JP2019087269A - Input unit, biological information monitor and biological information system - Google Patents

Abstract

To provide an input unit, a biological information monitor and a biological information system capable of changing the settings of a biological information monitor while keeping visibility of biological information.SOLUTION: An input unit 10 transmits a first coordinate according to a move through operation of an input unit 12 to a biological information monitor 20 and, if specific operation is performed through the input unit 12, transmits occurrence of the specific operation to the biological information monitor 20. The biological information monitor 20 displays biological information on a subject in a display unit 25 and displays a cursor on a coordinate corresponding to the first coordinate in the display unit 25. The biological information monitor 20 transmits setting screen information to the input unit 10 on the basis of a display coordinate of the cursor if the specific operation is performed. The input unit 10 displays a setting screen of the biological information monitor 20 on the basis of the setting screen information received from the biological information monitor 20 when the biological information monitor 20 is displaying the biological information in the display unit 25.SELECTED DRAWING: Figure 8

Description

  The present invention relates to an input unit, a biological information monitor, and a biological information system.

  Recent biological information monitors measure and display various vital signs (for example, blood pressure, arterial oxygen saturation, body temperature, respiration, electrocardiogram, heart rate, etc.). Therefore, operations such as a hard key, a push switch, and a trim knob are performed in order to accurately access information required by a doctor or the like.

  By the way, the biological information monitor is used not only in a hospital room but also in various places such as an operation room and an ICU. When the biological information monitor is used in the operation room or the ICU, the biological information monitor is often installed in a place where the operator (medical staff) can not easily reach. Even in this case, the operator had to operate the biological information monitor manually, and the operability was extremely bad.

  On the other hand, an input unit placed by the patient may be used. The input unit is a separate housing from the biological information monitor, and may have a hard key for operating the biological information monitor. However, although the hard keys of the input unit are excellent in operability, their functions are limited.

  In addition, in patent document 1, the measurement system of the blood oxygen concentration which has a display (separate display) different from a measuring device main body is disclosed. On the display, a biological waveform or the like similar to that of the measuring device main body is displayed (Patent Document 1 etc.). However, the system of Patent Document 1 does not assume that the separate display described above is used to change the setting of the measuring device. Therefore, the operability can not be improved at the time of use in the above-mentioned operation room or the like.

US Patent Application Publication No. 2013/0225952

  In any of the above operations (operation using the operation panel of the biological information monitor main unit, operation using the input unit), the setting screen window is displayed on the display of the biological information monitor main unit while detailed settings are performed. Is displayed. When the setting screen window is displayed, there is a problem that the visibility of the measurement value and the biological waveform of the subject is very bad (or completely invisible).

  That is, in the above-described technology, there is a problem that the setting change of the biological information monitor can not be performed while securing the visibility of the biological information.

  The present invention has been made in view of the above problems, and it is an object of the present invention to provide an input unit, a biological information monitor, and a biological information system that can change the setting of the biological information monitor while securing the visibility of biological information. It is the main purpose.

One aspect of the biological information system according to the present invention is
A biometric information system having a biometric information monitor and an input unit, wherein
The input unit transmits, to the biological information monitor, first coordinates corresponding to movement by the operation of the input unit, and when the specific operation is performed via the input unit, generation of the specific operation is monitored by the biological information monitor. Send to
The living body information monitor displays living body information based on a living body signal of a subject and displays a cursor at coordinates corresponding to the first coordinates, and when the occurrence of the specific operation occurs, display coordinates of the cursor Sending setting screen information on setting operation to the input unit based on
The input unit is configured to display the setting screen of the biological information monitor based on the setting screen information received from the biological information monitor when the biological information monitor is displaying the biological information.

One aspect of the input unit according to the present invention is
A display unit for displaying a setting screen of a biological information monitor while displaying biological information;
An input unit that receives an input of setting information to the biological information monitor;
A communication unit for transmitting setting information input to the input unit to the biological information monitor;
The communication unit transmits coordinate information according to a moving operation of the input unit to the biological information monitor, and transmits a generation of the specific operation to the biological information monitor when a specific operation is performed on the input unit. Receiving the transmitted coordinate information and setting screen information corresponding to the specific operation;
The display unit is configured to display a screen for changing the setting of the biological information monitor based on the setting screen information when the biological information monitor is displaying the biological information.

Further, one aspect of the biological information monitor according to the present invention is
A communication unit for receiving the biological signal of the subject and the setting information from the input unit;
A display unit for displaying biological information of the subject;
The biological signal is converted to the biological information to perform display control on the display unit, and when the setting information is input, the setting of the own device is performed in the background while the biological information is displayed on the display unit. A control unit that makes changes;
Equipped with
The communication unit receives coordinate information from the input unit and operation information indicating a specific operation performed.
The control unit controls the biological information to be continuously displayed on the display unit, and controls the cursor to be displayed at the coordinates corresponding to the coordinate information, and the display coordinates of the cursor and the operation information Get setting screen information related to setting of own device based on
The communication unit transmits the setting screen information to the input unit.

  The system described above, the input unit and the biological information monitor remotely control the cursor of the biological information monitor from the input unit, and the display coordinates of the cursor on the biological information monitor side while continuing the display of the biological information on the biological information monitor The setting corresponding to the display content of can be performed from the input unit side.

  The present invention can provide an input unit, a biological information monitor, and a biological information system which can perform setting change while securing the visibility of biological information.

FIG. 2 is a view showing a usage image of the biological information system according to the first embodiment. FIG. 1 is a block diagram showing a configuration of an input unit 10 according to a first embodiment. FIG. 1 is a block diagram showing a configuration of a biological information monitor 20 according to a first embodiment. FIG. 6 is a view showing an example of a display screen displayed on the display input unit 12 according to the first embodiment. 5 is a flowchart showing a flow of a series of processes from transmission of setting information from the input unit 10 according to the first embodiment. FIG. 6 is a view showing an example of a display screen displayed on the display input unit 12 according to the first embodiment. It is a flowchart which shows display control of the control part 22 concerning the modification 2. FIG. It is a figure which shows the operation | movement image of the modification 3. FIG. 15 is a flowchart illustrating an operation example of Modification 3;

Embodiment 1
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a view showing a usage image of the biological information system 1 according to the present embodiment. The biometric information system 1 includes an input unit 10 and a biometric information monitor 20.

  The biological information monitor 20 can be placed at a position separated from the input unit 10 and the subject P. For example, the biological information monitor 20 can be hung on the ceiling of the operation room or placed on a shelf. The biological information monitor 20 acquires the biological signal of the subject P via the input unit 10, and converts the biological signal into visible biological information (for example, waveforms and measured values of various biological parameters). Then, the biological information monitor 20 performs display of biological information and notification by an alarm.

  Although the placement place is not particularly limited, the input unit 10 is mainly installed near the subject P and at a position where the operator (medical staff) can easily operate. The input unit 10 acquires a biological signal from a sensor group (cuff, probe, etc.) attached to each part of the subject P. The operator uses the input interface of the input unit 10 (which is the same as the display input unit 12 described later, preferably a touch panel) to change various settings for the biological information monitor 20. The input unit 10 transmits setting information to the biological information monitor 20 which is the connection destination. Here, the setting information is information indicating an instruction for changing various settings of the biological information monitor 20.

  Here, while the input unit 10 is being operated, and while the setting information from the input unit 10 is being reflected, the biological information monitor 20 is configured to receive the biological information (measured values and waveforms of various parameters) of the subject P. Continue to display. That is, the biological information monitor 20 changes the setting while displaying the biological information of the subject P.

  The operation and configuration of the biometric information system 1 will be described in more detail with reference to FIGS. 2 and 3. FIG. 2 is a block diagram showing an internal configuration of the input unit 10. As shown in FIG. FIG. 3 is a block diagram showing an internal configuration of the biological information monitor 20. As shown in FIG.

  First, the input unit 10 will be described with reference to FIG. The input unit 10 includes a signal acquisition unit 11, a display input unit 12, a communication unit 13, a control unit 14, and a storage unit 15.

  The signal acquisition unit 11 acquires biological signals (electrocardiogram signals, pulse wave signals, and the like) of the subject P from various sensors (for example, disposable electrodes, SpO2 probes, and the like) attached to the subject P. The various sensors attached to the subject P may be equivalent to those used in a general biological information monitor.

  The display input unit 12 functions as a display unit that displays information for the operator, and also functions as an input unit that receives an input from the operator. The display input unit 12 may be, for example, a general touch panel. The display input unit 12 mainly displays a setting screen of the biological information monitor 20. The operator sets the biological information monitor 20 with reference to the setting screen.

  The communication unit 13 transmits and receives data to and from the biological information monitor 20. For example, the communication unit 13 transmits an operation of the display input unit 12 (that is, setting information for the biological information monitor 20) to the biological information monitor 20. The communication unit 13 also receives the current setting state transmitted from the biological information monitor 20. The communication unit 13 is configured of hardware (circuit or the like) on which a wired communication function or a wireless communication function is implemented and software. That is, the input unit 10 and the biological information monitor 20 may transmit and receive data by wired communication or wireless communication. Communication processing of the communication unit 13 is controlled by the control unit 14.

  The control unit 14 is a processing unit that controls the input unit 10. The control unit 14 performs various controls of the input unit 10 by reading out various programs from the storage unit 15 and executing them. Of course, part of the control processing may be implemented by hardware.

  The control processing of the control unit 14 also includes display control of the display input unit 12. When the communication unit 13 receives the setting state from the biological information monitor 20, the control unit 14 can customize the display screen according to the setting state and cause the display input unit 12 to display the display screen. An example of the display control will be described later with reference to FIG.

  The storage unit 15 is a storage device that stores various data of the input unit 10. For example, the storage unit 15 may be a hard disk, or may be a storage device (for example, a USB memory or the like) that is removable from the input unit 10.

  Subsequently, the configuration of the biological information monitor 20 will be described with reference to FIG. The biological information monitor 20 displays measured values and measured waveforms of various biological parameters (blood pressure, electrocardiogram, heart rate, respiratory waveform, body temperature, etc.) based on the biological signal input through the input unit 10. The biological information monitor 20 includes a communication unit 21, a control unit 22, a speaker 23, a storage unit 24, and a display input unit 25.

  The communication unit 21 performs data transmission and reception with the input unit 10. For example, the communication unit 21 receives a biological signal, setting information, and the like from the input unit 10. Here, the setting information is various information for changing the setting of the biological information monitor 20 as described above. The communication unit 21 also transmits the current setting state of the biological information monitor 20 (what setting is being performed) to the input unit 10. The communication unit 21 includes hardware (circuits and the like) and software in which a wired communication function or a wireless communication function is implemented. The communication process of the communication unit 21 is controlled by the control unit 22.

  The control unit 22 is a processing unit that performs various controls of the biological information monitor 20. The control unit 22 performs various controls of the biological information monitor 20 by reading and executing various programs from the storage unit 24. Of course, part of the control processing may be implemented by hardware.

  The control processing by the control unit 22 includes conversion of a biological signal into various types of biological information (measurement values and measured waveforms of various parameters), display control of the biological information monitor 20 (screen control of the display input unit 25), and an input unit The setting process of the own apparatus according to the setting information from 10, the setting process to the control part 14 in the input unit 10, measurement control, etc. are included. Further, the control unit 22 outputs an alarm sound through the speaker 23 when the calculated various types of biological information are abnormal values.

  The speaker 23 outputs various alarm sounds and notification sounds according to the control unit 22. The storage unit 24 is a storage device that stores various data of the biological information monitor 20. The storage unit 24 may be, for example, a hard disk built in the biological information monitor 20, or may be a storage device (for example, a USB memory or the like) that is removable from the biological information monitor 20.

  The display input unit 25 functions as a display unit that displays information for the operator, and also functions as an input unit that receives an input from the operator. For example, the display input unit 25 may be a general touch panel. Here, the display input unit 25 mainly displays measured values or measured waveforms of various biological parameters related to the subject P. As described above, the input unit 10 transmits setting information of the biological information monitor 20. The display input unit 25 also displays measured values and measured waveforms of various biological parameters related to the subject P during the setting process according to the setting information from the input unit 10. This display control will be described later with reference to FIG.

  Hereinafter, display screens and operation control of the input unit 10 and the biological information monitor 20 will be described in more detail.

  First, the operation of the basic biometric information system 1 will be described with reference to FIG. FIG. 4 is a diagram showing an example of a display screen displayed on the display input unit 12 of the input unit 10. As shown in FIG. The display screen 30 in FIG. 4 is a setting screen for basic setup of the biological information monitor 20. The display screen 30 is provided with upper tabs (display tab 31, sound tab 32, recording tab 33, customization key tab 34, other tab 35) in the upper part of the screen. As described above, the input unit 10 is configured to display the setting screen of the biological information monitor 20. Therefore, the storage unit 15 in the input unit 10 stores a program in which a setting screen for the biological information monitor 20 is defined.

  The operator opens the tab for each setting by touching the upper tab with a finger or the like. In this example, since the display tab 31 is selected, display setting items 36 related to the display of the biological information monitor 20 are displayed. The operator selects a desired button in the display setting item 36 (for example, “unit display = ON”), and presses the transmission button 37. Thus, the communication unit 13 transmits setting information (“unit display = ON”) to the biological information monitor 20 via the control unit 14.

  The display screen 30 shown in FIG. 4 is merely an example of the setting screen of the biological information monitor 20 displayed on the display input unit 12, and other display screens for various biological parameters (SpO 2, electrocardiogram, etc.) and for patient management The setting screen or the like of can be displayed on the display input unit 12. Further, the trigger for data transmission is not limited to pressing of the transmission button 37, and may be associated with other operations.

  A flow of a series of processes from transmission of setting information from the input unit 10 will be described with reference to FIG. The communication unit 13 in the input unit 10 continuously transmits the biological signal acquired from the subject P to the biological information monitor 20 (S11). The communication unit 21 in the biological information monitor 20 receives a biological signal (S12). Then, the control unit 22 converts the biological signal into a biological waveform (such as an electrocardiogram) or a measurement value (such as a blood pressure value) and displays the result on the display input unit 25 (S12). This display process is continuously performed while the subject P is the measurement target (S12).

  When the communication unit 13 in the input unit 10 instructs to transmit setting information (setting to the biological information monitor 20, for example, “unit display = ON”) by the operation of the display input unit 12, the setting information is input. It transmits to the living body information monitor 20 (S13). The communication unit 21 in the biological information monitor 20 receives setting information in addition to the biological signal (S14). Then, the control unit 22 changes the setting of the biological information monitor 20 (own apparatus) using the received setting information (S14). At this time, the control unit 22 continues to display a biological waveform (such as an electrocardiogram) or a measurement value (such as a blood pressure value) (S12).

  Thus, the setting change of the biological information monitor 20 is executed while the biological information monitor 20 displays the biological waveform (such as an electrocardiogram) and the measurement value (such as the blood pressure value).

  Although the configuration of FIG. 5 is the basic operation of the input unit 10 and the biological information monitor 20, various modifications as described below are possible. Hereinafter, modified examples will be described.

(Modification 1)
As a first modification, an example in which setting information can be transmitted while confirming the current setting state in the display input unit 12 of the input unit 10 will be described. The control unit 22 in the biological information monitor 20 transmits the current setting state of the biological information monitor 20 to the input unit 10 via the communication unit 21. Here, the setting state is the content currently set in the biological information monitor 20, and is, for example, the following information.
[Display = [Short trend = OFF, Sweep speed = 50 ...], Sound = [...], ...]

  The transmission timing of the setting state may be any timing, for example, when the power of the biological information monitor 20 is turned on, every hour, when the setting change is completed, or the like.

  The communication unit 13 of the input unit 10 receives the setting state from the biological information monitor 20. The received setting state of the biological information monitor 20 is stored in the storage unit 15 (data of the setting state stored in the storage unit 15 is overwritten). The control unit 14 reads the setting state of the biological information monitor 20 from the storage unit 15 and generates a display screen to be displayed on the display input unit 12 according to the setting state. That is, the display input unit 12 displays a setting screen based on the setting state of the biological information monitor 20. An example of a display screen according to the setting state is shown in FIG.

  In FIG. 6, the currently set values are shown in white. Thus, the operator can change the setting after recognizing what the current setting state of the biological information monitor 20 is. Note that FIG. 6 is merely an example, and any other display screen may be used as long as it can be used to distinguish between currently set values and non-current values.

  Preferably, the reverse display of the color is switched according to the operation of the operator from the display of FIG. For example, when “unit display = ON” is selected as shown in FIG. 6 and the operator selects “OFF”, the background of the “ON” interface becomes white (characters are black) and the “OFF” interface is It is preferable to switch to white letters.

(Modification 2)
Further, the control unit 22 in the biological information monitor 20 controls the display of the display input unit 25 in accordance with the operated terminal (that is, whether the display input unit 12 is operated or the display input unit 25 is operated). You may do so. Hereinafter, the control of the control unit 22 will be mainly described.

  In the present modification, the operator can also operate the display input unit 25 to change the setting of the biological information monitor 20. That is, in addition to the display input unit 12, the operator performs an operation related to setting from the display input unit 25. FIG. 7 is a flowchart showing display control of the control unit 22 according to the present modification.

  The control unit 22 detects an input of setting information (S21). Here, the setting information is input from the display input unit 25 or is input via the communication unit 21 by the operation of the display input unit 12. The control unit 22 determines whether the transmission source of the detected setting information is the input unit 10 (S22). That is, the control unit 22 determines whether the setting information is input by the operation of the display input unit 25 (or the operation remote controller of the biological information monitor 20) (S22).

  When the setting information is an input from the input unit 10 (S22: Yes), the control unit 22 controls the biological waveform (electrocardiogram etc.) or the measured value (blood pressure value etc.) as in the control (S12, S14) shown in FIG. The setting is changed in the background while displaying (S23).

  When the setting information is not input by the input unit 10, in other words, when the input operation of the display input unit 25 is performed (S22: No), the control unit 22 controls the biological waveform (electrocardiogram etc.) or the measured value (blood pressure value etc.) A setting screen (FIG. 4) equivalent is displayed on the display input unit 25 so as to be superimposed on the display screen (S24).

  When the display input unit 25 is operated as described above, the operator is in the immediate vicinity of the biological information monitor 20. Therefore, by displaying the setting screen on the display / input unit 25 and quickly making the setting, the ease of setting change can be secured.

(Modification 3)
Hereinafter, a third modification will be described. The present variation is characterized in that the cursor display of the display input unit 12 and the cursor display on the display input unit 25 move in synchronization with each other.

  First, the operation image of this modification will be described with reference to FIGS. 8A and 8B. First, FIG. 8A is referred to. The operator operates the display input unit 12 of the input unit 10 to display a mouse cursor on the display input unit 12. In synchronization with this, the mouse cursor is displayed on the display input unit 25 on the biological information monitor 20 at the corresponding position (the position corresponding to the operation of the mouse cursor on the display input unit 12). For example, when the display of the mouse cursor is started, the mouse cursor displayed on the display input unit 25 may be displayed at the center of the screen. The operator operates the display input unit 12 while referring to the display input unit 25 on the biological information monitor 20 to move the mouse cursor position. Here, the mouse cursor on the display input unit 12 and the mouse cursor on the display input unit 25 move in synchronization with each other.

  Further, the position of the mouse cursor displayed on the display input unit 25 may be set according to the relative movement amount of the mouse cursor displayed on the display input unit 12. For example, the position of the finger placed on the display input unit 12 may be used as a start point, and the position of the mouse cursor on the display input unit 25 may be moved according to the movement amount moved from there. That is, the mouse cursor of the display input unit 25 may be displayed so as to correspond to the operation of the display input unit 12.

  It is assumed that the operator double-clicks the display input unit 12 (specific operation) in a state where the mouse cursor is disposed on the measurement value of the blood pressure of the display input unit 25. In response to this, the screen display switches to the state of FIG. 8 (B). In FIG. 8B, the display input unit 25 of the biological information monitor 20 displays the measured value of the biological information and the biological waveform. On the other hand, on the display input unit 12 on the input unit 10, a blood pressure related setting screen (a display screen related to the click position) is displayed.

  Subsequently, an implementation example of the operation described in FIG. 8A and FIG. 8B will be described with reference to FIG. First, the control unit 14 displays a mouse cursor on the display input unit 12 in response to pressing of a specific button of the operator or the like (S31). At the same time, the control unit 14 notifies the biological information monitor 20 via the communication unit 13 that the display of the mouse cursor has started (S32).

  The control unit 22 causes the mouse cursor to be displayed on the display screen of the measurement value and the waveform in response to the notification (S33). The control unit 14 detects cursor operation information (coordinates and the like) each time the position of the mouse cursor moves. Then, the communication unit 13 transmits cursor operation information to the biological information monitor 20 (S32). The control unit 22 displays the mouse cursor at the corresponding position on the display input unit 25 according to the received cursor operation information (coordinates etc.) (S33).

  When a specific operation is performed (for example, when a double click is performed), the control unit 14 notifies the mouse cursor operation via the communication unit 13 (S34). The control unit 22 receives the notification via the communication unit 21. The control unit 22 specifies which operation has been performed, based on the display position of the mouse cursor on the display input unit 25 when the specific operation is performed (S35). This specification may be made from the relationship between the display content displayed on the display input unit 25 and the display coordinates. When it is specified that some setting (setting regarding biological parameters, setting regarding subject P, etc.) is specified, the control unit 22 uses the communication unit 21 to display setting screen information (which setting screen is displayed on the input unit 10, etc. And is also referred to as setting screen information)) (S36). The control unit 14 receives the information of the setting screen via the communication unit 13. The control unit 14 displays the setting screen on the display input unit 12 according to the received information on the setting screen (S37). Then, the display input unit 25 continues to display normal measurement values and a biological waveform (S38).

  On the other hand, when some control in the biological information monitor 20 is designated (an instruction to start measurement of NIBP or the like, etc.), the control unit 22 executes the designated control (S39). When the control on the input unit 10 side is also required (for example, in the case of boosting the cuff attached to the subject P via the input unit 10), the control unit 22 notifies the input unit 10 of the control content ( S40). The control unit 14 performs control according to the content of the notification (S41).

  Since the display of the mouse cursor is synchronized in this way, the operator can easily operate the mouse cursor while looking at the waveform display screen even when away from the biological information monitor 20.

  Further, as described above, the setting screen corresponding to the coordinates of the operation position of the mouse cursor is displayed on the display input unit 12. Thereby, it is possible to operate the input unit 10 as if it were touching the screen of the biological information monitor 20. Of course, cursors other than the mouse cursor and other display effects may be synchronized.

  Subsequently, the effects of the biological information system 1 according to the present embodiment will be described. The input unit 10 includes a display input unit 12 that displays a setting screen of the biological information monitor 20 and receives an input. Then, the communication unit 13 transmits the setting information input via the display input unit 12 to the biological information monitor 20. As a result, the setting screen need not be displayed on the display input unit 25 of the biological information monitor 20, and the setting can be changed while securing the visibility of the biological information monitor 20.

  Further, since the display input unit 12 in which the input unit and the display unit are integrated can be operated, the operator can perform the setting process more simply.

  Further, focusing on the biological information monitor 20, the biological information monitor 20 performs setting change in the background using setting information input from the input unit 10. That is, the living body information monitor 20 changes the setting in the background while displaying the measured values and the living body waveform. Thus, the operator (medical staff) can quickly change the setting while grasping the state of the subject P.

  As mentioned above, although the invention made by the present inventor was concretely explained based on an embodiment, the present invention is not limited to the embodiment mentioned already, A various change in the range which does not deviate from the gist It goes without saying that it is possible.

  For example, although the display input unit 12 functions as a configuration in which the input unit and the display unit are integrated in the above configuration, the input unit (for example, a mouse or a keyboard) and the display unit (display for display) are separately provided. Even in this case, the setting can be changed while securing the visibility of the biological information monitor 20. In the above-described configuration, the display input unit 25 functions as a configuration in which the input unit and the display unit are integrated, but the biological information monitor 20 has separate input units (for example, a mouse and a keyboard) and a display unit (display for display) The configuration may be provided as

  In addition, the configuration may be such that the biological information monitor 20 directly acquires a biological signal from the subject P. That is, the biological information monitor 20 may be configured to have a cable connected to various sensors (SpO 2 probe, electrocardiogram electrode, etc.).

  A part of the process of the control unit 14 (display control of the display input unit 12 and the like) and the process of the communication unit 13 described above can be realized as a computer program that operates in the input unit 10. Similarly, part of the processing of the control unit 22 (display control of the display input unit 25 and the like) and the communication unit 21 can be realized as a computer program that operates in the biological information monitor 20.

  Here, the program can be stored using various types of non-transitory computer readable media and supplied to a computer. Non-transitory computer readable media include tangible storage media of various types. Examples of non-transitory computer readable media are magnetic recording media (eg flexible disk, magnetic tape, hard disk drive), magneto-optical recording media (eg magneto-optical disk), CD-ROM (Read Only Memory), CD-R, CD-R / W, semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (random access memory)) are included. Also, the programs may be supplied to the computer by various types of transitory computer readable media. Examples of temporary computer readable media include electrical signals, light signals, and electromagnetic waves. The temporary computer readable medium can provide the program to the computer via a wired communication path such as electric wire and optical fiber, or a wireless communication path.

DESCRIPTION OF SYMBOLS 1 biometric information system 10 input unit 11 signal acquisition part 12 display input part (input part, display part)
13 communication unit 14 control unit 15 storage unit 20 biological information monitor 21 communication unit 22 control unit 23 speaker 24 storage unit 25 display input unit (input unit, display unit)
P patient

Claims (4)

A biometric information system having a biometric information monitor and an input unit, wherein
The input unit transmits, to the biological information monitor, first coordinates corresponding to movement by the operation of the input unit, and when the specific operation is performed via the input unit, generation of the specific operation is monitored by the biological information monitor. Send to
The living body information monitor displays living body information based on a living body signal of a subject and displays a cursor at coordinates corresponding to the first coordinates, and when the occurrence of the specific operation occurs, display coordinates of the cursor Sending setting screen information on setting operation to the input unit based on
The input unit displays a setting screen of the biological information monitor based on the setting screen information received from the biological information monitor when the biological information monitor is displaying the biological information. A display unit for displaying a setting screen of a biological information monitor while displaying biological information;
An input unit that receives an input of setting information to the biological information monitor;
A communication unit for transmitting setting information input to the input unit to the biological information monitor;
The communication unit transmits coordinate information according to a moving operation of the input unit to the biological information monitor, and transmits a generation of the specific operation to the biological information monitor when a specific operation is performed on the input unit. Receiving the transmitted coordinate information and setting screen information corresponding to the specific operation;
The input unit displays the screen for changing the setting of the biological information monitor based on the setting screen information when the biological information monitor is displaying the biological information.   The input unit according to claim 2, wherein the display unit and the input unit are integrated as a touch panel. A communication unit for receiving the biological signal of the subject and the setting information from the input unit;
A display unit for displaying biological information of the subject;
The biological signal is converted to the biological information to perform display control on the display unit, and when the setting information is input, the setting of the own device is performed in the background while the biological information is displayed on the display unit. A control unit that makes changes;
Equipped with
The communication unit receives coordinate information from the input unit and operation information indicating a specific operation performed.
The control unit controls the biological information to be continuously displayed on the display unit, and controls the cursor to be displayed at the coordinates corresponding to the coordinate information, and the display coordinates of the cursor and the operation information Get setting screen information related to setting of own device based on
The biological information monitor, wherein the communication unit transmits the setting screen information to the input unit.

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