JP2006318302A - Data preparation device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily process many case data accumulated in various scenes to data (analytical data) to be used for improvement operations thereafter. <P>SOLUTION: Case data having respective item names and item values of a plurality of items in information about prescribed processing and definition data indicating the reference order of the plurality of items are input, respective item values included in the case data are arranged in accordance with hierarchical structure indicated by the definition data and the total number of case data having the item values corresponding to the hierarchical structure from the uppermost hierarchy up to the item value concerned is imparted to respective item values to prepare and display analytical data. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technique for effectively utilizing data accumulated for a plurality of cases that occur in a predetermined process.

  Conventionally, data accumulation that can be considered as a reference in the future has been performed in various situations. For example, in a facility where an experiment is performed, not only data of a successful experiment but also data obtained by an unsuccessful experiment may be accumulated. For example, in the manufacturing process of industrial products, when a defective product occurs, data related to the generation of the defective product is accumulated. Data accumulated in this way (accumulated data) is referred to and used to estimate factors when similar events occur, and to prevent experimental failures or defective products.

For example, in a manufacturing process of a factory, quality improvement is performed by performing improvement work by the above-described FMEA (Failure Mode and Effects Analysis) method using accumulated data. FMEA prepares a list that organizes accumulated data before the start of production, and if a defect occurs after the start of production, the effects caused by the defect in light of the prepared list and the cause of the defect This is a bottom-up improvement method.

  FIG. 6 is a diagram showing a specific example of a list prepared in FMEA. FMEA prepares a list that describes items such as process, function, phenomenon (risk), influence, cause, and the contents for each expected failure occurrence pattern. For example, if a phenomenon called LD degradation has occurred in a process called LD lead cutting for realizing the function of making the lead a fixed size, the user can detect the detection capability by referring to the list of FIG. It can be seen that the cause of this is the electrostatic breakdown.

A system that supports such quality improvement by FMEA has also been proposed (see Patent Document 1). In this support system, a defect pattern corresponding to the defect that has occurred is searched from the list to reduce the burden on the person in charge of improvement. When a defect occurs, the pattern corresponding to the defect that occurred is automatically searched from a list prepared in advance, so even non-experts can easily investigate the cause and make improvements. It has become.
JP 2005-38413 A

  As a result of the proposal of the support system as described above, the process of searching the list has been automated. However, the process of creating such a list has not yet been automated, and has a problem that it depends on human manual work. In addition, the creation of such a list requires knowledge about processing (for example, a manufacturing process) that is an object of FMEA and knowledge about FMEA itself. For this reason, it is difficult to create such a list unless you are skilled in these matters. And even for the skilled person, it is a difficult task that requires a lot of man-hours to accurately construct the analysis data without contradiction.

  Therefore, an object of the present invention is to provide an apparatus, a method, and the like that make it easy to process accumulated data as described above into data for use in subsequent improvement work, not limited to FMEA.

  In order to solve the above problems, the present invention has the following configuration. The present invention includes case data storage means, definition data input means, analysis data creation means, and display means. Case data storage means stores case data having a plurality of items. Specific examples of such case data include data that has been accumulated (that is, accumulated data) that would be useful for future reference. Each item has an item name indicating the name of the item and an item value indicating information regarding the item.

  The definition data input means can input definition data indicating the reference order of a plurality of items. The analysis data creation means generates analysis data having a hierarchical structure from a plurality of case data stored in the case data storage means so that the item values of each item of the case data are hierarchized according to the reference order indicated in the definition data. create. The display means displays the analysis data.

  In general, if such analysis data is to be created manually from a large number of case data, work that requires a lot of man-hours by skilled workers is required. However, in the data creation device of the present invention, the analysis data is automatically created according to the input definition data and a plurality of case data. For this reason, it is not necessary for an expert to create analysis data manually when creating analysis data, and analysis data is automatically created after the definition data is determined. For this reason, it becomes possible to obtain such analysis data easily. Further, the user can easily know the cause and contents of an event that has occurred in a predetermined process by referring to related items using such analysis data by tracing the hierarchical structure. Thus, according to the present invention, it becomes easy to process the accumulated data into data for use in subsequent improvement work.

  The analysis data creation means of the data creation device according to the present invention creates analysis data in which the total number of case data having all item values from the highest hierarchy to the hierarchy is assigned to each item value of each hierarchy. It may be configured as follows. When configured in this way, the user can easily determine how much case data having all item values from the highest layer to each layer appears.

  The data creation device according to the present invention stores a plurality of item values that represent the same content and are represented in different descriptions as similar words, and represents a representative word that is an item value that indicates the same content as the similar words. It may be configured to further include similar word storage means for further storing in association with. In this case, the analysis data creation means creates analysis data by replacing similar words included in the case data with related representative words. Analysis data in which item values with substantially the same contents, which are input in different words due to notation fluctuation, etc., are placed at different hierarchical levels cause unnecessary confusion for the user who refers to them. There is a case. However, according to the data creation device described above, a plurality of item values that are input in different words due to notation fluctuation or the like, and the item values having substantially the same contents are separately arranged at different hierarchical positions as different item values. Therefore, such a problem can be suppressed.

  The present invention may be realized by a program being executed by an information processing apparatus. That is, the present invention can specify the processing executed by each of the above-described means as a program for causing the information processing apparatus to execute, or a recording medium on which the program is recorded. Further, the present invention may be specified by a method in which the information processing apparatus executes the processing executed by each of the above-described means.

According to the present invention, it is easy to process accumulated data into data for use in subsequent improvement work.

[First embodiment]
〔System configuration〕
First, the data creation apparatus 1a which is 1st embodiment of the data creation apparatus 1 by this invention is demonstrated. In terms of hardware, the data creation device 1a includes a CPU (Central Processing Unit), a main storage device (RAM), an auxiliary storage device, and the like connected via a bus. The auxiliary storage device is configured using a nonvolatile storage device. The nonvolatile storage device referred to here is a so-called ROM (Read-Only Memory: including EEPROM (Erasable Programmable Read-Only Memory), EEPROM (Electrically Erasable Programmable Read-Only Memory), mask ROM, etc.), FRAM (Ferroelectric RAM). ), Hard disk, etc.

  FIG. 1 is a diagram showing functional blocks of the data creation device 1a. The data creation device 1a includes a case data input unit 2, a definition data input unit 3, a case by loading various programs (OS, applications, etc.) stored in the auxiliary storage device into the main storage device and being executed by the CPU. It functions as an apparatus including a data storage unit 4, a definition data storage unit 5, an analysis data creation unit 6a, an analysis data storage unit 7, a display unit 8, and the like. The analysis data creation unit 6a is realized by executing a program by the CPU. The analysis data creation unit 6a may be configured as a dedicated chip. Next, each functional unit included in the data creation device 1a will be described.

<Case data input section>
The case data input unit 2 operates as an input interface when case data is input to the data creation device 1a. The case data may be input to the data creation device 1a by the user operating an input device such as a keyboard or a pointing device. In this case, the case data input unit 2 is configured using the input device described above. In addition, case data recorded on a recording medium such as a floppy (registered trademark) disk, CD-ROM, or DVD-ROM may be input to the data input device 1a. In this case, the case data input unit 2 is configured using a device (floppy (registered trademark) disk drive, CD-ROM drive, DVD-ROM drive, etc.) for reading data from the recording medium described above. In addition, case data may be input to the input device 1a from another information processing device or the like via a network such as the Internet or Ethernet (registered trademark). In this case, the case data input unit 2 is configured using a network interface corresponding to the network described above.

  The case data input to the data input device 1 a via the case data input unit 2 is stored in the case data storage unit 4. The case data is data relating to various cases that occur in a predetermined process. The predetermined process is a process composed of a plurality of processes, for example, a process such as an industrial product manufacturing process or a product quality control process. FIG. 2 is a diagram illustrating an example of case data. The case data has a plurality of items. FIG. 2 shows eight items arranged vertically. Each item has an item name and an item value. One case data includes information about one case, and a plurality of case data are input to the data input device 1a. At this time, it is desirable that item names are common among a plurality of case data input to the data input device 1a. Further, it is desirable that the content of the case data is determined by a person skilled in the predetermined processing. This is because there are cases where it is difficult to make an accurate judgment unless there is a skilled person depending on the item of the case data. However, if there are devices that measure item values, values output from these devices may be determined as item values of the case data as they are.

<Definition data input section>
The definition data input unit 3 operates as an input interface when definition data is input to the data creation device 1a. Similar to the case data input unit 2, the definition data input unit 3 may be configured using an input device such as a keyboard or a pointing device, or may be configured using a device that reads data from a recording medium. The network interface may be used. Further, the case data input unit 2 and the definition data input unit 3 may be configured as an integrated functional unit.

  The definition data input to the data input device 1 a via the definition data input unit 3 is stored in the definition data storage unit 5. The definition data is data indicating the reference order of a plurality of items included in the case data. FIG. 3 is a diagram illustrating an example of the concept of definition data. In the definition data shown in FIG. 3, the reference order is shown for four items of “defect occurrence process”, “defect content”, “defect cause”, and “occurrence prevention measure content”. In other words, there is a “defect occurrence process” at the highest rank, “defect content” at the next lower rank, “defect cause” at the lower rank, and “occurrence” at the lowest rank. There are “preventive measures”. The definition data may be expressed as any type of data as long as the reference order of the plurality of items can be described. The definition data can be described using a structured language such as XML, for example, or can be described as simple text data. Further, it is desirable that the content of the definition data is determined by a person skilled in the predetermined processing, similarly to the content of the case data. This is because selection of items to be included in the definition data and determination of the reference order are processes that require experience and know-how of a skilled person.

<Case data storage unit>
The case data storage unit 4 is configured using a nonvolatile storage device. The case data storage unit 4 stores a plurality of case data input via the case data input unit 2.

<Definition data storage unit>
The definition data storage unit 5 may be configured using a volatile storage device such as a RAM (Random Access Memory), or may be configured using a nonvolatile storage device. The definition data storage unit 5 stores the definition data input via the definition data input unit 2. Further, the definition data storage unit 5 may be configured to store preset definition data.

<Analysis data creation section>
The analysis data creation unit 6 a creates analysis data based on the case data stored in the case data storage unit 4 and the definition data stored in the definition data storage unit 5. The analysis data is data in which item values of items included in a plurality of case data are arranged based on the reference order indicated in the definition data. FIG. 4 is a diagram illustrating an example of analysis data. The example of the analysis data shown in FIG. 4 is analysis data created based on the case data shown in FIG. 2 (including case data that does not appear in the figure) and the definition data shown in FIG. It is an example. The fractional numerator attached to the right side of each item value indicates the total number (number of appearance frequencies) of case data existing in the lower hierarchy of the item value. Further, the denominator of this number indicates the total number of data of the case data. For example, the appearance frequency number of case data whose defect occurrence process is “LD lead cut” is 21, and those case data are “PCB1 insertion not possible”, “PCB1 insertion difficult”, It has one of “decrease in detection capability”. Further, it can be seen that the total number of case data in which the defect occurrence process is “LD lead cut” and the defect content is “PCB1 cannot be inserted” is 11. Furthermore, the case data in which the failure occurrence process is “LD lead cut” and the failure content is “PCB1 cannot be inserted” includes only the case data in which the cause of the failure is “cut blade failure”. It can also be seen that the preventive measure is “cut blade replacement”.

<Analysis data storage unit>
The analysis data storage unit 7 may be configured using a volatile storage device such as a RAM (Random Access Memory) or may be configured using a nonvolatile storage device. The analysis data storage unit 7 stores the analysis data created by the analysis data creation unit 6a.

<Display section>
The display unit 8 is configured using a display device. The display unit 8 may be configured using any existing display device such as a CRT (Cathode Ray Tube) display, a liquid crystal display, a PDP (Plasma Display Panel), or an organic EL (Electro-Luminescent) display. good. The display unit 8 displays the analysis data stored in the analysis data storage unit 7 as hierarchical structure data. For example, the display unit 8 displays the analysis data as shown in FIG. The display unit 8 may be configured to update the display content according to the instruction when the user inputs an instruction regarding the display content via an input device (not shown). For example, when the minus icon 11 shown in FIG. 4 is selected by the user, the minus icon 11 is changed to the plus icon 12 so that the display of all the lower layers of the item values displayed beside it is omitted. It may be configured. On the contrary, when the plus icon 12 shown in FIG. 4 is selected by the user, the plus icon 12 changes to the minus icon 11, and all the items located in the hierarchy one level lower than the item value displayed beside it are displayed. An item value may be displayed.

[Action / Effect]
According to the data creation device 1a configured as described above, analysis data is automatically created based on case data and definition data set by an expert. The generated analysis data is displayed on the display unit 8, and the user can easily know the contents of the analysis data.

[Modification]
The data creation unit 6a may be configured to create analysis data having a hierarchical structure in which the reference order reverse to the reference order indicated in the definition data, that is, the higher order and the lower order are reversed. In the analysis data output from the data creation unit 6a configured as described above, items defined in the deepest hierarchy in the definition data are represented as item values in the highest hierarchy. Therefore, it is possible to immediately confirm the item value without following the hierarchical structure. For example, in the case of the reference order shown in FIG. 3, the content of the occurrence prevention measure is shown at the top, and the frequency of occurrence of each occurrence prevention measure content can be easily visually confirmed. For this reason, it is possible to confirm “the frequency of occurrence of each occurrence prevention measure content” that could not be easily determined by the analysis data shown in FIG. 4 and to refer to the priority order of measures to be taken.

  Further, the data creation device 1a is configured so that the data creation unit 1a can select whether to create the analysis data in the reference order as shown in the definition data or in the reverse reference order. May be. In this case, the user can compare the analysis data created in a hierarchical structure corresponding to both reference orders.

  When the case data includes image data, the definition data may be created so as to include the image data in the reference order. In this case, the analysis data creation unit 6a creates analysis data having image data in a predetermined hierarchy according to the contents of the definition data.

[Second Embodiment]
〔System configuration〕
Next, the data creation apparatus 1b which is 2nd embodiment of the data creation apparatus 1 by this invention is demonstrated. The data creation device 1b differs from the data creation device 1a in that it further includes a similar item value storage unit 9, and in that it includes an analysis data creation unit 6b instead of the analysis data creation unit 6a. Hereinafter, the difference between the data creation device 1b and the data creation device 1a will be described.

<Similar item value storage>
The similar item value storage unit 9 is configured using a nonvolatile storage device. The similar item value storage unit 9 stores a plurality of similar words associated with one representative word. Both representative words and similar words correspond to item values in the case data. The representative word and the similar word have a relationship indicating substantially the same content although there is a difference in wording or description. For example, the representative term “withstand voltage / insulation test” is associated with a plurality of similar terms “withstand voltage / insulation test”, “withstand voltage test, insulation test”, “withstand voltage test”, and “withstand voltage and insulation test”. Remembered. At this time, similar words may include the same “withstand voltage / insulation inspection” as the representative word. The similar item value storage unit 9 stores a plurality of representative words in this way.

  The contents stored in the similar item value storage unit 9 are preferably set by an expert. This is because two item values captured by the same content for amateurs may be regarded as completely different item values when considered professionally.

<Analysis data creation section>
The analysis data creation unit 6b differs from the analysis data creation unit 6a in that the analysis data is created based on the contents stored in the similar item value storage unit 9 in addition to the case data and the definition data. When an item value stored as a similar word is found in the similar item value storage unit 9 as each item value of the hierarchical structure, the analysis data creation unit 6b replaces this item value with a representative word to create analysis data.

[Action / Effect]
Since the item values of all the case data are not always determined by the same person, even if the same item value is input, there is a case where the notation fluctuation occurs depending on the input person. In addition, even when input is made by the same person, there is a possibility that notation shaking will occur if the time and place are different. However, even if multiple item values are input in different language due to notation fluctuation, it is desirable that the analysis data is created by treating them as the same item value if the item values have substantially the same contents. . For example, it is desirable that the item value “breakdown voltage / insulation inspection” and “breakdown voltage inspection / insulation inspection” are originally counted as the same item value, and one hierarchical structure is constructed. This is because when the frequency of appearance is counted as a different item value, the user needs to understand this and add the numbers of frequency of appearance for reference. With respect to such a problem, according to the data creation device 1b, it is possible to absorb notation fluctuation according to the contents defined as the representative word and the similar word. For this reason, it is suppressed that the item value of the same content is handled as a different item value substantially.

It is a figure which shows the functional block of 1st embodiment of a data creation apparatus. It is a figure which shows the example of example data. It is a figure which shows the example of definition data. It is a figure which shows the example of analysis data. It is a figure which shows the functional block of 2nd embodiment of a data creation apparatus. It is a figure which shows the example of the analysis data produced according to the conventional FMEA.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1a, 1b Data preparation apparatus 2 Case data input part 3 Definition data input part 4 Case data storage part 5 Definition data storage part 6a, 6b Analysis data creation part 7 Analysis data storage part 8 Display part 9 Similar item value storage part 11 Negative icon 12 plus icon

Claims (5)

Case data storage means for storing case data having a plurality of items;
Definition data input means that enables to input definition data indicating the reference order of a plurality of items;
Analysis data for creating analysis data having a hierarchical structure from a plurality of case data stored in the case data storage means so that item values of each item of case data are hierarchized according to the reference order indicated in the definition data Creating means;
Display means for displaying the analysis data;
A data creation device.   The analysis data creation means creates analysis data in which the total number of case data having all item values from the highest hierarchy to the hierarchy is assigned to each item value of each hierarchy. Data creation device. A similar word that stores a plurality of item values that indicate the same contents and are represented in different descriptions as similar words, and that further stores a representative word that is an item value that indicates the same contents as the similar words in association with the similar words A storage means,
The data creation apparatus according to claim 1, wherein the analysis data creation unit creates analysis data by replacing the similar words included in the case data with related representative words. An information processing apparatus including case data storage means for storing case data having a plurality of items, input means for allowing data to be input, and display means for performing display,
Receiving input of definition data indicating the reference order of a plurality of items;
The information processing apparatus performs analysis having a hierarchical structure from a plurality of case data stored in the case data storage means so that item values of each item of case data are hierarchized according to a reference order indicated in the definition data Creating data, and
The information processing apparatus displaying the analysis data on the display means;
Data creation method including For an information processing apparatus including case data storage means for storing case data having a plurality of items, input means for enabling data input, and display means for displaying,
Receiving input of definition data indicating the reference order of a plurality of items;
Creating analysis data having a hierarchical structure from a plurality of case data stored in the case data storage means so that item values of each item of case data are hierarchized according to a reference order indicated in the definition data; ,
Displaying the analysis data on the display means;
A program for running

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