JP2003241828A - System for processing trend display - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a trend display without impairing a long-term data tendency and important data necessary for the operation of a plant in a display period required by an operator. <P>SOLUTION: The number of trend display intervals and the number of history data corresponding to the intervals are computed by the number of time-base display points, which are determined by the trend display period and trend displaying means that are set by the operator. Head data, maximum data, minimum data, final data, mean value data and distribution information of the data in each interval are extracted from among the history data in the intervals corresponding to the number of the trend display intervals. The extraction processing is performed with respect to entire intervals, and displayed on the picture plane of the display trend. The data extracted by the processing becomes the data that are greatly compressed. Also, the trend display is made possible without missing the data being important in the operation and monitoring of the plant, which is required by the operator, thereby enabling a general tendency and behavior to be grasped precisely. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a trend display processing system for displaying a trend of a temporal transition of plant process data.

[0002]

2. Description of the Related Art Many plants are provided with a trend display means for plant process data as important operation monitoring information useful for early detection of whether or not an abnormality has occurred and its possibility.

However, there is a limit to the number of display data that can be displayed on the trend display means. Therefore, when displaying the trend of the display period requested by the operator, if the number of historical data in that period is too large, the conventional system treats the operator's request as an abnormal input and re-inputs such as shortening the display period to the operator. Prompt the operator to shorten the trend display period and set it again to display the trend, or from the huge history data,
The method of thinning out only the number of displayable trend display data at equal time intervals and displaying the trend has been adopted.

However, if the trend display period is shortened, it is impossible for the operator to grasp the data tendency and the like in the entire display period. Further, when the trend data is thinned out and the trend is displayed, important data for plant operation monitoring within the display period designated by the operator may be thinned out and may not be displayed. For example, if there is data or the like that has changed suddenly within the display period designated by the operator, this will be overlooked, which is a serious problem in safely operating the plant or the like.

As described above, in the above method, there is a problem that important changes and trends in plant operation cannot always be displayed accurately. Therefore, Japanese Patent Laid-Open No. 2000-34827.
In Japanese Patent Laid-Open No. 5 publication, in an equipment system that compresses and displays a trend, measurement data that exceeds a set value is not thinned out.

However, if there is a large amount of data that exceeds the set value, the trend display in the form designated by the operator may not be possible due to the display capability of the trend display means. .

Further, the step size of the time axis may become longer or shorter depending on the number of data, and it is not always possible to display the trend as a whole in an easy-to-understand manner.

[0008]

DISCLOSURE OF THE INVENTION The present invention solves the problem of the conventional method in which there is a possibility that important information for operator operation monitoring of the plant may be lost due to the restriction of the trend displaying means in the trend displaying means. It is in.

[0009]

[Means for Solving the Problems] The number of trend display data sections and the number of history data within a section are calculated from the trend display period included in the trend display request information of the operator and the number of displayable time axis display points determined by the trend display means. , From the historical data existing in each section, the beginning data in the section, the maximum value data in the section, the minimum value data in the section, and the final data in the section of the process data for which trend display is requested are extracted and the trend display data is extracted. Display as.

Further, the maximum value and the minimum value of the history data existing in each section and the average value of the data of the section are calculated and displayed.

Further, the maximum value and the minimum value of the history data existing in each section and the distribution status of the data between these data are displayed.

[0012]

DETAILED DESCRIPTION OF THE INVENTION An embodiment of the present invention will be described below with reference to FIG. First, FIG. 1 shows the overall configuration of a trend display processing system according to an embodiment of the present invention.

The plant data 2 is of various types and is taken into the computer from the plant through a detector or the like. The plant data 2 is stored in the history data recording means 16 by the history data collecting means 5 on the basis of a predetermined collection cycle.

When the operator makes a trend display request for these various plant data, there is an input terminal means 1 as an input means of the display request information of the operator. The trend display data identifier, the trend display period, and the trend line distribution display segmentation information for the operator to select the data input from the input terminal means 1 are displayed by the trend display control information setting means 4 and are required for display control in the trend display processing. Set as information.

The history data reading means 7 reads history data required for trend display from the history data recording means 16 based on the set trend display control information. The read history data is compressed by the trend display data compression means 8 and stored as trend display data 17.

In the trend display data compression means 8, first, from the trend display period which is the display control information and the number of time axis display points of the trend display means 3, the number of trend display data sections and the number of history data within section calculation processing 9
Thus, the number of trend display sections and the number of history data corresponding to the section are calculated. Here, the number of display data sections and the number of history data within sections are calculated from the following.

Number of display data sections = Number of all display points on the time axis of the trend display means for the trend display period / Number of display points on the minimum unit of time axis (usually 1 point) Number of history data in section = Number of history data in trend display period ÷ Number of display data sections After that, in the trend display data section extraction processing 10, in each trend display section number, the section head data extraction processing 12, the section maximum value data extraction processing 13, the section from the history data in the corresponding section The in-minimum-value-data extracting process 14 and the in-interval-final-data extracting process 15 respectively extract the in-interval start data, the intra-maximum-value data, the intra-minimum-value data, and the intra-interval final data.

In the intra-section data average value calculation processing 18 and the intra-section data distribution calculation processing 19, the average value of the intra-section data and the distribution information of the intra-section data are calculated, respectively. In addition, as the information for dividing and displaying the data distribution in the trend display data section from the trend line distribution display dividing information included in the trend display control information, the trend from the data in the section is based on the specified information of the average value and data distribution information. Edit as data such as line distribution display color information.

These extracted / edited intra-section data are stored in the trend display data storage means 17 as compressed data in the trend display data editing / storing process 11. The trend display data stored in the trend display data storage means 17 is converted by the trend display output editing means 6 into
The trend display means 3 converts it into an image data signal that can be displayed and outputs it.

The details of the embodiment of the present invention will be described below with reference to FIG.
Will be described. FIG. 2 shows a processing flow of the trend display data compression means. In this figure, the number of trend display sections and the number of history data within a section are calculated in block 10 based on the trend display period input by the operator and the number of time axis display points of the trend display means.

Blocks 20 to 150 for compressing the trend display data by the number of the trend display sections.
repeat. First, in block 20, the storage data of the section data (section start data, section maximum value data, section minimum value data, section end data) in the trend display section is initialized.

Then, in all the history data corresponding to the section of the trend display data, it is judged in block 30 whether the history data is the head data in the section. It is stored as the top data.

Next, in block 50, it is judged whether or not the history data is larger than the maximum value data in the section. If it is larger, it is stored in block 60 as the maximum value data in the section.

Further, in block 70, it is judged whether or not the history data is smaller than the minimum value data in the section,
If it is smaller, it is stored as the minimum value data in the section in block 80. Further, in block 90, it is judged whether or not the history data is the final data in the section.

In this way, block 30 to block 110 are repeated for all the numbers of history data in the section.

Further, for the average value which is the trend line distribution display classification information input by the operator, and the specified information such as the data distribution display, from the data in the section, in block 120, the average value in this section is displayed in block 130. Edit the data distribution status as trend display data that can be displayed as distribution display color information within the section of the trend display line.

At the time when all of these data are completed for the number of history data in the section, the stored respective section data are stored in the block 140 as trend display data of the corresponding trend display data section. That is, in any huge amount of historical data, the number of trend display data can be displayed as a trend with a data number that is several times the number of trend display data sections.

A specific example of trend display according to the embodiment of the present invention will be described with reference to FIG. In FIG. 3, the number of trend display data sections is 6, and the number of history data pieces in the section is 10 as an example.

When the process of the trend display data compression means is executed for the trend display data section 1, the history data numerical value of the head data in the section of the trend display data section 1 is 3, and the history data numerical value of the maximum value data in the section is 1.
2, the history data value of the minimum value data in the section is 2, and the history data value of the final data in the section is 9.
This is repeated up to the display section 6, and the continuous connection of all the data forms the trend line distribution display classification information (none) in the compressed trend display example.

When the operator's trend line distribution display classification information specifies an average value, a data distribution display, etc., the respective display examples are the trend line distribution display classification information (average value) and the trend line distribution display classification. As shown in the information (data distribution), it is possible to display average values, color distribution of trend lines such as data distribution status, etc. within the same section.

In this compressed trend display, it is clear that important data such as maximum value data and minimum value data for each trend display data section are displayed as they are, and long-term data trends are retained. . In addition, within the section, short-term data trends are also held by color-coded display. That is, the maximum value, the minimum value, the average value of the plant process data, which is the important information indicating the operating state of the plant in the trend display, the distribution state of the data, etc. It becomes possible to display as a trend display screen in units of step width determined by the display limit determined by.

According to the present trend display method, for example, from the information of the maximum value and the minimum value, whether the maximum value and the minimum value in the section are peculiar, or the range of the fluctuation that does not cause a problem in plant operation I can see if it is in
Depending on the occurrence situation of the fluctuation range, there is a possibility that the abnormality of the detector or the situation of secular change can be known.

Further, the average value information is information from which short-term fluctuation components and noise components in the plant operation have been removed, and macroscopic plant process trends, aging changes, etc. can be seen.

Further, it is considered that the change of the data dispersion state shows in more detail that some change occurs in the state of the plant process or the detector.

When the trend is displayed in the trend line distribution display format, as shown in FIG. 3, the trend is displayed in a bar shape corresponding to the distribution status of the data in each trend display section,
Since each trend display section is continuous, the trend display is band-shaped as a whole. However, for the plant process data in which the data in the trend display section hardly changes, the display in each trend display section becomes a dot shape, and as a result, the trend display as a whole becomes linear.

Of course, depending on how the scale is displayed in the trend display, it may be linear or strip-shaped.

The role of the head data in the section and the end data in the section is to maintain the continuity of the trend display data by connecting the end data in the section of a certain trend display section and the head data of the next trend display section. However, when the trend is displayed in the form of a line graph, it is important data for displaying the trend.

[0038]

According to the present invention, a huge amount of history data
In other words, the important features of the original data, which are important for plant operation monitoring, are largely compressed and displayed, so that it is possible to correctly inform the operator of the plant operation history.

Further, by comprehensively judging the trend-displayed information, the abnormality in the plant process can be detected at an early stage, and not only the detector but also the secular change of the equipment constituting the plant, the remaining life, etc. It is also possible to make an estimation.

[Brief description of drawings]

FIG. 1 is an overall system configuration diagram of an embodiment of the present invention.

FIG. 2 is a processing flow of a trend display data compression system according to an embodiment of the present invention.

FIG. 3 is a trend display example after the trend display data compression processing according to the embodiment of the present invention.

[Explanation of symbols]

1: Input terminal means, 2: Plant data, 3: Trend display means, 4: Trend display control information setting means, 5: History data collecting means, 6: Trend display output editing means, 7: History data reading means, 8: Trend display data compression means, 9: Trend display data section number, history data number calculation processing in section, 10: Trend display data section extraction processing, 11: Trend display data editing / storing processing, 12: Section first data extraction processing , 13: maximum value data extraction processing within a section, 14: minimum value data extraction processing within a section, 15: final data extraction processing within a section, 16: history data recording means, 17: trend display data storage means, 18: within-section data Average value calculation processing, 19: intra-section data distribution calculation processing.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Koichi Owada             Hitachi 2-3-1, Saiwaicho, Hitachi-shi, Ibaraki             Engineering Co., Ltd. (72) Inventor Makoto Kanamori             Hitachi 2-3-1, Saiwaicho, Hitachi-shi, Ibaraki             Engineering Co., Ltd. (72) Inventor Tsuyoshi Komamura             Hitachi 2-3-1, Saiwaicho, Hitachi-shi, Ibaraki             Engineering Co., Ltd. F term (reference) 5C082 AA12 BA16 BB43 CB01 DA42                       DA87 MM09 MM10                 5H223 AA01 BB01 CC08 DD01 DD07                       DD09 EE06

Claims (3)

[Claims] 1. A history data collecting and recording means for continuously collecting and recording and storing process information indicating an operating state of a plant at a predetermined time interval, an input terminal means for inputting trend display request information of an operator, Trend display data selection means for selecting process data to be trend-displayed from history data stored in the history data collection / recording means based on trend display request information input via the input terminal means, and the trend display data In a trend display processing system comprising trend data display means for displaying at least one trend data selected by the selection means, a trend display period included in the trend display request information and a displayable time axis display determined by the trend display means Trend table from the number of points Calculates the number of data sections and the number of history data in each section, and from the history data existing in each section, the head data in the section, the maximum value data in the section, and the minimum value in the section of the process data for which the trend display request is made. A trend display processing system characterized by enabling extraction and display of data and final data within a section. 2. A history data collecting and recording means for continuously collecting and recording and storing process information indicating an operating state of a plant at predetermined time intervals, an input terminal means for inputting trend display request information of an operator, Trend display data selection means for selecting process data to be trend-displayed from history data stored in the history data collection / recording means based on trend display request information input via the input terminal means, and the trend display data In a trend display processing system comprising trend data display means for displaying at least one trend data edited by the editing means, a trend display period included in the trend display request information and a displayable time axis display determined by the trend display means Trend display from the number of points Over data segment number, calculates the number of sections in the history data, the maximum value of the historical data present in each segment,
A trend display processing system, which is capable of displaying a minimum value and an average value of data in the section. 3. A history data collecting and recording means for continuously collecting and recording and storing process information indicating an operating state of a plant at predetermined time intervals, an input terminal means for inputting trend display request information of an operator, Trend display data selection means for selecting process data to be trend-displayed from history data stored in the history data collection / recording means based on trend display request information input via the input terminal means, and the trend display data In a trend display processing system comprising trend data display means for displaying at least one trend data edited by the editing means, a trend display period included in the trend display request information and a displayable time axis display determined by the trend display means Trend display from the number of points Over data segment number, calculates the number of sections in the history data, the maximum value of the historical data present in each segment,
A trend display processing system, which is capable of displaying a minimum value and a distribution state of data between these data.