transmit the status information to an external printing device or an external audio output device in a state not associated with the identification information.

  In the biological information monitoring server as one embodiment of the present invention, the control unit causes the storage unit to store time-series change information indicating a time-series change in state information of each of a plurality of subjects, and the communication The time series change information is transmitted to the printing apparatus or the audio output apparatus as the state information using a unit.

  In the biological information monitoring server as one embodiment of the present invention, the control unit calculates risk information indicating a degree of risk of each of the plurality of subjects based on the state information of the plurality of subjects, Using the communication unit, the risk information is transmitted as the state information to the printing apparatus or the audio output apparatus.

  In the biological information monitoring server as one embodiment of the present invention, the control unit uses the communication unit to transmit the status information to the printing device or the audio output device, and then requests browsing from the display device. Is received, the state information is transmitted to the display device, the presence or absence of a high-risk subject is determined based on the risk information of each of the plurality of subjects, and the presence of the high-risk subject is determined. And when the status information is transmitted to the printing device or the audio output device using the communication unit and the browsing request from the display device is not received for a predetermined period, the communication unit is used. Notify the printing device or the audio output device again.

  In the biological information monitoring server as one embodiment of the present invention, the control unit uses the communication unit to transmit the status information to the printing device or the audio output device, and then requests browsing from the display device. Is received, the state information is transmitted to the display device.

  In the biological information monitoring server as one embodiment of the present invention, the control unit uses the communication unit to connect to the printing device or the audio output device when the browsing request from the display device is not received for a predetermined period. Notify again.

  The biological information monitoring system as one aspect of the present invention acquires the state information of the subject, the biological information acquisition device that transmits the state information together with the identification information of the subject, and the biological information acquisition device A server that stores the state information and the identification information in association with each other, a display device that outputs display contents based on the received information, a printing device that generates printed matter based on the received information, or received information An audio output device that outputs audio based on the information, wherein the server transmits the state information in a state associated with the identification information to the display device, and the server sends the state information to the display device. In a state where it is not associated with the identification information, it is transmitted to the printing device or the audio output device.

  The biological information monitoring method as one aspect of the present invention is a biological information monitoring method executed by a biological information monitoring server, and includes receiving the condition information of the subject and the identification information of the subject from outside. Storing the state information and the identification information in association with each other, transmitting the state information to an external display device in a state associated with the identification information, and the state information, Transmitting to an external printing device or an external audio output device with information not associated with the identification information.

  According to the present disclosure, it is possible to provide a biological information monitoring server, a biological information monitoring system, and a biological information monitoring method capable of improving confidentiality while reducing the possibility that a medical worker neglects monitoring of state information of a subject. Can do.

1 is a block diagram showing an overall configuration of a biological information monitoring system as an embodiment of the present invention. It is a block diagram which shows the structure of the biometric information acquisition apparatus with which the biometric information monitoring system of FIG. 1 is provided. It is a block diagram which shows the structure of the biometric information monitoring server with which the biometric information monitoring system of FIG. 1 is provided. It is a block diagram which shows the structure of the display apparatus for medical workers with which the biometric information monitoring system of FIG. 1 is provided. It is a block diagram which shows the structure of the printing apparatus for medical workers with which the biometric information monitoring system of FIG. 1 is provided. It is a block diagram which shows the structure of the audio | voice output apparatus for medical workers with which the biometric information monitoring system of FIG. 1 is provided. It is a flowchart which shows an example of the biometric information monitoring process which the biometric information monitoring server of FIG. 2 performs. It is a flowchart which shows an example of the subject specific information generation process which the biometric information monitoring server of FIG. 2 performs. It is a flowchart which shows an example of the risk discriminable information generation process which the biometric information monitoring server of FIG. 2 performs. It is a sequence diagram which shows the 1st operation example of the biometric information monitoring system of FIG. It is a sequence diagram which shows the 2nd operation example of the biometric information monitoring system of FIG. It is a figure which shows the 1st example of the printed matter which the printing apparatus of FIG. 5 produces | generates. It is a figure which shows the 2nd example of the printed matter which the printing apparatus of FIG. 5 produces | generates. FIG. 6 is a diagram illustrating a third example of a printed matter generated by the printing apparatus of FIG. 5. It is a figure which shows an example of the display content which the display apparatus of FIG. 4 outputs.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In each figure, the same code | symbol is attached | subjected to the common element.

  FIG. 1 is a block diagram showing the overall configuration of a biological information monitoring system 1 as an embodiment of the present invention. As shown in FIG. 1, the biological information monitoring system 1 of this embodiment includes a biological information monitoring server 10, a biological information acquisition device 20, a display device 30, a printing device 40, and an audio output device 50. . The biological information monitoring server 10 is connected to the biological information acquisition device 20, the display device 30, the printing device 40, and the audio output device 50 through a network such as the Internet or a telephone network so as to be able to communicate with each other. Yes. FIG. 1 illustrates an example in which the biological information monitoring system 1 includes both the printing device 40 and the voice output device 50. However, the biological information monitoring system 1 includes at least one of the printing device 40 and the voice output device 50. What is necessary is just to have one side.

  As shown in FIG. 1, the display device 30, the printing device 40, and the audio output device 50 are each installed in a residence 100 of a medical worker such as a common doctor, for example. The display device 30 for medical use, the printing device 40 for medical workers, and the audio output device 50 for medical workers. In FIG. 1, the display device 30, the printing device 40, and the audio output device 50 installed in one medical worker's residence 100 are illustrated one by one, but there may be a plurality of medical workers' residences 100, The display device 30, the printing device 40, and the audio output device 50 may be installed in each of the plurality of medical staff's residences 100. Similarly, in FIG. 1, three biological information acquisition devices 20 are illustrated, but one or more biological information acquisition devices 20 may be provided.

  FIG. 2 is a block diagram illustrating a configuration of the biological information acquisition apparatus 20. As shown in FIG. 2, the biological information acquisition device 20 includes a communication unit 21, a biological information acquisition unit 22, a storage unit 23, and a control unit 24. The biological information acquisition device 20 acquires state information of a subject, for example, a patient performing home medical care. The state information acquired by the biological information acquisition device 20 includes, for example, biological information such as a subject's resting heart rate, blood pressure, weight, or body fat percentage, and symptom information indicating whether the subject's mood is good or bad Examples include voice information in which a subject's voice and the like are input, image information in which a subject's face is photographed, life information such as a subject's eating time or going-out time, and the like. For example, the medical staff can diagnose the health condition of the subject by determining the facial color of the subject based on the image information as the status information of the subject. The biological information acquisition device 20 is used in a state where it is attached to a predetermined part of the subject's body, for example, when acquiring biological information such as a resting heart rate or blood pressure as the state information. The biological information of the subject may be repeatedly acquired over time.

  The communication unit 21 includes, for example, an interface that is connected to a network and transmits / receives information to / from an external device connected to the network. In the present embodiment, the communication unit 21 transmits the state information of the subject acquired by the biological information acquisition unit 22 and the identification information of the subject to the biological information monitoring server 10 via the network. The identification information of the subject includes the name, identification number, contact information, etc. of the subject. The communication unit 21 may transmit a plurality of state information of the subject after the acquisition, or may transmit the information every time the state information of the subject is acquired. The communication unit 21 may transmit the information at predetermined intervals, for example, once a day, when a plurality of pieces of subject state information are acquired and transmitted collectively.

  The biological information acquisition unit 22 acquires the state information of the subject. Specifically, the biological information acquisition unit 22 includes a sensor, an input interface, a microphone, an image sensor, and the like corresponding to the acquired state information of the subject. The biological information acquisition unit 22 may acquire the state information of the subject at a predetermined time interval, or may acquire it at a timing that satisfies a predetermined condition. Alternatively, when the biological information acquisition device 20 includes an input unit that receives input of information, the biological information acquisition unit 22 acquires the state information of the subject at a timing based on the information input via the input unit. Also good.

  The storage unit 23 includes, for example, a storage device, and stores various information and programs. Specifically, the storage unit 23 stores a program and information for the biological information acquisition unit 22 to acquire the state information of the subject. The storage unit 23 stores a program and information for the communication unit 21 to transmit the state information of the subject and the identification information of the subject to the biological information monitoring server 10. The storage unit 23 may temporarily store the state information of the subject acquired by the biological information acquisition unit 22. The storage unit 23 stores identification information of a subject who uses the biological information acquisition device 20.

  The control unit 24 includes a processor that realizes a predetermined function by reading predetermined information and programs out of various information and programs stored in the storage unit 23, for example. Control. Specifically, the control unit 24 causes the communication unit 21 to transmit the state information of the subject acquired by the biological information acquisition unit 22 and the identification information of the subject. The control unit 24 may cause the storage unit 23 to temporarily store the state information of the subject acquired by the biological information acquisition unit 22.

  FIG. 3 is a block diagram illustrating a configuration of the biological information monitoring server 10. As shown in FIG. 3, the biological information monitoring server 10 includes a communication unit 11, a storage unit 12, a control unit 13, and a timer unit 14.

  The communication unit 11 includes, for example, an interface that is connected to a network and transmits / receives information to / from an external device connected to the network. In the present embodiment, the communication unit 11 receives information from the biological information acquisition device 20 via a network, transmits information to the printing device 40 and the audio output device 50, and transmits and receives information to and from the display device 30. I do.

  The storage unit 12 includes a storage device, for example, and stores various information and programs. Specifically, the storage unit 12 stores a program and information for causing the control unit 13 to execute a biological information monitoring process and the like which will be described later. As illustrated in FIG. 3, the storage unit 12 stores related information 121 and time series information 122.

  The related information 121 is information that associates the state information of the subject received from the biological information acquisition apparatus 20 with the identification information of the subject. The related information 121 is generated when the control unit 13 stores the state information of the subject and the identification information of the subject in the storage unit 12 in association with each other. As the identification information of the subject, the name, identification number, contact information, etc. of the subject are mentioned as described above. One piece of related information 121 is information about one subject. That is, when there are a plurality of subjects, a plurality of related information 121 is stored in the storage unit 12. A plurality of pieces of state information may be included in the related information 121. The plurality of state information may be a plurality of types of state information such as a resting heart rate and weight, or may be the same type of state information received at different times. When the plurality of pieces of state information are the same type of state information received at different times, each of the plurality of pieces of state information may be stored in association with, for example, the received time information.

  The time series information 122 is information indicating a time series change in the state information of each of the plurality of subjects. The time series information 122 is generated when the control unit 13 stores the state information of each of the plurality of subjects received from the plurality of biological information acquisition devices 20 in the storage unit 12 in time series. The time-series information 122 may be information that allows a health care professional to determine whether or not there is a high-risk subject related to illness or life and death (hereinafter, also simply referred to as “high-risk subject”). In other words, the medical staff may be able to determine the presence or absence of a high-risk subject based on the time series information 122. The time-series information 122 does not include information that associates the state information of the subject and the identification information of the subject, that is, information corresponding to the related information 121. The time series information 122 may be, for example, information generated for each subject such as a graph (hereinafter, also simply referred to as “graph”) showing a change over time of a measurement value indicating state information. .

  The storage unit 12 may store risk information 123. The risk information 123 is information indicating the risk level of each of a plurality of subjects. The risk information 123 is calculated by the control unit 13 based on the status information of a plurality of subjects. The risk information 123 may be, for example, a risk score calculated by a predetermined calculation method, or rank information indicating whether or not the risk score or measured value is equal to or higher than a predetermined threshold. Good. The risk information 123 may be information that directly indicates the presence or absence of a high-risk subject.

  The control unit 13 includes, for example, a processor that realizes a predetermined function by reading predetermined information and programs out of various information and programs stored in the storage unit 12, and configures each component of the biological information monitoring server 10. Control. Specifically, the control unit 13 reads predetermined information and a program stored in the storage unit 12 and executes a biological information monitoring process described later.

  The timer unit 14 includes, for example, a real time clock (RTC) and measures time. The timer unit 14 may be configured as a function of the control unit 13.

  FIG. 4 is a block diagram showing a configuration of the display device 30 for medical workers. As illustrated in FIG. 4, the display device 30 includes, for example, a personal computer (PC), a tablet PC, a smartphone, and the like, and includes a communication unit 31, a display unit 32, an operation reception unit 33, a storage unit 34, And a control unit 35.

  The communication unit 31 includes, for example, an interface that is connected to a network and transmits / receives information to / from an external device connected to the network. In this embodiment, the communication part 31 mutually transmits / receives information with the biometric information monitoring server 10 via a network.

  The display unit 32 includes a display device such as a liquid crystal display or an organic EL display, and outputs display content based on display information received by the communication unit 31.

  The operation reception unit 33 includes an input interface such as a keyboard, a mouse, or a touch panel provided integrally with the display unit 32, and receives an input operation by a medical worker.

  The storage unit 34 includes, for example, a storage device, and stores various information and programs. Specifically, the storage unit 34 stores information and a program for the display unit 32 to output display contents based on the display information.

  The control unit 35 includes, for example, a processor that realizes a predetermined function by reading predetermined information and programs out of various information and programs stored in the storage unit 34, and controls each component of the display device 30. . Specifically, the control unit 35 causes the display unit 32 to display display content based on the display information received via the communication unit 31.

  FIG. 5 is a block diagram illustrating a configuration of a printing apparatus 40 for medical staff. As shown in FIG. 5, the printing apparatus 40 is configured by, for example, a facsimile, a copying machine, and the like, and includes a communication unit 41 and a printing unit 42.

  The communication unit 41 includes, for example, an interface that is connected to a network and transmits / receives information to / from an external device connected to the network. In the present embodiment, the communication unit 41 receives print information from the biological information monitoring server 10 via a network.

  The printing unit 42 generates a printed material based on the printing information received by the communication unit 41. Specifically, the printing unit 42 generates a printed matter by performing printing based on the printing information on a printing medium such as paper that is arranged. The printing unit 42 may include a display device such as a digital photo frame, for example, and may display information based on the print information on the display device to generate an electronic printed material as a printed material. However, it is preferable that the printing unit 42 prints on a print medium such as paper from the viewpoint of surely notifying the medical staff.

  FIG. 6 is a block diagram showing the configuration of the audio output device 50 for medical personnel. As shown in FIG. 6, the audio output device 50 includes, for example, a telephone, a smart speaker, and the like, and includes a communication unit 51 and an audio output unit 52.

  The communication unit 51 includes, for example, an interface that is connected to a network and transmits / receives information to / from an external device connected to the network. In the present embodiment, the communication unit 51 receives audio information from the biological information monitoring server 10 via a network.

  The audio output unit 52 includes a speaker, for example, and outputs audio based on the audio information received by the communication unit 51.

  FIG. 7 is a flowchart illustrating an example of the biological information monitoring process executed by the biological information monitoring server 10. In the biological information monitoring process shown in FIG. 7, the biological information monitoring system 1 includes a plurality of biological information acquisition devices 20 corresponding to a plurality of subjects, and is installed at one medical worker's residence 100. In the following description, it is assumed that the display device 30, the printing device 40, and the audio output device 50 are provided.

  As shown in FIG. 7, first, the biological information monitoring server 10 executes related information generation processing (step S101).

  FIG. 8 is a flowchart illustrating an example of related information generation processing executed by the biological information monitoring server 10. As shown in FIG. 8, in the related information generation process, the biological information monitoring server 10 first uses the communication unit 11 to obtain a predetermined subject's state information and the subject's identification information from an external biological body. Received from the information acquisition device 20 (step S201).

  Next, the biological information monitoring server 10 generates the related information 121 (see FIG. 3) using the control unit 13, and stores the generated related information 121 in the storage unit 12 (step S202). Specifically, the biological information monitoring server 10 uses the control unit 13 to associate the received state information of the subject and the identification information of the subject and store them in the storage unit 12.

  Then, the biological information monitoring server 10 uses the control unit 13 to determine whether or not the related information 121 for all subjects has been generated (step S203). The biological information monitoring server 10 returns to the process of step S201 described above when the related information 121 for all subjects has not been generated (No in step S203). On the other hand, when the biological information monitoring server 10 has already generated the related information 121 for all subjects (Yes in step S203), the related information generation process is ended, and step S102 (see FIG. 7) described later is ended. Proceed to the process.

  As illustrated in FIG. 7, the biological information monitoring server 10 executes time-series information generation processing after the processing in step S101 described above (step S102). Specifically, the biological information monitoring server 10 uses the control unit 13 to determine the status information of each of the plurality of subjects based on the status information of the plurality of subjects received in the process of step S101 described above. Time-series change information indicating time-series changes is generated as time-series information 122 (see FIG. 3).

  Thereafter, the biological information monitoring server 10 executes a risk information generation process (step S103). Specifically, the biological information monitoring server 10 uses the risk information 123 (FIG. 3) indicating the degree of risk of each of the plurality of subjects based on the state information of the plurality of subjects received in the process of step S101 described above. Reference).

  FIG. 9 is a flowchart illustrating an example of risk information generation processing executed by the biological information monitoring server 10. As shown in FIG. 9, the biological information monitoring server 10 first uses the control unit 13 to determine the high-risk subject based on the state information of the plurality of subjects received in the process of step S101 described above. The presence or absence is determined (step S301). For example, the biological information monitoring server 10 has a predetermined number of days (for example, 5 days) in which a fluctuation range of the resting heart rate as the state information exceeds a predetermined width (for example, 20 bpm) in a predetermined period (for example, immediately preceding 7 days). ) When there is a subject who becomes the above, it may be determined that there is a high-risk subject. The biological information monitoring server 10 can be used for a high-risk test when, for example, there is a subject whose weight as state information has increased by a predetermined width (for example, 5 kg) in a predetermined period (for example, the last seven days). It may be determined that there is a person. For example, when the risk score described above is used as the risk information 123, the biological information monitoring server 10 determines that there is a high-risk subject when there is a subject whose risk score is equal to or greater than a predetermined threshold. May be.

  Next, the biological information monitoring server 10 uses the control unit 13 based on the determination result in step S301 described above to include risk information 123 (see FIG. 5) including information indicating the presence or absence of a high-risk subject as a risk degree. 3) (Step S302), the risk information generation process is terminated, and the process proceeds to Step S104 (see FIG. 7) described later. Thus, the biological information monitoring server 10 may generate risk information 123 including information indicating the presence or absence of a high-risk subject.

  As illustrated in FIG. 7, the biological information monitoring server 10 uses the communication unit 11 after the process of step S103 described above to obtain status information of a plurality of subjects and identification information for each of the plurality of subjects. Is transmitted to the printing device 40 or the audio output device 50 without being associated with (step S104). Specifically, the biological information monitoring server 10 uses the time-series information 122 as time-series change information indicating the time-series change of the state information of each of the plurality of subjects, and the identification information of each of the plurality of subjects. May be transmitted to the printing apparatus 40 or the audio output apparatus 50 in a state that is not associated with. Alternatively, the biological information monitoring server 10 does not associate the risk information indicating the degree of risk of each of the plurality of subjects with the identification information of each of the plurality of subjects, and the printing device 40 or the voice output device 50. May be sent to. Specifically, when transmitting information to the printing apparatus 40, the biological information monitoring server 10 generates print information using the control unit 13, and uses the communication unit 11 to generate the print information. Send to. On the other hand, when transmitting information to the audio output device 50, the biological information monitoring server 10 generates audio information using the control unit 13, and uses the communication unit 11 to generate the audio information using the communication unit 11. Send to.

  Thereafter, the biological information monitoring server 10 determines whether the browsing request is received from the display device 30 via the communication unit 11 using the control unit 13 (step S105). The browsing request is information for requesting browsing of the related information 121 input to the display device 30 by the medical staff. When receiving the browsing request (Yes in step S105), the biological information monitoring server 10 uses the communication unit 11 to associate the state information of the plurality of subjects with the identification information of each of the plurality of subjects. In this state, the data is transmitted to the display device 30 (step S106). Specifically, the biological information monitoring server 10 generates display information including related information 121 for each subject using the control unit 13, and generates the generated display information on the display device 30 using the communication unit 11. You may send it. The biological information monitoring server 10 may perform the generation of the display information in the process of step S106 in advance at any time after the process of step S101.

  On the other hand, when the biometric information monitoring server 10 has not received the browsing request (No in step S105), the process proceeds to step S107 described later. Note that the biological information monitoring server 10 returns to the process of step S105 when the browse request is not received (No in step S105) and when the process of step S301 described above is not executed.

  In the process of step S107, the biological information monitoring server 10 determines using the control unit 13 whether or not it has been determined that there is a high-risk subject in the process of step S301 (see FIG. 9). . When it is determined that there is no high-risk subject (No in step S107), the biological information monitoring server 10 returns to the process in step S105 described above. On the other hand, if it is determined that there is a high-risk subject (Yes in step S107), the biological information monitoring server 10 proceeds to the process in step S108 described later.

  In the process of step S108, the biological information monitoring server 10 determines whether or not a predetermined period has elapsed after transmitting the state information to the printing apparatus 40 or the audio output apparatus 50 in the process of step S104 described above. Determine using. For example, whether or not the predetermined period has elapsed is determined by measuring the elapsed period from the time when the state information is transmitted in the process of step S104 to the present time using the timer unit 14, and the elapsed period is stored in the storage unit 12. It can be executed by determining whether or not the stored predetermined period has been reached.

  When the predetermined period has not elapsed (No in step S108), the biological information monitoring server 10 returns to the process in step S105 described above. On the other hand, when the predetermined period has elapsed (Yes in Step S108), the biological information monitoring server 10 notifies the printing device 40 or the audio output device 50 again using the communication unit 11 (Step S109). Specifically, when the status information has been transmitted to the printing apparatus 40 in the process of step S104 described above, the biological information monitoring server 10 transmits the information to the printing apparatus 40 again and notifies it. On the other hand, if the status information has been transmitted to the audio output device 50 in the process of step S104 described above, the biological information monitoring server 10 transmits the information to the audio output device 50 again for notification. The information transmitted when the biological information monitoring server 10 notifies the printing device 40 or the audio output device 50 again does not have to include the state information. When the biological information monitoring server 10 includes the state information, the identification of the corresponding subject is performed. Sent without being associated with information.

  In the biological information monitoring process illustrated in FIG. 7, when the biological information monitoring server 10 determines that the browsing request is not received in the process of step S105 (No in step S105), the process does not proceed to the process of step S107. The process may proceed to S108. That is, the biological information monitoring server 10 determines whether or not to receive a browsing request for a predetermined period or more after transmitting status information to the printing device 40 or the audio output device 50 regardless of the presence or absence of a high-risk subject. 40 or the audio output device 50 may be notified again.

  The biological information monitoring server 10 determines whether or not a predetermined period has elapsed since receiving the browsing request last time, not after transmitting the status information to the printing device 40 or the audio output device 50 in the process of step S108. You may judge.

  FIG. 10 is a sequence diagram illustrating a first operation example of the biological information monitoring system 1. As illustrated in FIG. 10, the biological information acquisition device 20 acquires the state information of the subject using the biological information acquisition unit 22 (step S601). Thereafter, the biological information acquisition device 20 transmits the acquired state information and the identification information of the subject to the biological information monitoring server 10 using the communication unit 21 (step S602).

  When the biological information monitoring server 10 receives the state information and identification information of the subject from the biological information acquisition device 20, the related information generation process (step S603), the time series information generation process (step S604), and the risk information generation process (Step S605) is executed. The related information generation process in step S603 is the same as the above-described steps S101 (see FIG. 7) and steps S201 to S203 (see FIG. 8). The time-series information generation process in step S604 is the same as that in step S102. (See FIG. 7) The risk information generation process in step S605 is similar to the processes in steps S103 (see FIG. 7) and steps S301 and S302 (see FIG. 9). Is omitted.

  The biological information monitoring server 10 uses the communication unit 11 after the process of step S605 described above, in a state where the state information of the plurality of subjects is not associated with the identification information of each of the plurality of subjects. Then, the print information is transmitted to the printing apparatus 40 (step S606). The process of step S606 corresponds to the case where information is transmitted to the printing apparatus 40 in the process of step S104 (see FIG. 7) described above.

  When receiving the print information from the biological information monitoring server 10 via the communication unit 41, the printing apparatus 40 generates a printed matter based on the received print information using the printing unit 42 (step S607).

  FIG. 12 is a diagram illustrating a first example of a printed matter generated by the printing apparatus 40. The printed matter shown in FIG. 12 does not include a print area based on the related information 121, and is a print area based on the time series information 122 (hereinafter also simply referred to as “time series information print area”) 122a. A printing area based on the risk information 123 (hereinafter also simply referred to as “risk information printing area”) 123 a is included. In the example shown in FIG. 12, a graph for each subject is printed in the time-series information printing area 122a with the identification information of the subject hidden. In addition, the risk score for each subject is printed in the risk information printing area 123a in a state where the identification information of the subject is hidden.

  FIG. 13 is a diagram illustrating a second example of the printed matter generated by the printing apparatus 40. The printed matter shown in FIG. 13 does not include a print area based on the related information 121, and includes a risk information print area 123a. In the example illustrated in FIG. 13, rank information including “high risk: 1 person”, which is a character string indicating information with a high-risk subject, is included in the risk information print area 123 a. It is printed with the face down.

  As illustrated in FIG. 10, after the process of step S <b> 607, when the display device 30 receives an input of a browsing request from a medical worker using the operation reception unit 33 (step S <b> 608), the display unit 30 uses the communication unit 31. The browsing request is transmitted to the biological information monitoring server 10 (step S609).

  When the biological information monitoring server 10 receives the browsing request from the display device 30, the biological information monitoring server 10 displays the display information in which the state information of the plurality of subjects is in a state associated with the identification information of each of the plurality of subjects. 13 is used (step S610), and is transmitted to the display device 30 using the communication unit 11 (step S611). The processing in steps S610 and S611 is the same as the processing in step S106 (see FIG. 7).

  When receiving the display information from the biological information monitoring server 10, the display device 30 outputs display contents based on the received display information (step S612).

  FIG. 15 is a diagram illustrating an example of display contents output by the display device 30. As shown in FIG. 15, the display content output by the display device 30 in the process of step S <b> 612 includes a display area (hereinafter also simply referred to as “related information display area”) 121 b based on the related information 121. . In the example shown in FIG. 15, the patient name and patient contact information as the identification information of the subject are displayed in the related information display area 121b, and the risk score and graph based on the state information of the subject are displayed. .

  FIG. 11 is a sequence diagram illustrating a second operation example of the biological information monitoring system 1. In this operation example, a case will be described in which the biological information monitoring server 10 determines that there is a high-risk subject in the risk information generation process (step S705). Since each process of step S701 to S707 shown in FIG. 11 is the same as each process of step S601 to S607, description is abbreviate | omitted here.

  As illustrated in FIG. 11, the biological information monitoring server 10 transmits print information to the printing apparatus 40 and then passes the print information to the printing apparatus when a predetermined period has elapsed without receiving a browsing request from the display apparatus 30 (step S708). 40 is retransmitted (step S709). The printing apparatus 40 generates a printed material based on the re-received print information (step S710).

  FIG. 14 is a diagram illustrating a third example of the printed matter generated by the printing apparatus 40. As illustrated in FIG. 14, the printed matter generated by the process of step S <b> 710 does not include a print area based on the related information 121. Specifically, for example, as illustrated in FIG. 14, the printed material may not include the time-series information print area 122 a and the risk information print area 123 a, and confirmation of the related information 121 using the display device 30 may be performed. It may be a notice for prompting a health care worker.

  As described above, according to the biological information monitoring server 10 of the present embodiment, the state information of the subject is transmitted to the display device 30 for medical personnel in a state associated with the identification information of the subject. The state information can be transmitted to the medical device printing device 40 or the audio output device 50 without being associated with the identification information. Accordingly, it is possible to more reliably notify the medical staff of the state information that is not associated with the identification information of the subject by printed matter or sound, and to cause the medical staff who has received the notification to operate the display device 30. Thus, it is possible to check the state information associated with the identification information of the subject while ensuring confidentiality. Therefore, it is possible to improve confidentiality while reducing the possibility that the medical staff will fail to monitor the status information of the subject.

  According to the biological information monitoring server 10 of the present embodiment, the time series information 122 indicating the time series change of the state information of each of the plurality of subjects is included as the information transmitted to the printing apparatus 40 or the audio output apparatus 50. be able to. Accordingly, the medical staff who has received the notification by printed matter or voice can determine the presence or absence of a high-risk subject, for example, based on the time-series information 122. Therefore, identification of the subject using the display device 30 is possible. The urgency can be determined before checking the status information associated with the information.

  According to the biological information monitoring server 10 of the present embodiment, the risk information 123 indicating the degree of risk of each of a plurality of subjects can be included as information transmitted to the printing device 40 or the audio output device 50. Accordingly, the medical staff who has received the notification by printed matter or voice can more reliably determine the presence or absence of the high-risk subject, and therefore the state associated with the identification information of the subject using the display device 30 Before confirming the information, the urgency can be determined more reliably.

  According to the biological information monitoring server 10 of this embodiment, it is determined that there is a high-risk subject, and after transmitting the state information to the printing device 40 or the audio output device 50, browsing from the display device 30 is performed. When the request is not received for a predetermined period, the printing apparatus 40 or the audio output apparatus 50 can be notified again. Accordingly, when there is a high urgency for the medical staff to confirm the state information associated with the identification information of the subject, it is possible to repeatedly notify and prompt confirmation of the information.

  The present invention is not limited to the configuration specified in each of the above-described embodiments, and various modifications can be made without departing from the contents described in the claims. For example, the functions included in each component, each step, etc. can be rearranged so that there is no logical contradiction, and multiple components, steps, etc. can be combined or divided into one It is.

  In the biological information monitoring process shown in FIG. 7, the biological information monitoring server 10 authenticates whether the operator of the display device 30 is the medical worker himself / herself after receiving the browsing request in the process of step S104. Only when the authentication is correctly performed, the process may proceed to the process of step S105. Examples of the authentication include biometric authentication such as fingerprint and password authentication. Thereby, confidentiality can be improved more.

  In the biological information monitoring process illustrated in FIG. 7, the biological information monitoring server 10 includes authentication information such as a password in the information transmitted in the process of step S103, and after receiving the browsing request in the process of step S104, Only when the authentication information is transmitted from the display device 30, the operator of the display device 30 may determine that the operator is the medical worker himself and proceed to the process of step S105. Thereby, confidentiality can be further improved.

  In the biological information monitoring process shown in FIG. 7, the biological information monitoring server 10 includes the state information from the subject who has been set as needing observation by the medical staff in the state information received in the process of step S201. In some cases, or when there is a reaction request from the subject via the biological information acquisition device 20 or the like, the processing in step S109 may be executed and the printing device 40 or the audio output device 50 may be notified again.

  The present disclosure relates to a biological information monitoring server, a biological information monitoring system, and a biological information monitoring method.

1: Biological information monitoring system 10: Biological information monitoring server 11: Communication unit 12: Storage unit 121: Related information 121b: Related information display area 122: Time series information 122a: Time series information printing area 123: Risk information 123a: Risk information Print area 13: Control unit 14: Timekeeping unit 20: Biometric information acquisition device 21: Communication unit 22: Biometric information acquisition unit 23: Storage unit 24: Control unit 30: Display device 31: Communication unit 32: Display unit 33: Accept operation Unit 34: Storage unit 35: Control unit 40: Printing device 41: Communication unit 42: Printing unit 50: Audio output device 51: Communication unit 52: Audio output unit 100: Whereabouts of medical workers

Claims (8)

A communication unit for receiving the condition information of the subject and the identification information of the subject from the outside;
A storage unit;
A control unit that associates and stores the state information and the identification information in the storage unit,
The control unit uses the communication unit to transmit the state information to an external display device in a state associated with the identification information.
The control unit further uses the communication unit to transmit the status information to an external printing device or an external audio output device in a state not associated with the identification information.   The control unit stores time-series information indicating time-series changes in the state information of each of a plurality of subjects in the storage unit, and using the communication unit, the time-series information is used as the state information. The biological information monitoring server according to claim 1, wherein the biological information monitoring server is transmitted to a printing device or the audio output device.   The control unit calculates risk information indicating a degree of risk of each of the plurality of subjects based on the state information of the plurality of subjects, and uses the communication unit to convert the risk information into the state information. The biological information monitoring server according to claim 2, which is transmitted to the printing apparatus or the voice output apparatus. The controller is
After transmitting the status information to the printing device or the audio output device using the communication unit, when receiving a browsing request from the display device, the status information is transmitted to the display device,
Based on the risk information of each of the plurality of subjects, determine the presence or absence of high-risk subjects,
It is determined that there is the high-risk subject, and the status information is transmitted to the printing device or the audio output device using the communication unit, and then the browsing request from the display device is transmitted for a predetermined period. The biological information monitoring server according to claim 3, wherein, when not received, the communication unit is used to notify the printing apparatus or the audio output apparatus again.   The control unit transmits the status information to the display device when receiving a browsing request from the display device after transmitting the status information to the printing device or the audio output device using the communication unit. The biological information monitoring server according to any one of claims 1 to 3.   The biological information monitoring server according to claim 5, wherein when the browsing request from the display device is not received for a predetermined period, the control unit notifies the printing device or the audio output device again using the communication unit. . A biological information acquisition device that acquires the state information of the subject and transmits the state information together with the identification information of the subject;
A server that stores the state information and the identification information associated with each other received from the biological information acquisition device;
A display device for outputting display contents based on the received information;
A printing apparatus that generates printed matter based on the received information, or an audio output apparatus that outputs audio based on the received information,
The server transmits the state information to the display device in a state associated with the identification information;
The biological information monitoring system, wherein the server transmits the state information to the printing device or the audio output device in a state not associated with the identification information. A biological information monitoring method executed by a biological information monitoring server,
Receiving from the outside the state information of the subject and the identification information of the subject;
Storing the state information and the identification information in association with each other;
Transmitting the state information to an external display device in a state associated with the identification information;
Transmitting the status information to an external printing device or an external audio output device as information not associated with the identification information.

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