JP2023147502A - Data analysis device and data analysis method - Google Patents

Abstract

To provide a data analysis device and data analysis method capable of easily and appropriately performing an inspection data comparison work.SOLUTION: A data analysis device comprises: a data acquisition section for respectively acquiring sample information including identification information of a plurality of samples being an analysis object and also inspection data of the samples; a first display control section for allowing a display section to display a sample list including the identification information based on the sample information acquired by the data acquisition section; an operation reception section for receiving a user operation on the sample list displayed in the display section; and a second display control section for allowing the display section to selectively display an analysis result corresponding to the user operation received by the operation reception section among the plurality of kinds of analysis results obtained by analyzing the inspection data acquired by the data acquisition section by using a plurality of different analysis methods.SELECTED DRAWING: Figure 3

Description

The present invention relates to a data analysis device and a data analysis method.

Traditionally, noise inspections conducted at motor production sites measure the sounds, vibrations, etc. generated when a motor is driven, and analyze the frequency of the measured data to obtain spectral data (hereinafter referred to as "inspection data"). A threshold value is set to determine pass/fail. By analyzing the inspection data of multiple samples, it is possible to check the quality of the samples and analyze trends in defective products.
For example, Patent Document 1 discloses a vibration monitoring device that monitors vibrations of rotating equipment. This vibration monitoring device automatically monitors the presence or absence of abnormalities in vibration data using pre-stored threshold values, stores vibration data according to the monitoring results, and displays the stored data upon request. .

Japanese Patent Application Publication No. 2003-167623

In the above analysis work, a worker compares the analysis data of a large number of samples to check trends in defective products. However, although conventional tools can visualize the inspection data of each sample using waveform graphs and color maps, the visibility and operability for comparing inspection data are not sufficient, and the comparison work requires a lot of effort. It required a lot of time and effort.
SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a data analysis device and a data analysis method that can easily and appropriately compare test data.

In order to solve the above problems, a data analysis device according to one aspect of the present invention includes a data acquisition unit that acquires sample information including identification information of a plurality of samples to be analyzed and test data of the plurality of samples. , a first display control unit that displays a sample list including the identification information on a display unit based on the sample information acquired by the data acquisition unit; and a user on the sample list displayed on the display unit. An operation reception unit that accepts operations, and a method that responds to user operations received by the operation reception unit among multiple types of analysis results obtained by analyzing the test data acquired by the data acquisition unit using a plurality of different analysis methods. A second display control section that selectively displays the analysis results on the display section.

Further, a data analysis method according to one aspect of the present invention includes the steps of respectively acquiring sample information including identification information of a plurality of samples to be analyzed and inspection data of the plurality of samples, and a step of displaying a sample list including the identification information on a display section, a step of accepting a user operation on the sample list displayed on the display section, and a step of analyzing the obtained test data using a plurality of different analysis methods. The method includes the step of selectively displaying on a display unit an analysis result corresponding to the user's operation from among a plurality of types of analysis results analyzed using the above-mentioned user operation.

According to one aspect of the present invention, analysis results that reflect the user's intention can be displayed on the display unit from among a plurality of types of analysis results, so that the user can conduct an examination based on the displayed analysis results. You can easily and appropriately compare data and analyze the characteristics of samples.

FIG. 1 is a diagram showing an example of the configuration of a data analysis system. FIG. 2 is a functional block diagram showing an example of the configuration of the data analysis device. FIG. 3 is a display example of the first analysis result. FIG. 4 is a display example of the second analysis result. FIG. 5 is a display example of the third analysis result. FIG. 6 is a display example of the fourth analysis result. FIG. 7 is a display example of the sample list. FIG. 8 is a diagram showing the interaction between the sample list and the analysis result display by color. FIG. 9 is a diagram showing the interaction between the sample list and the analysis result display by number. FIG. 10 is a diagram showing a combination of the sorting function and the third analysis result. FIG. 11 is a diagram showing a combination of a sorting function and a narrowing down function. FIG. 12 is a diagram showing a combination of the date sorting function and the fourth analysis result. FIG. 13 is a diagram showing a combination of date sorting and second analysis results. FIG. 14 is a diagram showing the sample search function. FIG. 15 is a diagram showing the analysis data search function.

Hereinafter, exemplary embodiments of the present invention will be described using the drawings.
Note that the scope of the present invention is not limited to the following embodiments, and can be arbitrarily modified within the scope of the technical idea of the present invention.

FIG. 1 is a diagram showing a configuration example of a data analysis system 1000 including a data analysis device 100 in this embodiment.
The data analysis system 1000 in this embodiment is a system for determining the quality of samples and analyzing trends of defective products based on inspection data of a plurality of samples to be analyzed.

In this embodiment, a case will be described in which the sample is a motor and the test data is data for testing noise generated when the motor is driven. For example, the inspection data can be frequency spectrum data obtained by frequency analysis of measurement data obtained by measuring the sound generated when the motor is driven using a microphone or the like. The frequency spectrum data is data that is decomposed into frequency (frequency) on the horizontal axis and signal intensity (magnitude) on the vertical axis.

As shown in FIG. 1, the data analysis system 1000 includes a data analysis device 100, a first display device (analysis result display section) 210, and a second display device (sample list display section) 220.
The data analysis device 100 controls the display of an analysis result display section 210 and a sample list display section 220. The data analysis device 100 can perform display control to cause the analysis result display section 210 to display analysis results obtained by analyzing test data, and display control to cause the sample list display section 220 to display a sample list.
Here, the sample list is a list that includes information regarding samples such as sample identification information (for example, serial name). Furthermore, the analysis results are information that allows the user 300 to compare test data of multiple samples and confirm characteristics of multiple samples.

The data analysis device 100 in this embodiment accepts a user operation on the sample list displayed on the sample list display section 220, and causes the analysis result display section 210 to display an analysis result according to the user operation.
Specifically, the data analysis device 100 selectively selects analysis results according to user operations from among multiple types of analysis results obtained by analyzing test data of multiple samples using multiple different analysis methods. It can be displayed on the display unit 210. The data analysis device 100 also has a function of switching the display format of the sample list and analysis results in accordance with user operations. The above functions include a sorting function for rearranging data, a narrowing function for switching between displaying and hiding data, a search function for searching for data, and the like.

The analysis result display section 210 and the sample list display section 220 are display devices each equipped with a monitor that can be viewed by the user 300.
The user 300 confirms the sample list displayed on the sample list display section 220 and performs operations on the sample list to determine the display format of the analysis results to be displayed on the analysis result display section 210 for the data analysis device 100. Instruct. The data analysis device 100 switches the analysis results displayed on the analysis result display section 210 in response to user operations, and presents the analysis results desired by the user 300. The user 300 checks the analysis results displayed on the analysis result display section 210 and performs sample analysis work.
In other words, the analysis result display section 210 is a main screen that displays analysis results necessary for sample analysis work by the user 300, and the sample list display section 220 is a control screen for switching analysis results to be displayed on the main screen. be.

Note that the analysis result display section 210 and the sample list display section 220 are not limited to separate display devices, and may be, for example, one display device. In this case, a display area for the analysis result display section 210 and a display area for the sample list display section 220 may be provided on a single monitor display screen.
Furthermore, the data analysis device 100, the analysis result display section 210, and the sample list display section 220 may be the same device. For example, the data analysis device 100 may include an analysis result display section 210 and a sample list display section 220.

FIG. 2 is a functional block diagram showing a configuration example of the data analysis device 100.
The data analysis device 100 includes a data acquisition section 110, a quality determination section 120, a list display control section 130, an operation reception section 140, and an analysis result display control section 150.
The data acquisition unit 110 acquires sample information and test data of a plurality of samples to be analyzed. The sample information is information regarding the sample, such as sample identification information and inspection date and time. The test data is, for example, the frequency spectrum data described above.
The data acquisition unit 110 may acquire sample information and test data from a storage medium, for example, or may acquire sample information and test data from an external device via a communication network.

The quality determination unit 120 compares the inspection data acquired by the data acquisition unit 110 with predetermined threshold data to determine the quality of the sample.
The list display control unit 130 is a first display control unit that causes the sample list display unit 220 to display a sample list based on the sample information acquired by the data acquisition unit 110. The sample list can include sample identification information, the quality determination result determined by the quality determination unit 120, and the inspection date and time. Details of the sample list will be described later.

The operation accepting unit 140 accepts user operations on the sample list displayed on the sample list display unit 220. For example, the operation reception unit 140 obtains conditions specified on the sample list by the user 300 operating a keyboard, pointing device, or the like. On the sample list, the user 300 can specify the analysis results to be displayed on the analysis result display section 210 from among multiple types of analysis results, and specify conditions such as the above-mentioned sort function, narrowing function, search function, etc. I can do it.

The analysis result display control unit 150 is a second display control unit that causes the analysis result display unit 210 to display the analysis result in response to a user operation received by the operation reception unit 140. The analysis result display control unit 150 selects an analysis according to a user operation received by the operation reception unit 140 from among multiple types of analysis results obtained by analyzing the test data acquired by the data acquisition unit 110 using a plurality of different analysis methods. The results can be selectively displayed on the analysis result display section 210.

Hereinafter, a plurality of types of analysis results that can be displayed on the analysis result display section 210 will be explained.
In this embodiment, four types of analysis results will be explained. Note that in the following description, the number of samples is assumed to be four in order to simplify the illustration.
FIG. 3 is a display example of the first analysis result 211.
The first analysis result 211 is the result of superimposing the threshold data shown by the broken line in the figure on the inspection data of a plurality of samples shown by the solid line in the figure. In the first analysis result 211, the horizontal axis is frequency (Frequency), and the vertical axis is signal strength (Magnitude). Here, the threshold data is data for determining the quality of the sample. If the value of the inspection data exceeds the threshold value, it can be determined that the sample is a defective product.
In FIG. 3, the inspection data of four samples are displayed in different colors. Note that each piece of inspection data only needs to be visually distinguishable, and may be distinguished, for example, by line type.

The first analysis result 211 displays the test data of multiple samples at once, allowing the user to easily compare the characteristics of multiple samples and easily confirm trends in the characteristics of multiple samples. can do.
Furthermore, since the first analysis result 211 displays the result of superimposing the test data and the threshold data, the user can easily compare the test data and the threshold data. As a result, the user can easily check the tendency of the position (frequency value, hereinafter referred to as "NG position") where the value of the inspection data exceeds the threshold value.

FIG. 4 is a display example of the second analysis result 212.
The second analysis result 212 is a result showing the frequencies determined to be negative by comparing the test data and the threshold value data, that is, the NG positions for a plurality of samples. In the second analysis result 212, the horizontal axis represents frequency, and markers are displayed at NG positions. The marker can be, for example, a red dot. Note that the marker may have any color and shape.

In this second analysis result 212, four samples are distinguished by sample numbers (Sample No.) from 1 to 4, and the NG positions of each sample are displayed side by side in the vertical direction.
Since the second analysis result 212 displays the NG positions of multiple samples at once, the user can easily confirm the trend of NG occurrence positions.

FIG. 5 is a display example of the third analysis result 213.
The third analysis result 213 is a color map in which the difference values between the test data and the threshold data at each frequency are mapped in color for a plurality of samples. Specifically, in the third analysis result 213, the difference values are divided into a plurality of ranks and each rank is displayed in a different color. The color map display of each sample is displayed side by side in the vertical direction. In FIG. 5, four samples are distinguished by sample numbers 1 to 4.

For example, frequencies for which the test data value is equal to or greater than the threshold value (difference from the threshold value in FIG. 5 "0 or less") can be displayed in red. In addition, frequencies where the value of the test data is smaller than the threshold and the difference between the value of the test data and the threshold is 2 dB or less (difference with the threshold in Figure 5 "more than 0, less than 2") can be displayed in yellow. can. In addition, frequencies where the value of the test data is smaller than the threshold and the difference from the threshold is greater than 2 dB and 4 dB or less (difference from the threshold "more than 2, less than 4" in Figure 5) can be displayed in blue. . In addition, frequencies where the value of the test data is smaller than the threshold and the difference from the threshold is greater than 4 dB and 6 dB or less (difference from the threshold "more than 4, less than 6" in Figure 5) can be displayed in green. . Further, frequencies for which the value of the test data is smaller than the threshold value and the difference from the threshold value is greater than 6 dB (difference from the threshold value "more than 6" in FIG. 5) can be displayed in white.
Note that the display colors are not limited to the above.

According to the third analysis result 213, the difference between the inspection data and the threshold value is mapped and displayed in color, so the user can simultaneously confirm the location of NG occurrence and the characteristics of the inspection data compared with the threshold value. . In addition, when mapping the difference values between inspection data and threshold data using colors, the user can easily understand the dangers that are likely to be rejected by using creative ways of coloring, such as using red as the difference from the threshold is smaller as described above. High degree samples or order parts can be easily confirmed.

FIG. 6 is a display example of the fourth analysis result 214.
The fourth analysis result 214 is a scatter diagram showing test data values at a predetermined frequency for a plurality of samples together with threshold data at the frequency. In the fourth analysis result 214, the vertical axis represents the signal strength (Magnitude) at a predetermined frequency, and markers are displayed at the values of the test data. Marker displays for each sample are displayed side by side in the left and right direction. In FIG. 6, four samples are distinguished by sample numbers 1 to 4.
Note that the marker may have any color and shape. Further, in the fourth analysis result 214, the color, shape, etc. of the marker may be changed depending on whether the value of the test data exceeds the threshold value. For example, a red marker may be displayed for a sample whose test data value exceeds a threshold value.

Here, the predetermined frequency may be a frequency specified by the user.
For example, as shown in FIG. 6, the user 300 can specify a predetermined frequency 211a on the first analysis result 211.
Note that among the plurality of types of analysis results, the user can specify a frequency if the analysis result has a frequency axis displayed on the analysis result display section 210. That is, the user may specify the frequency on the second analysis result 212 or the third analysis result 213.

The fourth analysis result 214 allows the user to easily check the distribution and variation of data at a specific frequency.
Further, since a scatter diagram at a frequency specified by the user can be displayed, the user can easily check the distribution and dispersion of data at the frequency of interest. Furthermore, since the user can specify the frequency on other analysis results displayed on the analysis result display section 210, operability is good. Note that the frequency designation by the user may be designation of a single value or designation of a specific range.

The analysis result display control unit 150 shown in FIG. 2 displays one or more analysis results among the first to fourth analysis results shown in FIGS. It can be selectively displayed on the analysis result display section 210.
As described above, the data analysis device 100 according to the present embodiment can visualize not only the test data but also the result of comparing the test data and the threshold value data. Therefore, the user 300 can easily check the difference between the NG position and the threshold value at the NG position, and it becomes possible to perform an analysis focusing on the part that has been judged as NG by the pass/fail judgment using the threshold value data.

Next, the sample list displayed on the sample list display section 220 will be explained.
FIG. 7 is a display example of the sample list 221.
As shown in FIG. 7, the list display control unit 130 can cause the sample list display unit 220 to display a sample list 221 including a reading number, display/non-display information, serial name, pass/fail determination result, and inspection date and time. .
Here, the sample reading numbers can be serial numbers starting from 1.

The display/non-display information is information on whether or not to display the analysis results on the analysis result display section 210. A check button can be provided in each area where this display/non-display information is displayed. The user can individually select samples to be displayed by operating the check boxes.
Further, the sample list 221 may be provided with a check button 222 for selecting all, as shown in FIG. In this case, by operating the check button 222, the user can switch between displaying and non-displaying all the samples at once. With this, for example, you can individually uncheck samples to be hidden from a state where all samples are checked, or conversely, individually uncheck samples to be displayed from a state where all samples are unchecked. This improves operability.

The serial name is unique information that can identify the sample, and includes an identification number such as a serial number.
The pass/fail determination result is a result determined by comparing inspection data and threshold data. In the sample list 221 shown in FIG. 7, the pass/fail judgment results include the overall judgment result and the judgment result of the display inspection. Details of the pass/fail determination results will be described later.
The inspection date and time is the date and time when the inspection was performed, and can be, for example, the date and time when the measurement data of the sample was acquired.
Note that the items displayed in the sample list 221 are not limited to the items shown in FIG. Any information, etc. is fine.

The quality determination results displayed on the sample list 221 will be described below.
A sample list 221 shown in FIG. 7 is an example of a sample list when testing one sample under a plurality of different conditions.
If at least one of the plurality of tests results in an NG determination, the sample is determined to be a defective product (NG product), and "NG" is displayed in the "overall determination result" of the sample list 221. On the other hand, if all tests result in an OK determination, the sample is determined to be a non-defective product (OK product), and "OK" is displayed in the "overall determination result" of the sample list 221.

Further, the sample list 221 can include, for example, a pull-down 223. By operating the pull-down 223, the user can select a test to be displayed from among a plurality of tests (test 1, test 2, . . . ).
In “Determination Results of Displayed Tests” in the sample list 221, individual determination results of the test selected from the pull-down 223 (test 1 in FIG. 7) are displayed. That is, if the product is determined to be NG in inspection 1, "NG" is displayed, and if the product is determined to be OK in inspection 1, "OK" is displayed.
Note that FIG. 7 shows an example in which the overall judgment result and the judgment result of the display inspection are the same, but even if the judgment result of the display inspection is "OK", the overall judgment result is "NG". There are cases.

The list display control section 130 can display the sample list 221 shown in FIG. 7 on the sample list display section 220 based on the sample information.
At this time, the list display control unit 130 may display a plurality of samples in the sample list 221 by distinguishing them by color. For example, as shown in FIG. 7, areas for displaying display/non-display information of the sample list 221 may be displayed in different colors.

In this case, the analysis result display control unit 150 may use the colors displayed in the sample list 221 to distinguish the analysis data of each sample and display the analysis results. In other words, as shown in FIG. 8, when displaying the first analysis result 211 on the analysis result display section 210, the color of the test data on the first analysis result 211 is determined by the display/non-display information of the sample list 221. The color is set to be the same as the color of the area 221a that displays.
Thereby, the sample information on the sample list 221 and the analysis data on the first analysis result 211 can be visually associated, and it becomes easy to link the two.

Further, the list display control unit 130 may display the results of the quality determination of the samples in the sample list 221 by distinguishing them by color. For example, as shown in FIG. 8, an area 221b for displaying the quality determination result of the sample list 221 may be displayed in a color according to the determination result. For example, if the result of the quality determination is OK, it can be displayed in blue, and if the result of the quality determination is NG, it can be displayed in red.
In this way, by displaying the results of sample quality determination in different colors, the user can easily distinguish between OK products and NG products on the sample list 221. Therefore, it becomes possible to easily link the sample information of NG products on the sample list 221 and the analysis data on the first analysis result 211.

Although a case has been described in which the areas 221a on the sample list 221 are each displayed in a different color as a method for displaying a plurality of samples in the sample list 221 in different colors, the present invention is not limited to the above method. The user only needs to be able to easily check the color associated with each sample; for example, the areas that display the read number may be displayed in different colors, or the areas that display the serial name may be displayed in different colors. You may. Additionally, a new area may be provided to display colors associated with each sample.

Further, the list display control unit 130 may display a plurality of samples in the sample list 221 by distinguishing them by number. In the sample list 221 shown in FIG. 7, a plurality of samples are distinguished by read numbers 221c.
In this case, the analysis result display control unit 150 may use the numbers displayed in the sample list 221 to distinguish the analysis data of each sample and display the analysis results. That is, as shown in FIG. 9, when displaying the second analysis result 212 on the analysis result display section 210, the sample number 212a is set to be the same as the reading number 221c on the sample list 221.

In this case as well, the sample information on the sample list 221 and the analysis data on the second analysis result 212 can be visually associated, making it easy to link the two.
Note that, as shown in FIG. 7, when a plurality of samples are displayed in the sample list 221 using both colors and numbers to distinguish them, the analysis result display control unit 150 can The analysis results may be displayed by distinguishing the analysis data of each sample using colors and numbers. For example, the color of the marker of the second analysis result 212 shown in FIG. 9 may be the same as the color of each sample on the sample list 221.

Furthermore, the list display control unit 130 can have a sorting function to change the arrangement order of the sample list 221.
In this case, the operation accepting unit 140 accepts the user's designation of a specific item from among the multiple items displayed on the sample list 221. For example, the user specifies the item to be sorted by clicking on the item name of the item to be sorted among the item names displayed at the beginning of each column on the sample list 221. The operation reception unit 140 receives the above user operation, and the list display control unit 130 changes the arrangement order of the sample list 221 and displays it on the sample list display unit 220 based on the designation received by the operation reception unit 140. .

The sample list 221 can be sorted, for example, by "comprehensive judgment." In this case, as shown in FIG. 10, the NG group 221d and the OK group 221e can be displayed vertically on the sample list 221. Thereby, the user 300 can easily confirm the serial name and the like of the NG product. In this way, the visibility of the sample list 221 is improved.

Further, the analysis result display control unit 150 may rearrange the analysis data according to the order of the sample list 221 and display the analysis results. For example, as shown in FIG. 10, when displaying the third analysis result 213 on the analysis result display section 210, the NG group 213a and the OK group 213b are divided vertically on the color map according to the arrangement order of the sample list 221. can be displayed. This makes it possible to easily compare the trends of OK products and the trends of NG products.
Note that in the third analysis result 213 shown in FIG. 10, the bottom sample number is set to 1, but the top sample number may be set to 1 in accordance with the arrangement order of the sample list 221.

Furthermore, the analysis result display control section 150 can have a filtering function that narrows down the analysis data and displays it on the analysis result display section 210.
In this case, the operation accepting unit 140 accepts designation of a sample whose analysis results are to be displayed from among the plurality of samples included in the sample list 221. Specifically, the user can specify a sample for which analysis results are to be displayed by operating a check button provided in an area displaying display/non-display information on the sample list 221. The operation reception unit 140 receives the above user operation, and the analysis result display control unit 150 causes the analysis result display unit 210 to display an analysis result that includes only the analysis data of the sample specified by the operation reception unit 140.

For example, if it is desired to display the first analysis result 211 that includes only analysis data of NG products, check only the checkbox of NG products on the sample list 221, as shown in FIG. 11. As a result, only the analysis data of the NG product is displayed in the first analysis result 211.
In this way, the analysis result display control unit 150 can selectively display only the analysis results of the sample that the user 300 has focused on, out of a large number of samples. Therefore, the user 300 can easily check and compare the characteristics of the samples.

Note that by combining this with the above sorting function, it is possible to easily specify samples for which analysis results are to be displayed.
As shown in FIG. 11, if the sample list 221 is sorted by overall judgment and the NG group 221d is displayed together at the top of the sample list 221, it becomes easy to specify NG products. Furthermore, for example, by sorting the sample list 221 by inspection date and time, it is possible to easily specify samples that were inspected during a specific time period. In this way, the operability of the sample list 221 is improved.

Note that the sample list 221 may be provided with a function that allows, for example, checking the checkboxes of only NG products at once. Further, the sample list 221 may be provided with a function that allows the checkboxes of samples tested during the specified time period to be checked all at once by specifying a specific time period.

Furthermore, if the sample list 221 is sorted by inspection date and time, it becomes possible to confirm trends in inspection index values.
For example, as shown in FIG. 12, if the sample list 221 is sorted by inspection date and time 221f, and the analysis data of the fourth analysis result 214 is rearranged according to the order of the sample list 221, the analysis data is chronologically arranged in the direction of the arrow. They can be displayed in order. In other words, the horizontal axis of the scatter diagram can be treated as the time axis.
For example, as shown in FIG. 13, if the sample list 221 is sorted by inspection date and time 221f, and the analysis data of the second analysis result 212 is rearranged according to the order of the sample list 221, the analysis data is sorted in the direction of the arrow. It can be displayed in chronological order. In this case, the NG position and the date and time when the NG occurred can be easily confirmed.

Furthermore, the list display control unit 130 can have a sample search function to search for samples on the sample list 221.
In this case, the operation reception unit 140 also functions as a second operation reception unit that accepts the user's designation of specific analysis data on the analysis results displayed on the analysis result display unit 210. For example, the user specifies specific analysis data by placing a cursor on the analysis data, clicking on the analysis data, etc. on the analysis result. The operation reception unit 140 receives the above user operation, and the list display control unit 130 visually highlights the sample corresponding to the specific analysis data designated by the operation reception unit 140 on the sample list 221.

For example, as shown in FIG. 14, when the user places the cursor 215 on specific test data on the first analysis result 211, the corresponding sample (the sample with reading number = 3 in FIG. 14) on the sample list 221 is displayed. Sample information 224 is highlighted. This allows the user to easily search for a sample corresponding to the analysis data of interest from among a large number of samples. Similarly, on the second to fourth analysis results 212 to 214, by placing the cursor 215 on the analysis data, it is possible to search for samples on the sample list 221 side.
Note that the method of highlighting a sample is not particularly limited, and the sample information (row of the sample list 221) of the sample to be highlighted may be highlighted or blinked. Alternatively, only the reading number of the sample to be highlighted may be highlighted or blinked.

Furthermore, the analysis result display control unit 150 can have an analysis data search function that searches for analysis data on the analysis results.
In this case, the operation accepting unit 140 accepts the user's designation of a specific sample among the plurality of samples included in the sample list 221. For example, the user specifies a particular sample by placing the cursor on the reading number on the sample list 221, clicking the reading number, or the like. The operation reception unit 140 receives the above user operation, and the analysis result display control unit 150 visually emphasizes the analysis data of the specific sample specified by the operation reception unit 140 on the analysis result.

For example, as shown in FIG. 15, when the user places the cursor 225 on reading number=3 on the sample list 221, the corresponding analysis data 216 is highlighted on the analysis result. This allows the user to easily search for the analysis data of the sample of interest from among a large amount of analysis data.
Note that the method of highlighting the analysis data is not particularly limited, and the analysis data to be highlighted may be highlighted or blinked.

As described above, the data analysis device 100 in this embodiment obtains sample information including identification information (serial names) of a plurality of samples to be analyzed, and test data of the plurality of samples. Furthermore, the data analysis device 100 causes the sample list display unit 220 to display a sample list 221 including identification information based on the acquired sample information. The data analysis device 100 also accepts user operations on the sample list 221 displayed on the sample list display section 220. Then, the data analysis device 100 selectively displays, on the analysis result display section 210, the analysis result corresponding to the user's operation on the sample list 221, among the plurality of types of analysis results.
Here, the multiple types of analysis results are the results of analyzing the acquired test data using multiple different analysis techniques. In this embodiment, the data analysis device 100 can selectively display the analysis result according to the user's operation among the four types of analysis results.

In this way, the data analysis device 100 can display, on the analysis result display section 210, an analysis result that reflects the user's intention from among a plurality of types of analysis results. Therefore, the user can easily and appropriately compare test data and analyze the characteristics of the sample based on the displayed analysis results.
Here, the sample is, for example, a motor. Further, the above-mentioned inspection data is data for inspecting noise generated when driving the motor, for example. In this case, in a production site where a large number of motors are produced, it is possible to reduce the labor of workers required to inspect the noise of the motors, and it is possible to reduce human costs.

The data analysis device 100 also causes the sample list display section 220 to display a sample list 221 in which a plurality of samples are distinguished by at least one of color and number, and uses at least one of the color and number displayed on the sample list 221 to The analysis data of a plurality of samples can be distinguished and the analysis results displayed on the analysis result display section 210.
Thereby, the sample list 221 and the visualization of the analysis results can be linked by at least one of color and number, and it becomes easy to link the two.

The data analysis device 100 also has a sorting function, a narrowing function, and a search function, and can change the order of the sample list 221, narrow down the samples to be displayed as analysis results, and specify the You can also present samples or analysis data that you received.
In this way, the data analysis device 100 can switch the display of the sample list 221 and the analysis results according to the conditions specified by the user 300. The user 300 can easily and appropriately compare sample data by mutually using the main screen where the analysis results are displayed and the control screen where the sample list 221 is displayed.

In this way, the data analysis device 100 according to the present embodiment can provide a user interface with high visibility and operability when the user performs a test data comparison operation. Therefore, the user can easily and appropriately compare test data.

(Modified example)
In the above embodiment, a case has been described in which the sample to be analyzed is a motor, but it is not limited to the above. For example, the sample to be analyzed is a device that generates noise (sound, vibration, etc.) during operation. It is also possible to do this. Further, the inspection data is not limited to data for inspecting noise, and may be any time series data that can be judged as good or bad by comparison with predetermined threshold data, for example.

DESCRIPTION OF SYMBOLS 100... Data analysis device, 110... Data acquisition part, 120... Quality determination part, 130... List display control part, 140... Operation reception part, 150... Analysis result display control part, 210... Analysis result display part, 211... First analysis result, 212...second analysis result, 213...third analysis result, 214...fourth analysis result, 220...sample list display section, 221...sample list, 300...user, 1000...data analysis system

Claims (16)

a data acquisition unit that acquires sample information including identification information of a plurality of samples to be analyzed and inspection data of the plurality of samples;
a first display control unit that causes a display unit to display a sample list including the identification information based on the sample information acquired by the data acquisition unit;
an operation reception unit that receives a user operation on the sample list displayed on the display unit;
A display section selectively displays an analysis result corresponding to a user operation received by the operation reception section from among a plurality of types of analysis results obtained by analyzing the test data acquired by the data acquisition section using a plurality of different analysis methods. A data analysis device comprising: a second display control unit for displaying information on a screen. the first display control unit causes the display unit to display the sample list in which the plurality of samples are distinguished by at least one of color and number;
The second display control section is characterized in that it displays the analysis results on the display section by distinguishing the analysis data of the plurality of samples using at least one of a color and a number displayed on the sample list. The data analysis device according to claim 1. The inspection data is frequency spectrum data,
3. The plurality of types of analysis results include a first analysis result obtained by superimposing threshold data for determining the quality of the samples on the test data of the plurality of samples. Data analysis equipment as described. The first display control unit causes the display unit to display the sample list including the results of the quality determination of the sample,
4. The data analysis device according to claim 3, wherein the quality determination is made by comparing the inspection data and the threshold value data. The first display control section includes:
5. The data analysis device according to claim 4, wherein the results of the quality determination of the sample are displayed in a distinguishable manner by color. From claim 3, wherein the plurality of types of analysis results include a second analysis result indicating a frequency determined to be negative by comparing the test data and the threshold value data for the plurality of samples. 5. The data analysis device according to any one of 5. 6. The plurality of types of analysis results include a third analysis result in which a difference value between the test data and the threshold data at each frequency is mapped in color for the plurality of samples. The data analysis device according to any one of the above. 8. The plurality of types of analysis results include a fourth analysis result indicating the value of the test data at a predetermined frequency together with the threshold value data for the plurality of samples. The data analysis device according to item 1. The data analysis according to claim 8, wherein the predetermined frequency is a frequency specified by the user on the analysis result having a frequency axis displayed on the display unit among the plurality of types of analysis results. Device. The operation reception unit accepts designation of a specific item among the plurality of items displayed on the sample list,
10. The first display control section changes the arrangement order of the sample list and displays the sample list based on the designation received by the operation reception section. Data analysis equipment as described. The second display control section includes:
11. The data analysis device according to claim 10, wherein the analysis results are displayed by rearranging the analysis data according to the order of the sample list. The operation reception unit is
Accepting designation of a sample for which the analysis results are to be displayed among the plurality of samples included in the sample list;
The second display control section includes:
12. The data analysis apparatus according to claim 1, wherein the display section displays the analysis results including only the analysis data of the sample specified by the operation reception section. The operation reception unit is
Accepting the designation of a specific sample among the plurality of samples included in the sample list,
The second display control section includes:
13. The data analysis device according to claim 1, wherein the analysis data of the specific sample designated by the operation reception unit is visually emphasized on the analysis result. further comprising a second operation reception unit that accepts designation of specific analysis data on the analysis results displayed on the display unit,
The first display control section includes:
According to any one of claims 1 to 13, the sample corresponding to the specific analysis data specified by the second operation receiving unit is visually emphasized on the sample list. data analysis equipment. The sample is a motor,
15. The data analysis device according to claim 1, wherein the test data is data for testing noise generated when the motor is driven. obtaining sample information including identification information of a plurality of samples to be analyzed and inspection data of the plurality of samples;
Displaying a sample list including the identification information on a display unit based on the acquired sample information;
accepting a user operation on the sample list displayed on the display unit;
The method further comprises the step of selectively displaying, on a display unit, an analysis result corresponding to the user operation among a plurality of types of analysis results obtained by analyzing the acquired test data using a plurality of different analysis methods. data analysis method.

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