TWI766888B - Living body information display device and living body information display control device - Google Patents

Abstract

[Problem] To provide a living body information display device that generates printed data in a general-purpose format that can be printed even by an external general-purpose printing device. [Solution] A living body information display device includes a living body information data generating unit (200), a background data generating unit (201), a living body information page screen generating unit (202), an information holding unit (203), and A print data generation unit (204). The living body information data generating unit (200) generates living body information data including the living body information waveform. A background data generating unit (201) generates background data arranged in the background of the biological information waveform. A living body information page screen generation unit (202) generates a living body information page screen which is a page screen on which the above-mentioned living body information data and background data are arranged. The print data generation unit (204) uses the whole or a part of the living body information page screen on which the living body information data and the background data are arranged as the print data in a general-purpose format that does not depend on the platform of a specific device to produce it.

Description

Living body information display device and living body information display control device

[0001] The present invention relates to a living body information display device and a living body information display control device for monitoring vital signs.

[0002] Electrocardiographic electrodes are attached to a living body, and an electrocardiogram is created based on an electrocardiographic signal obtained therefrom. The electrocardiograph imports the electrocardiographic signal measured from the subject through its own input terminal into the interior. After that, the ECG signal is amplified by the amplifying circuit inside the electrocardiograph, and then supplied to the A/D converter. The ECG signal converted into a digital signal by this A/D converter is imported into the CPU of the electrocardiograph and stored in the buffer memory in the RAM. [0003] In the prior art, the electrocardiograph has a built-in thermal printer. A motor control circuit of the thermal printer is connected to the CPU of the electrocardiograph, and the stepper motor for feeding paper of the thermal printer is driven by this motor control circuit. In conjunction with the driving of the stepping motor, the ECG signal is read out from the buffer memory at an appropriate timing, and the ECG waveform signal (printing signal) reproduced by this processing is output to the heat sink. Feeling head. [0004] The thermal head is used for printing 750 dots (equivalent to the length of a line) at a time, for example, in a direction orthogonal to the feeding direction. As a result, the electrocardiographic waveform is continuously recorded on the recording paper fed out by the stepping motor (for example, refer to Patent Document 1). [PRIOR ART DOCUMENT] [PATENT DOCUMENT] [0005] [PATENT DOCUMENT 1] JP-A-05-003859

[Problems to be Solved by the Invention] [0006] The above-mentioned electrocardiograph prints electrocardiograms from a built-in dedicated thermal printer, so if a malfunction or problem occurs at the thermal printer , the electrocardiogram cannot be printed until the thermal printer is exchanged and repaired. In addition, the configuration of printing from a dedicated thermal printer results in high maintenance and repair costs. The present invention, in view of such a situation, intends to provide a living body information display device and a living body information display control device for generating printed data in a general-purpose format that can be printed even by an external general-purpose printing device device. [Means for Solving the Problems] [0008] The present invention is made to solve the above-mentioned problems, and the biological information display device of the present invention is for displaying biological information including waveforms related to biological information on the display. A living body information display device for waveform information of living body information is characterized by comprising: a living body information page screen generating unit that generates a living body information page screen which is a page screen on which the living body information data is displayed; and print data The generating unit generates the whole or a part of the above-mentioned living body information page screen as a general-purpose printed data that does not depend on a platform of a specific device. In addition, in the living body information display device of the present invention, it is provided with the following characteristics: that is, it is provided with: a background data generating unit that generates background data arranged at the background of the above-mentioned living body information waveform and the print data generating unit generates the print data in a state in which the background is arranged at the biological information waveform. In addition, in the living body information display device of the present invention, the system has the following characteristics: that is, the above-mentioned background is a complex number extending in the vertical axis direction and the horizontal axis direction of the above-mentioned living body information waveform. grid line. In addition, in the living body information display device of the present invention, it is provided with the following characteristics: that is, the above-mentioned printed data is also displayed on the display that does not depend on the platform of the specific device. Display data in general form. Also, in the living body information display device of the present invention, the system is provided with the following characteristics: that is, the above-mentioned printed data is a portrait file or a PDF file or an XPS file as a general-purpose form. . In addition, in the living body information display device of the present invention, the system is provided with the following characteristics: that is, the system is provided with: an anti-aliasing processing unit that applies anti-aliasing (anti-aliasing) to the above-mentioned living body information waveform. deal with. [0014] Furthermore, in the biological information display device of the present invention, the following features are provided: that is, a resolution processing unit is provided for adjusting the resolution of the biological information waveform. [0015] Furthermore, in the living body information display device of the present invention, the following features are provided: that is, a data transmission unit is provided for transmitting the above-mentioned printed data to the outside. In addition, the biological information display control device of the present invention is a biological information display control device for causing a display to display data including biological information that is a biological information waveform related to a waveform of biological information, and is characterized in that it is provided with There are: a living body information page screen generation unit that generates a living body information page screen that is a page screen on which the above-mentioned living body information data is displayed; and a printed data generation unit that generates all or a part of the above-mentioned living body information page screen as a parallel. It is generated from a generic form of printed material that is not tied to a particular device's platform. [Effect of the Invention] [0017] According to the living body information display device and the living body information display control device of the present invention, it is possible to produce general-purpose printing that can be printed even by an external general-purpose printing device. Excellent effect of data.

Embodiments of the present invention will be described below with reference to the attached drawings. In addition, in the following, as the biological information display device in the embodiment of the present invention, a biological information screen is taken as an example for description, but other devices for displaying biological information are also included in the present invention. within the scope of the invention. [0020] <1. Overall Outline of Living Body Information Screen> Referring to FIG. 1, the living body information screen 1 in the embodiment of the present invention will be described. The living body information screen 1, as shown in FIG. 1(a), is mainly composed of a tablet-type computer with a touch panel display. The living body information screen 1 , as shown in FIG. 1( b ), is mounted on and supported by the support table 3 . [0021] The detection device interface 2, for example, is connected to the living body information detection device through the connection joint portion 2a. The living body information detection device detects the state of the living body related to the subject, and outputs the living body signal corresponding to the state. Examples of living body information detection devices include electrocardiographic electrodes for detecting the active potential of the heart, blood pressure detection devices for detecting blood pressure, thermometers for detecting body temperature, and A SpO2 detection device (eg, a pulse oximeter) that detects SpO2, and the like. [0022] At each of the living body information screen 1 and the detection device interface 2, for example, USB (Universal Serial Bus) terminals 1b and 2b are provided, and are connected via USB cables. In addition, the connection between the detection device interface 2 and the living body information screen 1 can also be used as a serial bus method such as IEEE1394, SCSI (SCSI ( A wired communication connection such as a parallel bus system such as Small Computer System Interface), or a wireless communication connection using RFID (Radio Frequency Identifier), NFC (Near Field Communication), Bluetooth (registered trademark), and the like. Also, the detection device interface 2, for example, as shown in FIG. [0023] Next, with reference to FIG. 2 , the configuration of the living body information screen 1 and the detection device interface 2 will be described. The living body information screen 1 includes, for example, a control unit 10 , a touch panel display 11 , a connection connector 12 , an antenna 13 , a speaker 14 , and a battery 15 . The control unit 10 is each controller in the living body information screen 1 . The control unit 10, for example, is provided with a CPU (Central Processing Unit) 101, a RAM (Random Access Memory) 102, a ROM (Read Only Memory) 103, a storage medium 104, a wireless communication interface 105, a wired communication interface 106, The operation input interface 107 , the display control unit 108 , the sound control unit 109 , and the light emission control unit 110 are operated. In addition, in FIG. 2, the interface is marked as I/F. [0025] The CPU 101 is a processor in charge of the entire body information screen 1, and uses the RAM 102 as a work area. In the ROM 103, for example, a program for activating the living body information screen 1 or other basic programs executed by the CPU 101 are written. The storage medium 104 is constituted by, for example, a solid state drive (SSD) or a flash memory. In the storage medium 104, for example, an operating system (OS) for realizing the basic operation of the living body information screen 1 and a program depending on the operating system are written. In addition, the storage medium 104 functions as a storage place for the supplied data. [0026] The wireless communication interface 105, for example, is used to perform conversion processing (modulation, demodulation), etc., of data sent and received by wireless communication between itself and an external device, and is connected to the antenna 13. connect. The antenna 13 receives the data sent from the outside and sends it to the wireless communication interface 105 . In addition, the antenna 13 transmits the data supplied from the wireless communication interface 105 to the outside. As the wireless communication interface 105 , for example, RFID, NFC, Bluetooth (registered trademark) or the like is used as an example. [0027] The wired communication interface 106, for example, is used to perform conversion processing and the like of data sent and received between itself and an external device through wired communication, and is connected to the connection connector 12. As the wired communication interface 106, for example, one using serial bus specifications such as USB can be cited, but it is not limited to this. The other wired communication interface 106 may be any interface using a serial bus method such as IEEE1394 or a parallel bus method such as SCSI. [0028] The operation input interface 107 is to transmit operations from the outside to the CPU 101. The display control unit 108 is a display device that causes the touch panel display 11 to perform a display in accordance with a command from the CPU 101 . The sound control unit 109 is a device that causes the speaker 14 to output sound in accordance with a command from the CPU 101 . The light-emitting control unit 110 is one that turns on and off the light-emitting units 16 and 17 in accordance with a command from the CPU 101 . The light emission control unit 110, for example, receives a report signal related to the living body information from the CPU 101, and causes both or one of the light emission units 16 and 17 to emit light. In addition, the light emission control unit 110, for example, receives a report release signal related to the living body information from the CPU 101, and turns off both or one of the light emission units 16 and 17, or in a state different from the above. to shine. [0029] The touch panel display 11 is the receiver of display and operation input. The above-mentioned acceptance of the operation input is realized by directly touching the display surface of the touch panel display 11 with a finger or the like. Examples of touch operations include gesture operations such as tap, double tap, scroll, pinch in, pinch out, and slide. Contains all other gesture operations. If a touch operation is performed, the operation input interface 107 transmits an operation signal corresponding to the touch operation to the CPU 101 . The battery 15 is a rechargeable storage battery, and supplies power to each part in the living body information screen 1 . In addition, it is desirable that the battery 15 be connected to an external power source so as to be rechargeable. [0030] The detection device interface 2 is connected to the living body information screen 1 via the connection line 2c. In addition, the detection device interface 2, for example, is provided with connectors adapted to the respective specifications of the plurality of living body information detection devices, and is connected with each of the living body information detection devices. On the other hand, the detection device interface 2 is used to perform specific processing on the living body information supplied from each of the plurality of living body information detection devices via the connection line 2c, so that the living body information screen 1 can process the information. the role of the interface. Specifically, the detection device interface 2, for example, is based on the living body information supplied from each of the plurality of living body information detection devices via the connecting line 2c to generate the information that can be processed by the living body information screen 1. The living body information is output to the living body information screen 1 . That is, the detection device interface 2 functions together with the living body information detection device as a measuring device for living body information. In addition, as the above-mentioned biological information that can be processed by the biological information screen 1, for example, an electrocardiographic signal corresponding to the active potential of the heart, heart rate, blood oxygen concentration, blood pressure, etc. can be listed as an example, However, the system is not limited to this, and other living body information is also included. The detection device interface 2 is connected to the living body information screen 1 through the wired communication connection mode or the wireless communication connection mode described above. The living body information detection device, as described above, for example, can enumerate the electrocardiographic electrode for detecting the active potential of the heart, the blood pressure detecting device for detecting the blood pressure, and the A thermometer for detecting body temperature, a SpO2 detecting device for detecting SpO2, etc. In addition, the above living body information detection device is only one example. In the present invention, the living body information detection device can also detect other living body signals from the subject. [0032] <2. Device functional block> Next, with reference to FIG. 3 , the functional structure of the living body information screen 1 will be described. The living body information screen 1 is for displaying the data including the living body information related to the waveform of the living body information (hereinafter referred to as the living body information waveform) on the display, and has a living body information data generating unit 200 and a background data generating unit 201 , and living body information page screen generation unit 202, and information holding unit 203, and print data generation unit 204, and data transmission unit 205, and anti-aliasing processing unit 206, and resolution processing unit 207, and display unit 208, and printing The operation unit 210 , the display processing operation unit 211 , the data transmission operation unit 209 , and the touch panel display 11 . [0033] The living body information data generating unit 200 is for generating the living body information data including the living body information waveform. The biological information data generating unit 200, for example, generates biological information waveforms and the like based on the measurement data sent from the biological information measurement device through the measurement device interface 2 shown in FIG. 2 . [0034] The background data generating unit 201 is for generating background data arranged in the background of the living body information waveform. In addition, in the prior art, in the biological information waveform, for example, an electrocardiogram, was previously printed on a graph paper having a plurality of grid lines in the vertical and horizontal directions of the electrocardiogram. On the other hand, in the present embodiment, since it is printed on white paper, a plurality of ruled lines are included in the vertical axis direction and the horizontal axis direction in the background of the biological information waveform such as an electrocardiogram. The background data generating unit 201 generates a plurality of ruled lines extending in the vertical axis direction and the horizontal axis direction of the biological information waveform such as an electrocardiogram as background data. [0035] The living body information page screen generating unit 202 is for generating a living body information page screen which is a page screen displaying the above-mentioned living body information data. In addition, when the background data is generated by the background data generating unit 201, the background data is arranged in a state where the background data is also superimposed together with the biological information waveform on the screen of the biological information page. [0036] The living body information data generating unit 200, the background data generating unit 201, and the living body information page screen generating unit 202 are realized, for example, by causing the CPU 101 to execute a program stored in the ROM 103 or the storage medium 104 or the like. [0037] The information holding unit 203 holds the living body information data generated by the living body information data generating unit 200. The living body information data, for example, are held by being additionally associated with the corresponding measurement date and time. In addition, the information holding unit 203 may be configured to hold the background data generated by the background data generating unit 201 . In addition, the information holding unit 203 may be configured to hold the living body information page screen generated by the living body information page screen generating unit 202 . In the general case as described above, the living body information data generating unit 200, the background data generating unit 201, and the living body information page screen generating unit 202 are configured, for example, so that the information holding unit 203 holds the generated products, and thereafter, In each function, the corresponding product is acquired from the information holding unit 203 as needed. [0038] The information holding unit 203, for example, processes the living body information data and background data by causing the CPU 101 to follow a program stored in the ROM 103 or the storage medium 104, and stores the results in the storage medium 104. , to realize it. The print data generation unit 204 is a general-purpose format (non-environment-dependent) for the whole or a part of the living body information page screen on which the living body information data is displayed. form) of printed data (electronic file format). As a result, the printed data can be printed out by being sent to an external general-purpose printing device. The so-called general-purpose form of printed materials that do not depend on the platform of a specific device, for example, refers to any of the various operating systems including Windows (registered trademark), MacOSX (registered trademark), and Linux (registered trademark). All printed materials that can be printed by a printing device. As the file form of such printed data, for example, as an example, it can be listed as a PDF (Portable Document Format) file or an XPS (XML Paper Specification) file or a general-purpose image file generated. However, it is not limited to this, and can also be other printable file formats planned by the International Organization for Standardization such as ISO (International Organization for Standardization). As a general-purpose image file, for example, JPEG (Joint Photographic Experts Group) file, GIF (Graphics Interchange Format) file, PNG (Portable Network Graphics) file, BMP (bitmap image) file, TIFF (Tagged Image File Format) files, PICT (QuickDraw Picture) files, EPS (Encapsulated PostScript) files, PSD (Photoshop Data) files, etc. [0041] Furthermore, the print data generated by the print data generation unit 204 is preferably a display data in a general-purpose format that can be displayed on a display of a platform that does not depend on a specific device. In addition, generally speaking, the electronic file format of the environment-independent type can be displayed on the displays of various environments. In this way, as long as the printed data can be displayed on the touch panel display 11 of the living body information screen 1, the content can be confirmed before printing. In addition, for example, when the above-mentioned printed data is transmitted to other devices by the data transmission unit 205 for external transmission, the above-mentioned printed data can also be displayed on the display of the other device. . If configured in this way, the content can be confirmed before printing even in other devices. In addition, if the print data is in a file format as exemplified above, the print data becomes display data that can be displayed on a display of a platform that is not dependent on a specific device. [0042] The print data generation unit 204 is realized, for example, by causing the CPU 101 to execute a program stored in the ROM 103, the storage medium 104, or the like. [0043] Furthermore, the biological information screen 1 performs processing related to the display of biological information waveforms. In addition, the processing related to the above-mentioned display is performed by, for example, the antialiasing processing unit 206 and the resolution processing unit 207 . [0044] The anti-aliasing processing unit 206 applies anti-aliasing (anti-aliasing) processing to the living body information waveform. Anti-aliasing refers to processing that reduces jaggies and the like that occur on the outline of an object displayed on the display, and makes shaking caused by points generated on the outline of the object less noticeable. By doing this, it is possible to avoid a situation where the original radius noise and the wobble caused by the resolution are confused with each other. [0045] The resolution processing unit 207 is a device that adjusts at least the resolution of the living body information waveform. The resolution processing unit 207 is preferably configured to also adjust the resolution of the background data following the biological information waveform. If the resolution of the living body information waveform can be improved by the resolution processing unit 207, the visibility of the living body information waveform can be improved. In this way, it is also possible to avoid a situation where the fluctuation of the waveform caused by the low resolution and the fluctuation caused by the noise of the living body information waveform itself are confused with each other. [0046] According to the antialiasing processing unit 206 and the resolution processing unit 207, it is possible to display the printed data on the touch panel display 11 and to print and output the printed data on paper. It is an excellent thing to provide visibility to a user. [0047] The antialiasing processing unit 206 and the resolution processing unit 207 are realized, for example, by causing the CPU 101 to execute a program stored in the ROM 103, the storage medium 104, or the like. [0048] The display unit 208 is for causing the touch panel display 11 to display the biological information page screen arranged in the biological information data. In addition, the display unit 208 causes the touch panel display 11 to display the background data together with the living body information data. [0049] The display unit 208 is mainly realized by causing the CPU 101 to execute a program stored in the storage medium 104 or the like and causing the display control unit 108 to execute commands issued as a result. [0050] The data transmission operation unit 209 is an operation for accepting a request for the transmission of the print data from the outside, and transmits the print data to the data transmission unit 205 to issue an instruction. In the transmission request operation of print data, the designated operation of the transmission target address is also included. In addition, as the designation operation of the transfer target address, for example, an input operation of the transfer target address, or a file move operation for the transfer target folder can be cited as an example. The data transmission unit 205, if receiving the above-mentioned instruction, transmits the printed data to the transmission destination address. This transmission, ideally, is in the form of a so-called e-mail attached file. [0051] The data transmission operation unit 209 can be mainly realized by the touch panel display 11 and the operation input interface 107. The data transmission unit 205 mainly executes the program stored in the ROM 103 or the storage medium 104, etc. by the CPU 101 receiving the operation signal from the operation input interface 107, and executes the wired communication interface 106 or the wireless communication interface 108, etc. The command issued as a result of it is implemented. [0052] The printing operation unit 210 is a person who receives an operation corresponding to the printing request of the printing data from the outside, and sends the printing data to a printing device (not shown) to issue a printing instruction. If the printing device receives the above instruction, it will print the printed data. The display processing operation part 211 is to receive the operation corresponding to the processing request related to the above-mentioned display of the biological information waveform from the outside, and issue the corresponding operation to the antialiasing processing part 206 or the resolution processing part 207 Instructor of processing. The anti-aliasing processing unit 206 or the resolution processing unit 207, upon receiving the above-mentioned instruction, performs processing related to the corresponding display. Specifically, it is possible to set the resolution, turn on and off the anti-aliasing, and the like. [0054] The printing operation unit 210 and the display processing operation unit 211 can be mainly realized by the touch panel display 11 and the operation input interface 107. [0055] <3. Living Body Information Page Screen> Referring to FIG. 4 , an example of the living body information page screen 300 displayed on the touch panel display 11 will be described. On the biological information page screen 300, as shown in FIG. 4, a list of various types of biological information is displayed. A list of various types of biological information is arranged in the first specific field 301 and the second specific field 306 on the biological information page screen 300 . [0056] In the first specific area 301 of the biological information page screen 300, biological information waveforms are arranged. The living body information waveform may be one or plural. In addition, the waveform of the biological information reflects the currently measured waveform, and is updated in real time. In addition, the waveform of the biological information may be arranged in the first specific area 301 with the waveform of the past. On the other hand, the horizontal axis of the first specific field 301 is the time axis 305a, and the vertical axis is the axis 305b representing the value of the biological information related to the electric potential (electrocardiogram) and the like. In such a first specific field 301 , in FIG. 4( a ), the electrocardiogram waveform 302 and the pulse wave 303 are arranged in two rows so as to extend in the direction of the time axis 305 a. [0057] Further, in the second specific area 306 of the biological information page screen 300, individual display areas 307a to 307e for individually displaying biological information for each category are provided. Various types of biological information are arranged in the individual display areas 307a to 307e. In the individual display area 307a, living body information related to the heart rate (HR) is arranged. In the individual display area 307b, in vivo information related to percutaneous arterial oxygen saturation (SpO2) is allocated. In the individual display area 307c, in vivo information related to non-invasive blood pressure (NIBP) is arranged. In the individual display area 307d, living body information related to respiration (RESP) is arranged. In the individual display area 307e, living body information related to body temperature (TEMP) is arranged. [0058] In addition, the number of the individual display areas set at the second specific area 306 in the living body information page screen 300 is 5 as shown in FIG. 4(a), however, it is not It is limited to this, and other numbers may be sufficient. In addition, the living body information arranged in the individual display areas is not limited to heart rate (HR), percutaneous arterial oxygen saturation (SpO2), non-invasive blood pressure (NIBP), respiration (RESP), Body temperature (TEMP), but also other living information. As the living body information arranged in the individual display areas 307a to 307e, for example, the latest measurement value (unit), the latest measurement date and time, the upper limit threshold value and the lower limit threshold value of the living body information can be listed. , Living body information waveform, bar graph display representing the soundness of living body information, etc. The living body information arranged in the individual display areas 307a to 307e may be all of the above-mentioned information, or each of the living body information corresponding to the individual display areas 307a to 307e may be separately obtained from the above-mentioned information. to select the appropriate information. [0060] The living body information page screen 300 is preferably a home screen that is initially displayed on the touch panel display 11 when the living body information screen 1 is activated. That is, ideally, if the living body information screen 1 is activated, as the home screen, the living body information page screen 300 in the following general state is displayed: That is, in the first specific area 301, the electrocardiogram waveform, The biological information, such as the pulse wave, which is measured in real time, is displayed as a biological information waveform, and in the individual display areas 307a to 307e of the second specific area, for example, digitized data are arranged. Living body information or living body information such as the second living body information waveform. [0061] In order to move from the living body information page screen 300 described above to another page screen, as shown in FIG. menu key 1 to menu key 8. For each of the menu key 1 to the menu key 8, a corresponding page screen is allocated respectively. When a touch operation is performed on the menu key 1 to the menu key 8 , other page screens assigned to each are displayed on the touch panel display 11 . [0062] Here, for example, as shown in FIG. 4(a), if the display surface of the menu key 4 at the touch panel display 11 is touched with a finger (for example, a single-click operation, A double-click operation, etc.) causes a search screen for past information (not shown) related to the living body information to appear as a pop-up window. Then, as shown in FIG. 4( b ), the information related to the living body information in the past as the retrieval result is called to the living body information page screen 300 . As shown in Fig. 4(b), "2016:04:01 12:54:30" is displayed in the date and time portion 304b of the called living body information. Therefore, the date and time of the past living body information called out is 12:54:30 on April 1, 2016. Also, as shown in Figs. 4(a) and 4(b), "2016:04:06 12:34:56" is displayed in the current date and time portion 304a. Therefore, the current date and time is 12:34:56 on April 6, 2016. [0063] After calling the information related to the living body information in the past as the search result to the living body information page screen 300, for example, if the display surface of the menu key 5 on the touch panel display 11 is performed with a finger The touch operation, as shown in FIG. 4(b), the living body information page screen 300 itself, which is equipped with the called past living body information, is generated as printed data, and the printed data display screen is displayed on the screen. on the touch panel display 11 . In addition, the screen for displaying the printed data will be described later. [0064] <4. Other aspects of the printed material> Next, with reference to FIG. 5, other aspects of the printed material will be described. As printed data, it is not limited to the general living body information page 300 shown in FIG. 4( b ) in which the called past living body information is arranged. As the printed data, for example, as shown in FIG. 5( a ), only the biological information waveforms (electrocardiogram waveform 302 and pulse wave 303 ) in the first specific field 301 may be used. Of course, the waveform data of other living body information displayed in the individual display areas 307a-307e can also be generated as printed data. In addition, when the biological information waveform in the first specific field 301 is generated as the printed data, it is preferable to also generate the grid line 308 as the background of the biological information waveform as the printed data together with the biological information waveform. Of. [0065] Furthermore, the living body information screen 1 can apply anti-aliasing processing to the living body information waveform displayed on the touch panel display 11. Therefore, the anti-aliased living body information waveform can also be generated as printed data, and the anti-aliased living body information waveform can also be further applied to the printed data. [0066] In addition, as the printed data, for example, it may be only the second specific area 306, only the specific area in the first specific area 301, all or part of the individual display areas 307a to 307e, etc. various parts. In addition, if the living body information screen 1 is configured to be able to select an area in the living body information page screen 300 generated as print data, only necessary parts can be generated as print data. [0067] In addition, the living body information screen 1 can improve the resolution of the living body information waveform displayed by the printed data. If the resolution of the living body information waveform for displaying the printed data is increased, the display area can be reduced for the same amount of information. For example, when the resolution is increased, when the touch panel display 11 displays the biological information waveform or printed data displayed on the printed paper, the biological information waveform can be The general two-line display shown in FIG. 4( b ) or FIG. 5( a ) is set as the one-line display shown in FIG. 5( b ), and the vertical axis of the graph is enlarged by 2 times. In addition, if the display of two lines is maintained, it is possible to display twice the amount of information. In this way, the amount of living body information that can be included in the living body information page screen 300 is increased, and as a result, the amount of living body information that can be included in the printed data can be increased. [0068] <5. Printed Data Display Screen> Next, with reference to FIG. 6 , the printed data display screen 400 on the touch panel display 11 will be described. The print data display screen 400 is for displaying the page screen of the person created as the print data on the touch panel display 11 . As described in the above-mentioned item <3. Living body information page screen>, by performing a specific operation, the printed data display screen 400 is called up. [0069] On the print data display screen 400, as shown in FIG. 6, various types of information including print data and operation keys are arranged. In the third specific area 401 of the print data display screen 400, print data are arranged, and in the fourth specific area 402 of the print data display screen 400, various operation keys are arranged, and in the print data display screen 400, various operation keys are arranged. In the fifth specific area 403, a real-time electrocardiogram waveform 404 and a heartbeat count 405 are arranged. This is for continuous monitoring even during printing operations. [0070] The printed data arranged in the third specific field 401 of the printed data display screen 400 is a printed data obtained from the past living body information page screen 300 shown in FIG. 4(b). Also, the printed data, as explained above, is also a general-purpose form of display data that can be displayed on a display of a platform that does not depend on a specific device. Therefore, the display content in the third specific area 401 of the print data display screen 400 is directly printed at the printing device (not shown). [0071] In addition, if the range of the living body information page screen 300 generated as the printed data is different, the display in the third specific area 401 of the printed data display screen 400 shown in FIG. 5 is changed. Various operation keys arranged in the fourth specific area 402 of the print data display screen 400 include, for example, a Print key 410, an E-mail key 411, a FullDisclosure key 413, an Exit key 414, a Back key 415, and the like various buttons. [0073] If the Print key 410 is selected, it is recognized by the living body information screen 1 that a print request has been received from the outside. As a result, the living body information screen 1 instructs the printing apparatus (not shown) to print the printed data. In response to this instruction, the printing device (not shown) prints the printed data. [0074] If the E-mail key 411 is selected, it is recognized by the living body information screen 1 that an operation corresponding to the transmission request of the printed data has been received from the outside. As a result, the data transmission unit 205 in the living body information screen 1 transmits the printed data. [0075] If the FullDisclosure key 413 is selected, only the printed data will be enlarged and displayed on the entire touch panel display 11. At this time, the print data may be displayed in an enlarged manner on the print data display screen 400 , or may be displayed in an enlarged manner on another page screen different from the print data display screen 400 . [0076] If the Exit key 414 is selected, the print data display screen 400 is closed, and returns to the living body information page screen 300 at the present moment as shown in FIG. 4(a), for example. Also, if the Back key 415 is selected, for example, the print data display screen 400 is closed, and the touch panel display 11 displays, for example, a screen immediately following the print data display screen as shown in FIG. 4( b ). The living body information page screen 300 displayed before 400. In FIG. 6, although the 5th specific area 403 of the printed data display screen 400 is arranged with the electrocardiogram waveform 404 and the heart rate 405, it is not limited to this, and can also be arranged There is other living information. This is because the information to be monitored is different depending on the patient's situation. [0078] <6. Printed data transmission> Next, with reference to FIG. 7 , the operation of print data transmission will be described. If the E-mail key 411 shown in FIG. 6 is selected, a data transmission input form 500 will appear in the third specific area 401 of the print data display screen 400 . The data transmission input form 500 includes a recipient input area 501 , a CC (Carbon Copy) input area 502 , a file name input area 503 , an attached file display area 504 , and a message input area 505 . In addition, the system can also further add a BCC (Blind Carbon Copy) input area. [0079] In the transmission destination input area 501 and the CC input area 502, for example, an E-mail address is input. In the additional file display area 504, the file name and file icon of the print data to be transmitted are displayed. For example, the file name displayed on the print data display immediately before the E-mail key 411 is selected is displayed. Printed data in the third specific area 401 of the screen 400 . In the case of further adding additional files, for example, it is only necessary to select the printed data (not shown) held in the living body information screen from the selection page screen and the like and add them. Documents are input in the file name input area 503 and the message input area 505 . [0080] For the input of characters or numbers in the above areas, the input can be performed from either a keyboard as an external input device or a software keyboard in the living body information screen 1. In addition, the selection can be realized by an operation performed by a mouse as an external input device or a touch operation performed on the touch panel display 11 . In addition, preferably, the transmission destination is registered in advance, and the transmission destination is automatically set in the transmission destination input area 501 by selecting therefrom. [0081] After the input to each of the above fields is completed, if the send key 510 is selected, the print data is transmitted. [0082] <7. Enlarged Display of Printed Data> Next, with reference to FIG. 8 , a description will be given of an operation of enlarged display of printed data. If the FullDisclosure key 413 shown in FIG. 6 is selected, as shown in FIG. 8, the print data arranged in the third specific area 401 of the print data display screen 400 of FIG. The expanded page screen 600 of the printed data that is the other page screen. In this way, it is possible to check the details of the printed data in advance on a large screen before printing. [0083] In addition, when returning to the case of the printed data display screen 400 shown in FIG. 6, it is only necessary to select the Back key 601 provided at the lower end of the enlarged page screen 600. [0084] In addition, in the above-mentioned embodiment, although the waveform data in the printed data has been exemplified to the extent of two steps, the present invention is not limited to this. For example, as shown in FIG. 9 , it is preferable to constitute printed data including waveforms covering a large number of sections in a vertical size of A4 size. In this case, it can be assumed that the waveform data of the left 4 segments and the waveform data of the right 4 segments in the enlarged page 600 shown in FIG. In the case of A4 size printed material with waveform. Furthermore, preferably, the number of displayed segments is automatically changed along with the change in the amount of data, and the grid line as its background is also automatically changed. [0085] The living body information display control device that controls the display of the living body information displayed on the display of the living body information display device related to the living body information screen 1 and the like above is also included in the present invention. That is, the living body information display control device is connected to the display and controls the above-mentioned display on the display. In addition, the living body information display device and the living body information display control device of the present invention are not limited to the above-mentioned embodiments, and of course, various changes can be added within the scope of not departing from the gist of the present invention. .

[0087] 11‧‧‧touch panel display 200‧‧‧living body information data generating part 201‧‧‧background data generating part 202‧‧‧living body information page screen generating part 203‧‧‧information holding part 204‧‧‧printing Data generation part 205‧‧‧Data transmission part 206‧‧‧Anti-aliasing part 207‧‧‧Resolution processing part 208‧‧‧Display part 209‧‧‧Data transmission operation part 210‧‧‧Printing operation part 211‧‧ ‧Display processing operation section 300‧‧‧Live information page screen 308‧‧‧Grid lines

[0018] [FIG. 1] is a perspective view of a living body information screen in an embodiment of the present invention. [Fig. 2] is a schematic diagram showing the hardware configuration of the living body information screen in the embodiment of the present invention. [Fig. 3] is a functional block diagram of the living body information screen in the embodiment of the present invention. [Fig. 4](a) is a diagram showing the living body information page screen at the present time displayed on the living body information screen in the embodiment of the present invention. (b) is a diagram showing the past living body information page screen called by the user displayed on the living body information screen in the embodiment of the present invention. [Fig. 5](a) is a diagram showing the contents of the printed data consisting of only the information waveform of the living body and the background. (b) is a diagram showing the contents of the printed material composed of the living body information page screen when the resolution of the living body information waveform and the background are improved. [FIG. 6] is a diagram showing the display screen of the printed data in the embodiment of the present invention. [Fig. 7] is a diagram showing the data transmission input format displayed on the print data display screen in the embodiment of the present invention. [Fig. 8] is a diagram showing an enlarged page screen in an embodiment of the present invention. [Fig. 9] is a diagram showing a modification of the enlarged page screen in the embodiment of the present invention.

1‧‧‧In vivo information screen

11‧‧‧Touch Panel Display

200‧‧‧In vivo Information Data Generation Department

201‧‧‧Background Data Generation Department

202‧‧‧Screen Generation Department of Living Information Page

203‧‧‧Information Retention Department

204‧‧‧Printed Data Generation Department

205‧‧‧Data Transmission Department

206‧‧‧Antialiasing

207‧‧‧Resolution Processing Department

208‧‧‧Display

209‧‧‧Data Transmission Operation Department

210‧‧‧Printing Operation Department

211‧‧‧Display processing operation part

Claims (8)

A living body information display device, which is a living body information display device for displaying a plurality of types of living body information materials on a display, characterized in that it is provided with: a living body information page screen generating unit that generates a living body information page that is displayed as the living body information data. The living body information page screen of the page screen; and the print data generating unit, which generates all or a part of the aforementioned living body information page screen as a general-purpose form of printed data, and in the aforementioned living body information page screen, contains the displayed information. There is a first specific area in which the biological information data is displayed, and a second specific area in which the biological information data of a different type from the first specific area is displayed, between the first specific area and the second specific area. At least one of them includes a biological information waveform that is a waveform related to biological information, and is configured so that an area included in the printed data can be selected from the first specific area and the second specific area. The print data generation unit generates, as the print data, the biological information data included in the selection range of the selected first specific area or the second specific area. The biological information display device according to claim 1, further comprising: a background data generating unit that generates a waveform arranged in the biological information The background data at the background, and the print data generating unit generates the print data in the form that the background is arranged at the living body information waveform. The biological information display device according to claim 2, wherein the background is a plurality of ruled lines extending in the vertical axis direction and the horizontal axis direction of the biological information waveform. According to the living body information display device described in any one of the claims 1 to 3 of the scope of the application, the printed data is also a general-purpose display data that can be displayed on the display. According to the living body information display device described in any one of Items 1 to 3 of the scope of the patent application, the above-mentioned printed data are generated from portrait files or PDF files or XPS files as general-purpose forms. The living body information display device according to any one of claims 1 to 3 of the claimed scope, further comprising: an anti-aliasing processing unit that applies anti-aliasing processing to the living body information waveform. The biological information display device as described in any one of claims 1 to 3 of the scope of the patent application, further comprising: a resolution processing unit for adjusting the resolution of the biological information waveform. The living body information display device as described in any one of claims 1 to 3 of the scope of the patent application, further comprising: a data transmission unit that transmits the printed data to the outside.

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