JP2010094358A - Screen display method, program and information processing device of organism magnetism measuring system - Google Patents

Abstract

An object of the present invention is to organize data efficiently.
An addition data display area for displaying raw data stored in a storage unit and addition data generated by adding the raw data as an image, and various types of the raw data and addition data. An analysis result display area 920a for displaying an analysis result which is a result of the analysis, an addition data display area 910, a temporary storage area 620 for temporarily storing image data displayed in the analysis result display area 920a, A report creation area 1010 for creating a report is displayed in one window screen using image data stored in the temporary storage area.
[Selection] Figure 10

Description

  The present invention relates to a screen display method, a program, and an information processing apparatus for an apparatus (biomagnetic measurement apparatus) that measures a magnetic field generated from a living body.

Using a superconducting quantum interference device (SQUID) of a high-sensitivity magnetic sensor, the magnetic field generated from the living body is measured, the position of the magnetic field source inside the living body is estimated from the measurement result, and the distribution is re-established. A living body magnetic field diagram display device is disclosed (see, for example, Patent Document 1 and Patent Document 2).
Japanese Patent No. 3140731 Japanese Patent No. 3140732

  The analysis result data obtained by the techniques described in Patent Document 1 and Patent Document 2 are finally collected as document data such as reports, but the techniques described in Patent Document 1 and Patent Document 2 Since the emphasis is on displaying the analysis results, the creation of the final report requires time and effort such as using another application. Furthermore, since various analysis results are used in the creation of a report, in order to create a report using the techniques described in Patent Document 1 and Patent Document 2, data to be used is displayed each time. It is necessary to open the existing screen, and the work becomes cumbersome.

  In view of such a background, an object of the present invention is to efficiently organize data.

  In order to solve the above problems, the present invention provides a first display area for displaying image data and a first display area on a screen of an information processing apparatus of a biomagnetic measurement apparatus which is an apparatus for measuring a magnetic field generated from a living body. And a second display area for creating document data using the image data displayed on the screen is displayed in one window screen.

  According to the present invention, data can be efficiently organized.

  Next, the best mode for carrying out the present invention (referred to as “embodiment”) will be described in detail with reference to the drawings as appropriate.

"Device configuration"
FIG. 1 is a block diagram illustrating a configuration example of the information processing apparatus according to the present embodiment.
The information processing apparatus 1 is an apparatus for analyzing data (magnetomagnetic measurement data, raw data 21) acquired from a magnetocardiograph as a measurement apparatus and creating a report. A processing unit 10 that processes information, It has the memory | storage part 20 which memorize | stores, the display part 30 which displays information, and the input part 40 which inputs information. Incidentally, the magnetocardiograph is a device that measures a magnetic field generated from a living body using, for example, a SQUID, and data from the magnetocardiograph is input to the information processing device 1 via the input unit 40. The display unit 30 includes a display, the input unit 40 includes a keyboard, a mouse, a network interface, and the like. The storage unit 20 includes an HD (Hard Disk), a RAM (Random Access Memory), and the like. Is done.
The processing unit 10 includes a display processing unit 11, a data acquisition unit 12, an addition processing unit 13, a maternal magnetocardiography processing unit 14, a time phase adjustment processing unit 15, a data storage unit 16, and an analysis unit 17.
The display processing unit 11 has a function of generating screen data to be displayed on the display unit 30 and displaying the screen data on the display unit 30. The data acquisition unit 12 has a function of acquiring data (raw data 21: first data) from the magnetocardiograph input via the input unit 40 and each data stored in the storage unit 20. The addition processing unit 13 has a function of performing addition data processing which will be described later. The maternal-magneto-magnetic-removal processing unit 14 has a function of performing a process of removing the influence of the maternal body when handling the magnetocardiogram measurement data of the fetus. The time phase adjustment processing unit 15 has a function of aligning the phases (time phases) of magnetocardiographic measurement data when performing addition data processing or the like. The data storage unit 16 has a function of storing data in the storage unit 20. The analysis unit 17 has a function of analyzing raw data 21 or addition data 22 described later based on an instruction input via the input unit 40. The analysis processing includes map processing for two-dimensionally displaying the magnetic field in the heart based on the raw data 21 or the addition data 22.

  The storage unit 20 includes raw data 21 that is data acquired from the magnetocardiograph, and addition data 22 (first data) obtained by adding the raw data 21 to remove noise. The storage unit 20 also includes list data 23 that links raw data 21, analysis result data 24 (first data, processed data), and the like, and information obtained by analysis processing. Some analysis result data 24 is included. Further, the storage unit 20 is created using the temporary storage data 25 holding the image data displayed in the temporary storage area to be described later, the raw data 21, the addition data 22, and the analysis result data 24. It also has report data 26 which is a document of the report and image data.

  1, a program stored in a ROM (Read Only Memory) (not shown) or a HD (Hard Disk) (not shown) is expanded in a RAM (not shown) and executed by a CPU (Central Processing Unit) (not shown). To be realized. Further, the information processing apparatus 1 may be a part of a biomagnetic measurement apparatus that is an apparatus that measures a magnetic field generated from a living body.

《Flowchart and screen example》
Next, an operation procedure according to the present embodiment will be described along the flowcharts of FIGS. 2 to 4 and the screen examples of FIGS. 5 to 10 with reference to FIG.

(Data selection process on the list display screen)
First, the data selection process in the list display screen 500 (fourth display area) will be described with reference to FIGS.
FIG. 2 is a flowchart showing the overall processing flow according to the present embodiment, and FIG. 5 is a diagram showing an example of a list display screen according to the present embodiment.
When the information processing apparatus 1 is activated, the display processing unit 11 displays the list display screen 500 of FIG. 5 and performs a data selection process in which the user selects target data via the input unit 40 (S101). ). The data selection process is performed according to the following procedure.
In the list display screen 500, a subject list display area 501, an examination list display area 502, and a data list display area 503 are displayed in one window screen.
The subject list display area 501 includes a subject number, name, gender, date of birth, number of tests, number of raw data, number of added data, The number of reports is displayed for each subject.
The examination list display area 502 is an area for displaying data for each examination. The examination number uniquely assigned to each examination, the subject number of the subject who has received the examination, the registration date, and the like. In addition, age, weight, height, department name, department, requesting doctor, examiner name, report, and the like are displayed. In the comment field, comments about the examination are displayed.
When the user clicks (selects and inputs) a predetermined record 511 in the subject list display area 501 via the input unit 40, the record 511 is highlighted. Then, in the examination list display area 502, the record 512 related to the subject of the record 511 is highlighted. Further, in the data list display area 503, the file name 521 of the raw data 21, the file name 522 of the addition data 22, and the file name 523 of the report related to the subject are displayed.

When the user selects an arbitrary file name from the file names displayed in the data list display area 503 and clicks the “list” button 650, detailed information regarding the data is displayed in the data information display area 505. The In the example of FIG. 5, since the column 521 of the raw data 21 is selected, detailed information of the raw data 21 “123456.ad” is displayed.
Such association between displayed information includes subject information associated with the subject number, examination information associated with the examination number, subject number, examination number, raw data 21, Data associated with the addition data 22 and the report data 26 (data associated with the first data) is stored in the list data 23 of the storage unit 20 in advance.

  When an arbitrary file name is clicked from the file names 521 to 523 displayed in the data list display area 503 and the “OK” button 504 is clicked, a data selection process is performed. The process proceeds to steps S102 to S104.

  For example, when the “OK” button 504 is clicked in a state where the file name 521 of the raw data 21 is selected, the display processing unit 11 displays a waveform confirmation screen 600 described later in FIG. The processing unit 10 shifts the processing to raw data processing (step S102 in FIG. 2). When the “OK” button 504 is clicked while the file name 522 of the addition data 22 is selected, the display processing unit 11 displays an analysis screen 900 described later in FIG. The unit 17 executes analysis processing (step S103 in FIG. 2). Further, when the “OK” button 504 is clicked while the file name 523 of the report data 26 is selected, the display processing unit 11 displays the report creation screen 1000 of FIG. 10 on the display unit 30, and the processing unit 10 shifts the processing to report creation processing (step S104 in FIG. 2).

  “Change” buttons 531 to 533 are buttons that are clicked when changing a record or a column selected in each display area. The “cancel” button 534 is a button that is clicked when canceling all selections. The “detail display” button 535 is a button that is clicked when displaying the information displayed in the data information display area 505 in more detail. When the “close” button 536 is clicked, the display processing unit 11 deletes the list display screen 500 and the process ends.

(Raw data processing)
Next, raw data processing will be described with reference to FIGS. 3 and 6 to 8. Note that the raw data processing in FIG. 3 corresponds to step S102 in FIG.
FIG. 3 is a flowchart showing an operation procedure of raw data processing corresponding to step S102 of FIG. 2, wherein (a) shows processing for adult data, and (b) shows processing for fetal data. 6 is a diagram illustrating a screen example of a waveform confirmation screen according to the present embodiment, FIG. 7 is a diagram illustrating a screen example of an addition processing screen, and FIG. 8 is a screen example of a mode selection screen. FIG.
3A and 3B is selected when the “OK” button 504 is clicked while the file name 521 of the raw data 21 in FIG. 5 is selected, as described above. This is a process to be performed.

(Waveform confirmation processing using the waveform confirmation screen)
A waveform confirmation screen 600 shown in FIG. 6 is a screen displayed by the waveform confirmation processing in step S201 in FIG. 3A, and includes a waveform display area 610 (first display area, raw data display area), and temporary storage. An area 620 (second display area) is displayed in one window screen. The analysis result display area 630 (first display area, processed data display area) is hidden behind the waveform display area 610, but the tab 631 is clicked or the edge of each area is dragged. Accordingly, the waveform display area 610 and the analysis result display area 630 can be reduced or enlarged.

  In the waveform display area 610, the waveform of the raw data 21 (raw waveform 611) is displayed as image data. This raw waveform 611 is obtained by converting the waveform of the raw data 21 measured by the channel (the magnetocardiograph channel) selected in the Ch setting area 612 into image data. In the Ch preview display area 613, waveforms of all channels of the raw data 21 are displayed. The waveform image displayed in the Ch preview display area 613 is the raw data 21 acquired from the storage unit 20 by the data acquisition unit 12. When the user selects a part of the waveform displayed in the Ch preview display area 613, the display processing unit 11 displays a waveform corresponding to the selected area as a raw waveform 611. This raw waveform 611 is image data in which data such as time and wave height is embedded, and secondary processing such as clipping and enlargement / reduction is possible.

The user can display the selected raw waveform 611 (image data) in the temporary storage area 620 by dragging and dropping the raw waveform 611 (image data) into the temporary storage area 620 (reference numeral 622). This is a process corresponding to the temporary storage process in step S208 of FIG. In this way, it is possible to proceed while confirming the image that is desired to be used for report creation. The data displayed in the temporary storage area 620 is stored in the storage unit 20 as the temporary storage data 25. The data selection radio button 621 is a radio button for selecting data to be displayed in the temporary storage area 620. For example, when the “raw waveform” radio button is selected, the display processing unit 11 displays data in the raw waveform format in the temporary storage area 620 and does not display data in other formats. Similarly, when the “addition waveform” radio button is selected, the display processing unit 11 displays the waveform data added in FIG. 4 and does not display other data. Further, when the “map” radio button is selected, the display processing unit 11 displays the map-format data analyzed in FIG. 4 and does not display other data. The temporary storage area 620 can also display simple memos, comments, and the like for the image data when the user inputs them via the input unit 40. By doing in this way, the user can confirm later what purpose the image data was stored in the temporary storage area 620.
Further, when the “Create Report” button 623 is clicked, the display processing unit 11 displays the report creation screen shown in FIG. 10, and the processing unit 10 shifts the process to the report creation process (FIG. 3A). ) Not shown).

When the “Previous” button 615 is clicked, the process returns to the previous process. In the waveform confirmation screen 600 of FIG. 6, when the “Previous” button 615 is clicked, the screen moves to the list display screen 500 of FIG. When the “end” button 616 is clicked, the display processing unit 11 deletes the waveform confirmation screen 600 and the processing unit 10 ends the processing. At this time, if necessary, the waveform confirmation screen 600 may be appropriately saved by clicking a save button (not shown).
When the “mode change” button 640 is clicked, the display processing unit 11 shifts to a mode selection screen 800 shown in FIG. When the “to add” button 614 is clicked, the display processing unit 11 displays the addition processing screen 700 shown in FIG. 7, and the processing unit 10 shifts the processing to step S203. When a “return to list” button (not shown) is clicked, the display processing unit 11 displays the list display screen 500 of FIG. 5, and the processing unit 10 returns the processing to the data selection processing (FIG. 3A). ) Step S202).

(Addition processing on the addition processing screen)
Next, the addition process screen displayed in step S203 of FIG.
In FIG. 7, the same components as those in FIG.
In the addition processing screen 700, an addition processing display area 710 (third display area) is displayed in front of the waveform display area 610a.
In the addition processing display area 710, a raw waveform 711, an addition setting area 712, and an addition waveform 714 are displayed. The raw waveform 711 is the same as the raw waveform 611 in FIG. In the addition setting area 712, various settings such as display channel setting, filter setting, peak detection parameter setting and the like are performed, and the addition processing unit 13 adds the raw waveform data when the “addition waveform creation” button 713 is clicked. Addition processing is performed (step S203 in FIG. 3A), and the waveform data added by the display processing unit 11 is displayed as an addition waveform 714 converted into image data. This added waveform 714 is image data in which data such as time and wave height is embedded, and secondary processing such as clipping and enlargement / reduction is possible.
When the “continue addition” button 722 is clicked, another addition processing display area 710 is displayed, and the addition processing can be performed again (step S207 in FIG. 3A).
When the “save” button 721 is clicked, the data storage unit 16 performs a data storage process for storing the generated addition data 22 in the storage unit 20 (step S204 in FIG. 3A).
Further, when the “to analysis” button 723 is clicked, the display processing unit 11 displays the analysis screen 900 shown in FIG. 9, and the analysis unit 17 executes the analysis processing (step S205 in FIG. 3A). ).
When the “end” button 616 is clicked, the display processing unit 11 deletes the waveform confirmation screen 600, and the processing unit 10 ends the processing (step S206 in FIG. 3A).

In addition, the user can display the selected addition waveform 714 (image) in the temporary storage area 620 by dragging and dropping the addition waveform 714 (image) into the temporary storage area 620 (reference numeral 622). This is a process corresponding to the temporary storage process in step S208 of FIG. In this way, it is possible to proceed while confirming the image that is desired to be used for report creation.
Note that the addition processing display area 710 and the analysis result display area 630 can be reduced or enlarged by dragging the edge of each area.

(Selecting maternal magnetocardiography using the mode setting screen)
A mode setting screen 600a shown in FIG. 8 is a screen displayed when the “mode change” button 640 in FIG. 6 or 7 is clicked. In FIG. 8, the same components as those in FIG. 6 are denoted by the same reference numerals and description thereof is omitted.
When the “mode change” button 640 is clicked on the mode setting screen 600a, a mode selection area 640a having an “adult” button 641 and a “fetus” button 642 is displayed. Here, when the “adult” button 641 is clicked, the raw data processing shown in FIG. 3A is executed, and when the “fetus” button 642 is clicked, the raw data processing shown in FIG. Will be executed. Specifically, the maternal magnetocardiography removal process of step S251 shown in FIG. 3B is performed, and the influence of the maternal body is removed from the raw data 21 obtained from the fetus. When the “close” button 643 is clicked, the mode selection area 640a is closed. At this time, if necessary, a message is displayed to prompt the user to save the magnetocardiographic data from which the parent magnetocardi has been removed. Then, when the user clicks a save button (not shown), the magnetocardiogram data from which the parent magnetocardi has been removed can be saved as new raw data. Since processing other than step S251 in FIG. 3B is the same as that in FIG. 3A, the same step number is assigned and description thereof is omitted.

Here, the parent magnetocardiography removal process will be described.
In maternal magnetocardiography processing, when a magnetic sensor is placed on the maternal abdominal wall and fetal magnetocardiography is measured, the magnetic field (maternal magnetocardiogram) generated from the maternal heart is mixed, making it difficult to distinguish it from fetal signals. This process is performed because there is a case. Two methods, a method using a template waveform and a signal source separation method, are usually applied as a method for removing the parent magnetocardiogram.
Among them, the method using template waveform is A. Kandori, T. Hosono, T. Kanagawa, S. Miyashita, Y. Chiba, M. Murakami, T. Miyashita and K. Tsukada, Detection of atrial-flutter and atrial- fibrillation waveforms by fetal magnetocardiogram, Med. Biol. Eng. Comput., vol. 40, pp. 213-217, 2002. Using the maternal magnetocardiogram with several heartbeats, an average waveform of the maternal magnetocardiogram is created. Then, the parent magnetocardiography processing unit 14 sets this average waveform as the template waveform of the parent magnetocardiogram. Further, the parent magnetocardiography processing unit 14 detects the parent magnetocardiogram peak time from the raw data 21, and removes the parent magnetocardiogram by removing the template waveform of the parent magnetocardiogram.

  The signal source separation method is S. Comani, M. Liberati, D. Mantini, E. Gabriele, D. Brisinda, SD. Luzio, R. Fenici and GL. Romani, Characterization of fetal arrhythmias by means of fetal ultrasinographic imaging , PACE, vol. 27, pp. 1674-1655, 2004. The maternal magnetocardiogram removal processing unit 14 is an independent signal source separation method for removing the maternal magnetocardiogram from the raw data 21. Use component analysis. Independent component analysis is a method that can in principle separate independent signal sources corresponding to several measurement Ch (Channel).

(Analysis process on the analysis process screen)
Next, analysis processing will be described with reference to FIGS. 4 and 9. Note that the raw data processing in FIG. 4 is processing corresponding to step S103 in FIG. 2 and step S205 in FIG.
FIG. 4 is a flowchart showing the operation procedure of the analysis processing according to the present embodiment. (A) is a procedure when one addition data is used, and (b) is a plurality of addition data. Is the procedure. FIG. 9 is a diagram illustrating a screen example of an analysis screen according to the present embodiment.
The analysis screen 900 shown in FIG. 9 is a screen that is displayed when the tab 631 shown in FIGS. 6 to 8 is clicked, or is displayed when the “to analysis” button 723 shown in FIG. 7 is clicked. FIG. 4A is a screen displayed in the process of step S301 in FIG.

In the analysis screen 900, an addition data display area 910, an analysis result display area 920 (first display area, processed data display area), and a temporary storage area 620 are displayed in one window screen. Here, the temporary storage area 620 is the same as the temporary storage area 620 described with reference to FIG.
In the addition data display area 910, the addition processing display area 710 shown in FIG. 7 is reduced and displayed, and the display contents are arranged and displayed in accordance with the reduction. In the example of the added data display area 910 shown in FIG. 9, a raw waveform 911 and an added waveform 912 are displayed. The raw waveform 911 is the same as the raw waveform 611 in FIG. 6, and the added waveform 912 is the same as the added waveform 714 in FIG.
In the analysis result display area 920 (first display area), various analysis results can be displayed as shown in FIG. In the example of FIG. 9, image data of various analysis results such as “map (arrow diagram)”, “3D”, “dipole”, “raw waveform”, and the like are displayed by clicking a tab. The timing at which these analysis processes are performed is, for example, the timing at which the “to analysis” button 723 shown in FIG. 7 is clicked, and at the same time the “to analysis” button 723 is clicked, the analysis unit 17 performs various analyzes. Processing is performed (S301 in FIG. 4A).
In the example of FIG. 9, “map (arrow diagram)” is selected, and a map diagram 921 is displayed for each time as image data of the analysis result. The map 921 is blank to avoid complication, but in reality, an arrow indicating a current vector calculated from a magnetic field, a contour line indicating a scalar, and the like are displayed as a two-dimensional map. ing. This map diagram 921 is image data in which data such as x-coordinate, y-coordinate, vector value, scalar value, etc. are embedded, and secondary processing such as cropping and enlargement / reduction is possible.

  The user drags and drops the data (image) displayed in the analysis result display area 920 to the temporary storage area 620 so that the data (image) that the user wants to use for report creation is displayed in the temporary storage area 620. Can be performed (step S305 in FIG. 4A). The temporary storage process in step S305 is the same as step S208 in FIG.

  When a “return to list” button (not shown) is clicked, the display processing unit 11 displays the list display screen 500 of FIG. 5 on the display unit 30, and the processing unit 10 returns the process to the data selection process. (Step S302 in FIG. 4A). In addition, when a “close” button not shown in FIG. 9 is clicked, the display processing unit 11 deletes the analysis screen 900 from the screen, and the processing unit 10 ends the processing (FIG. 4A). ) Step S303). Further, when the “Create Report” button 623 is clicked, the display processing unit 11 displays the report creation screen 1000 of FIG. 10 on the screen, and the processing unit 10 shifts the processing to the report creation process (FIG. 4A). ) Step S304).

When a plurality of addition data 22 are generated by clicking the “continue addition” button 722 in FIG. 7 or the like, as shown in FIG. 4B, before the analysis processing by the analysis unit 17 is performed. The time phase adjustment processing unit 15 performs time phase adjustment processing (S351 in FIG. 4B). This is because when performing the analysis process using different addition data 22, it is necessary to align the time phases of the addition data 22, and the time phase adjustment process detects, for example, the peak time in each addition data 22, By aligning the respective addition data 22 at the peak time, a time phase adjustment process is performed.
Since processing other than step S351 in FIG. 4B is the same as that in FIG. 4A, the same step number is assigned and description thereof is omitted.
It should be noted that each region 910, 920, 620 can be reduced or enlarged by dragging the edge of each region 910, 920, 620. In particular, by dragging the edge of the temporary storage area 620, the display processing unit 11 can display a report creation area 1010 described later in FIG.

(Report creation process on the report creation screen)
FIG. 10 is a diagram illustrating a screen example of a report creation screen according to the present embodiment. A report creation screen 1000 shown in FIG. 10 is a screen displayed when the report creation button 623 shown in FIGS. 6 to 9 is clicked, and is displayed in the process of step S104 of FIG. 2 or the process of step S304 of FIG. It is a screen to be.
In the report creation screen 1000, an addition data display area 910 (first display area, raw data display area), an analysis result display area 920a (first display area, processed data display area), a report creation area 1010 (second display area) A display area, a document creation area) and a temporary storage area 620 (second display area) are displayed in one window screen. As shown in FIG. 10, the addition data display area 910 is arranged on the left side of the screen, the analysis result display area 920a is arranged in the center of the screen, and the report creation area 1010 is arranged on the right side of the screen, so that the flow of addition → analysis → report creation can be visually understood. It can be shown to the user easily.
Of these areas 910, 920a, 1010, and 620, the added data display area 910 and the temporary storage area 620 are the same as the added data display area 910 and the temporary storage area 620 described with reference to FIGS. The same reference numerals are given and the description is omitted.
Furthermore, since the analysis result display area 920a is in a state where a part of the analysis result display area 920 described in FIG. 9 is hidden behind the report creation area 1010, the description thereof is omitted.

The report creation area 1010 includes a subject information display area 1011, an image data display area 1012, a comment display area 1013, and the like.
The subject information display area 1011 is an area for displaying information about the subject, and may be input by the user via the input unit 40 or selected in the subject list display area 501 of FIG. Information may be displayed.
The image data display area 1012 is an area for displaying image data 1014 copied from the temporary storage area 620 by drag and drop or the like.
The comment display area 1013 is an area for displaying a comment on the image displayed in the image data display area 1012 input by the user via the input unit 40 as text data.
The layout in the report creation area 1010 is not limited to the layout shown in FIG. 10, but can be freely changed according to the user's preference and format.
Further, by dragging the edges of the areas 910, 920a, and 1010, the areas 910, 920a, and 1010 can be reduced or enlarged.

  Further, the list display screen 500 shown in FIG. 5 may be displayed in one window simultaneously with the screens of FIG. 6, FIG. 9, and FIG. In this case, the list display screen 500 may be displayed above the waveform confirmation screen 600 (FIG. 6), the analysis screen 900 (FIG. 9), or the report creation screen 1000 (FIG. 10).

(effect)
According to the present embodiment, an area for displaying the raw data 21, the analysis result data 24, and the like, and an area for generating a report by handling these data can be displayed in one window screen. It is not necessary to start other applications, and the efficiency of report creation can be improved.
Further, in normal times, the report creation area 1010 is not displayed, the temporary storage area 620 for temporarily storing and displaying image data necessary for report creation, the raw data 21 and the analysis result data 24 is displayed. By always displaying it when working, the work efficiency can be further improved.

It is a block diagram which shows the structural example of the information processing apparatus which concerns on this embodiment. It is a flowchart which shows the flow of the whole process which concerns on this embodiment. It is a flowchart which shows the operation procedure of the raw data process which concerns on this embodiment, (a) shows the process with respect to adult data, (b) shows the process with respect to fetus data. It is a flowchart which shows the operation procedure of the analysis process which concerns on this embodiment, (a) is a procedure in the case of using one addition data, (b) is a procedure in the case of using several addition data. is there. It is a figure which shows the example of the list display screen which concerns on this embodiment. It is a figure which shows the example of a screen of the waveform confirmation screen which concerns on this embodiment. It is a figure which shows the example of a screen of the addition process screen which concerns on this embodiment. It is a figure which shows the example of a mode selection screen concerning this embodiment. It is a figure which shows the example of a screen of the analysis screen which concerns on this embodiment. It is a figure which shows the example of a screen of the report preparation screen which concerns on this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Information processing apparatus 10 Processing part 11 Display processing part 12 Data acquisition part 13 Addition processing part 14 Mother body magnetocardiography removal processing part 15 Time phase adjustment processing part 16 Data storage part 17 Analysis part 20 Storage part 21 Raw data (1st data )
22 Addition data (first data)
23 List data (data linked to the first data)
24 Analysis result data (first data, machining data)
25 Temporary storage data 26 Report data (document data)
30 display unit 40 input unit 500 list display screen (fourth display area)
501 Subject list display area 502 Exam list display area 503 Data list display area 505 Data information display area 600 Waveform confirmation screen 600a Mode setting screen 610 Waveform display area (first display area, raw data display area)
620 Temporary storage area (second display area)
630 Analysis result display area (first display area, machining data display area)
640a Mode selection area 700 Addition process screen 710 Addition process display area (third display area)
712 addition setting area 900 analysis screen 910 addition data display area (first display area)
920 Analysis result display area (first display area, machining data display area)
920a Analysis result display area (first display area, machining data display area)
1000 Report creation screen 1010 Report creation area (second display area, document creation area)
1011 Subject information display area 1012 Image data display area 1013 Comment display area

Claims (14)

A screen display method by an information processing device of a biomagnetism measuring device which is a device for measuring a magnetic field generated from a living body,
The information processing apparatus includes:
A first display area that displays image data that is generated using the first data stored in the storage unit and that can be secondarily processed after the predetermined data is embedded;
A second display area for creating document data including the image data, using the image data displayed in the first display area;
Is displayed in one window screen. A method for displaying a screen of a biomagnetism measuring apparatus. The second display area is selected by an operator from a document creation area for creating the document data and image data displayed in the first display area, and creates the document data. A temporary storage area to temporarily store image data used for
Have
The information processing apparatus includes:
Except when creating the document data, the document creation area is not displayed on the screen,
The said temporary storage area | region is always displayed on a screen with a said 1st display area. The screen display method of the biomagnetic measuring device of Claim 1 characterized by the above-mentioned.   The method of displaying a screen of a biomagnetic measurement apparatus according to claim 2, wherein the movement of the image data from the first display area to the temporary storage area is performed by drag and drop. The data stored in the storage unit includes raw data acquired from a device that measures a magnetic field generated from a living body, and processed data obtained by processing the raw data,
The first display area has a raw data display area for displaying image data of the raw data, and a processed data display area for displaying image data of the processed data,
The biomagnetic measurement apparatus according to claim 1, wherein each of the raw data display area and the processed data display area can be enlarged and reduced by a predetermined instruction input via an input unit. Screen display method. The screen display method of the biomagnetism measuring device according to claim 4, wherein the measuring device is a magnetocardiograph. The said magnetocardiograph is an apparatus which measures the magnetic field of a biological body using SQUID (Superconducting Quantum Interference Device). The screen display method of the biomagnetic measuring apparatus of Claim 5 characterized by the above-mentioned. The information processing apparatus includes:
When a predetermined instruction is given via the input unit, the raw data is added,
The screen display method of the biomagnetic measurement device according to claim 1, wherein a third display area for displaying the added addition data is displayed on a screen. The information processing apparatus includes:
The method for displaying a screen of a biomagnetism measuring apparatus according to claim 4, wherein when a predetermined instruction is given through the input unit, a maternal magnetocardiography removal process is performed from the raw data. At the time of starting the information processing apparatus,
The information processing apparatus includes:
The data associated with the first data in the storage unit is displayed on a screen as a fourth display area displayed in a list format,
When one data is selected from the data displayed in the fourth display area, the file name of the first data associated with the selected data is displayed in the fourth display. Displayed in the area,
When the file name of the first data displayed in the fourth display area is clicked, the file name of the data having a parent-child relationship with the first data is highlighted,
Given instructions,
The screen display method of the biomagnetic measurement device according to claim 1, wherein the first display area and the second display area are displayed on a screen. The information processing apparatus includes:
It is an analysis device for inspection results,
The screen display method of the biomagnetic measurement apparatus according to claim 9, wherein the data associated with the first data is information on a subject. When there are a plurality of the first data,
The information processing apparatus includes:
2. The screen display method for a biomagnetism measuring apparatus according to claim 1, wherein a time phase adjustment process is performed between each data in the first data.   A program for causing a computer to execute the screen display method of the biomagnetic measurement device according to any one of claims 1 to 11. An information processing device that displays a screen of data acquired from a biomagnetic measurement device,
A first display area that displays image data generated using data stored in the storage unit and embedded with predetermined data and enabled for secondary processing, and is displayed in the first display area And a second display area for creating document data including the image data by using the existing image data, and a display processing unit for displaying the image data in one window screen . The second display area is selected by an operator from the document creation area for creating the document data and the image data displayed in the first display area, and creates the document data. Temporary storage area for temporarily storing image data to be used
Have
The display processing unit
The document storage area is not displayed on the screen except when the document data is generated, and the temporary storage area further has a function of always displaying the screen together with the first display area. Information processing device.

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