JPH0676079A - Trend data display device and top-down display method for the data - Google Patents

Abstract

PURPOSE:To recognize entire data fluctuation and to easily recognize the more detailed conditions of the data fluctuation. CONSTITUTION:This trend data display device is provided with a data storage means 1 for storing the measurement data of plural measuring points, display data analysis means 2 and 3 for outputting one or both of the measurement data as trend data belonging to an upper time layer and statistic data obtained by statistically processing the measurement data and then successively outputting the measurement data belonging to a lower time layer corresponding to an instruction from an outside and a trend data display control means for time sequentially displaying a graph on the screen of a display part for the measurement data outputted from the display data analysis means or the like.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a trend data display device and a trend data top-down display method used when measuring and displaying various data.
In particular, the present invention relates to a trend data display device and a top-down display method of trend data, which enables detailed understanding of an abnormal situation and data change tendency from measured data and the like.

[0002]

2. Description of the Related Art A conventional trend data display device measures data at each measurement point at predetermined time intervals and stores them in time series, while measuring data at each measurement point
The horizontal axis is the time axis and the vertical axis is the data value (measurement span).
It is configured to display trends using a line graph. The trend display means displaying the latest measurement data.

By the way, in the past, when displaying measurement data on a time axis that extends over a relatively long period of time, a paging method in which a page is divided and displayed for each time zone with a good break, and a time axis is equally divided and represented. There is an intermittent data method in which a graph is displayed using points or their average values.

The paging method is a method of grasping the change state of data while displaying the data for each page while sequentially turning the page, while the intermittent data method uses a representative point or an average value at a certain time. This is a method for grasping the change state of data by connecting and displaying it as a line graph.

[0005]

However, the former paging method can grasp a detailed data change, but since it is necessary to grasp the data change from a graph of a huge number of pages, There is a problem that a large number of pages are required to be turned over and a great amount of labor is required to grasp an important data change.

The latter data intermittent method does not require many page turning processing operations, but since a certain representative point or an average value is linked to form a graph, a rough graph is inevitable, and therefore measurement with relatively little change. It is effective for grasping the tendency of data or the change of the whole data, but it is not suitable for grasping measurement data in a short period or sudden data change.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a trend data display device capable of surely grasping a change in the entire data and easily grasping a more detailed situation of the data change. To do.

Another object of the present invention is to provide a top-down display method of trend data capable of promptly displaying an abnormal occurrence time zone or a portion of sudden data change from a huge amount of data. .

[0009]

In order to solve the above-mentioned problems, the invention according to claim 1 stores measurement data of a plurality of measurement points in time series, and a plurality of time layers hierarchical in time. Of the data storage means in which is stored, the measurement data as trend data belonging to the upper time layer that is the initial display period of the plurality of time layers and statistical data obtained by statistically processing the measurement data. A display that outputs one or both, and then outputs one or both of the measurement data and statistical data obtained by statistically processing the measurement data that belong to the lower time layer sequentially according to an instruction from the outside. The data analysis means and the measurement data and statistical data output from the display data analysis means are displayed in a time series graph on the screen of the display unit. A trend data display device in which a command data display control means.

Next, the invention according to claim 2 is one or two or more measurement points of the measurement data of a plurality of measurement points which are stored in advance in time series based on the first display command. Display one or both of the measurement data that belongs to the time layer that is the initial display period and the statistical data obtained by statistically processing the measurement data, and then top-down sequentially to the lower time layer according to instructions from the outside. However, it is a top-down display method of trend data in which one or both of the measurement data and the statistical data are sequentially displayed.

[0011]

Therefore, in the invention corresponding to claim 1, by taking the above-mentioned means, the measurement data for each measurement point is stored in time series in the data storage means. In addition to measurement data, this data storage means stores data such as a plurality of time layers having a time hierarchical structure and a statistical processing method for each time layer.

When a trend data display command is issued from the outside, the display data analysis means outputs the measurement data belonging to the highest time layer, which is the initial display period, or the measurement data belonging to the time layer. The statistical data obtained by the analysis according to the statistical processing method is sent to the trend data display control means. With this trend data display control means, for measurement data and statistical data belonging to the time layer, the horizontal axis is the time axis and the vertical axis is the data display span, and the graphs are displayed in time series on the screen of the display unit. To do.

Thereafter, when grasping the necessary data change based on the graph, if an appropriate time axis is designated from the outside, the display data analyzing means extracts the measurement data belonging to the next lower time layer. Output or output statistical data obtained by statistically processing the measured data according to a statistical processing method, together with the measured data or statistical data belonging to the upper time layer, or only the measured data or statistical data belonging to each time layer Is output and is displayed as a line graph on the screen of the display unit, so it is possible to reliably grasp the overall data change by the data belonging to the upper time layer, and more detailed data change by the data belonging to the lower time layer. The situation of can be easily grasped.

Next, the invention according to claim 2 is one of the measurement data and the statistical data while top-down is sequentially performed to a lower time layer according to a time layer predetermined based on designation of a time axis from the outside. Or, since both are displayed sequentially, it is possible to quickly enlarge and display the abnormal time zone and the part of sudden data change from a huge amount of data, and analyze the data, and thus the state of processes etc. appropriately. Is possible.

[0015]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a functional block diagram showing an embodiment of the device of the present invention. This trend data display device has data storage means 1 for measuring data at each measurement point for a predetermined time, for example, in seconds, and storing them in time series, data display control means 2, data analysis means 4, and the like. Display analysis means and trend data display control means 4 are provided. In addition to the measurement data, the data storage means 1 stores a plurality of time layer data having a time hierarchical structure, data of a statistical processing method, and other various data necessary for display.

The data display control means 2 has an initial display period which is a period to be first displayed from the data storage means 1 in advance (this initial display period is called a first time layer or an upper time layer, for example, 24 days a day). (Which means a period of time) is read out and sent to the data analysis means 3, and subsequently, when a signal by a time axis designation is received from the outside, a second period obtained by equally dividing the period of the first time layer. The measurement data of a time layer, for example, one hour is read and similarly sent to the data analysis means 3.

Upon receiving the measurement data belonging to the first time layer from the data display control means 2, the data analysis means 3 obtains a statistical value according to a predetermined statistical processing method (for example, maximum value / minimum value), and Then, the statistical value of the measurement data belonging to the second time layer is obtained and then sent to the data display control means 2. Here, the data display control means 2
From the data analysis means 3 to the statistical value of the first time layer, the second
When the statistic value of the time layer is received, it is sent to the trend data display control means 4.

The trend data display control means 4 has a first time layer statistical value, a second time layer statistical value, and a limit value (upper limit value / lower limit value) which is predetermined as necessary. Is displayed on the CRT display unit (not shown).
Specifically, the horizontal axis represents the time axis and the vertical axis represents the data value (span value), and the statistical value and limit value of each time layer are displayed in a line graph.

In the above embodiment, the first and second time layers are described, but a third time layer, for example, 1/4 time, based on the second time layer, for example, according to a time axis instruction from the outside. , Fourth time layer eg 1
It has the function of varying the depth of the time layer by sequentially top-downing every minute.

Therefore, according to the configuration having the above-mentioned functions, the data display control means 2 receives the display command from the outside, and the data display control means 2 controls the initial display period of the first time layer, which is the first time layer. After reading the measurement data and temporarily storing it in another memory (not shown), it is displayed on the CRT display unit via the trend data display control means 4, or the measurement data belonging to the first time layer is read from the memory. It can be sent to the data analysis means 3, and the statistical values statistically processed here can be received and displayed on the CRT display section via the trend data display control means 4. 2A
Is a schematic diagram when the period of the first time layer is set to 24 hours a day, and is also an initial display period at the same time.

Thereafter, the operator designates a certain time axis corresponding to the second time layer obtained by equally dividing the first time layer while observing the data change of the measurement data or the statistical value displayed on the CRT display section. Or when the entire time of the first time layer is designated, the data display control means 2 extracts the measured data of the designated time corresponding to the second time layer or each time of the first time layer and outputs the data. It is sent to the analysis means 3. 2B is a schematic diagram when the second time layer is one hour.

When the data analysis means 3 receives the measurement data within the time corresponding to the second time layer from the data display control means 2, it is based on a predetermined statistical processing method (for example, maximum value / minimum value). After obtaining the statistical value of the second time layer, it is supplied to the data display control means 2. here,
In addition to the statistical value of the second time layer, the data display control means 2 sets the limit values (upper limit value / lower limit value) stored in advance in, for example, the data storage means 1 or the like as needed, to the trend data display control means. Send to 4.

Therefore, in the trend data display control means 4, similarly to the display of the measurement data or the statistical value data of the first time layer, the horizontal axis is the time axis and the vertical axis is the data value, and the second time is displayed. The measurement data belonging to the layer or the statistical value of the second time layer obtained by the data analysis means 3 is displayed as a line graph. At this time, the limit value is also displayed on the line graph at the same time. Therefore, the line graph of the measurement data or the statistical value data belonging to the second time layer shows the measurement data or the statistical value data in a state enlarged by 24 times in comparison with the period of the first time layer on the CRT.
It is displayed on the display.

Similarly, a third time-divided second time layer is obtained.
When a certain time corresponding to the time layer of is specified, or when the entire time of the second time layer is specified, the statistical value of the second time layer is obtained in the same manner as described above, and a line is drawn at the same time as the limit value. Display as a graph. 2C is 1 /
It is a schematic diagram when 4 hours is made into the 3rd time layer.

Subsequently, the fourth command is issued based on an instruction from the outside.
It is possible to obtain the statistical value of the time layer of and display it as a line graph at the same time as the limit value. The time of the fourth time layer is, for example, 1 minute as shown in D of FIG.

As described above, when it is desired to grasp the status of the data change at a certain time from the display of the measurement data or the statistical value data belonging to the first time layer, the time axis is designated so that the higher time layer sequentially starts. While going down to the direction of the lower time layer, we will change to the depth of the time layer where the situation of data change can be surely grasped,
It is possible to quickly and appropriately understand the abnormal time zone and the portion of sudden data change from a huge amount of data.

Next, FIG. 3 is a block diagram showing an embodiment in which the apparatus shown in FIG. 1 is further embodied. In the figure, reference numeral 11 is a data processing means for sampling the measurement data of a large number of measurement points at predetermined time intervals and storing it in the external storage device 12 in time series. Reference numeral 13 denotes a set value file, which includes an initial display period (first time layer) and other time layer periods, layer depths, a statistical processing method of each time layer, and a vertical axis of each measurement point. Data such as the display range and limit values (upper limit value / lower limit value) for each measurement point are set.

Reference numeral 14 is a display control means, which is a CR.
When receiving a command to display a certain measurement point from the T display device 15 side, it reads the period of the first time layer set in the set value file 13 and instructs the data processing means 11. Here, the data processing means 11 is the external storage device 1.
After reading the measurement data belonging to the first time layer from 2 and sending it to the line graph display control means 16 via the display control means 14, or after obtaining the statistical value by taking out the statistical processing method from the set value file 13. , To the line graph display control means 16 via the display control means 14.

The line graph display control means 16 uses C
On the screen of the RT display device 15, the horizontal axis represents the time axis and the vertical axis represents the data value, and the measurement data belonging to the first time layer or the statistical value of the first time layer analyzed by the data processing means 11 is a polygonal line. Display as a graph

Thereafter, when the second time layer is designated for a certain time of the first time layer from the CRT display device 15 side, the display control means 14 similarly sets the second value from the setting value file 13 to the second time layer. The period of the time layer is read out and is instructed to the data processing means 11. The data processing means 11 is the second
For the measurement data in the first time layer period based on the time layer period, the statistical processing method is extracted from the setting value file 13 to obtain the statistical value, and then the measured data or the statistical value data is displayed on the display control means 14. Send it back. Here, the display control means 14 takes out the data of the current time layer from the set value file 13 in addition to the measurement data or the statistical value data and sends it to the line graph display control means 16.

The line graph display control means 16 refers to the data of the current time layer to set value file 1
The display range of the vertical axis required for displaying the line graph, the limit value of the measurement point to be displayed and the display period of the horizontal axis are read from 3, and the measurement data or statistical data is created as a line graph according to the time axis, and is displayed on the CRT. It is displayed on the device 15. Then, after displaying this line graph, when the operator again specifies the time axis in order to grasp the detailed contents of the data, the state of the next time layer having a deeper layer depth is displayed.

If an icon for returning the time layer to the reverse is provided in an appropriate space of the CRT display device 15, it is possible to return the current time layer to the original time layer by designating the icon.

FIG. 4A is a diagram showing a display example of the screen of the CRT display device 15 shown in FIG. In the figure, 20 is a line graph of the first time layer, and 30 is the first line graph.
3 is a line graph of a subsequent lower time layer (for example, a second time layer) when a certain time axis of the line graph of the time layer is specified. 21-22, 31-32 are vertical axis display ranges of certain measurement points XXX, 23, 33
Is an upper limit value (limit value), 24 and 34 are lower limit values (limit value), 25 is a period of the first time layer, 35 is a period of the second time layer, 26 is a maximum value of the first time layer,
27 is the minimum value of the first time layer, 36 is the maximum value of the second time layer, and 37 is the minimum value of the second time layer.

Further, if, for example, the time from 14:30 to 15:00 is designated in the line graph of the second time layer, the line graph can be displayed below the third time layer as shown in FIG. 4B, for example. . Since the data 41 that suddenly rises at a certain point is shown in FIG. 4B, in order to grasp the data in detail, if the neighborhood time of the minimum value 41 is further specified, the fourth time layer is further increased. A line graph of can be displayed.

At this time, instead of the line graph of the fourth time layer, for example, a multi-window is provided on the screen of the CRT display device 15, and the maximum value and the minimum value are displayed for each second unit as shown in FIG. 4 (c). You may make it display a numerical value.

Therefore, according to the above-mentioned embodiment, the data of various measurement points are measured and stored in advance at the sampling time which can correspond to the deepest time layer of the layer, and the predetermined initial display period is set. If the measurement data or statistical values are displayed and the time designation is performed based on the measurement data or statistical values to display the measurement data or statistical values of the second time layer, the measurement data or statistics of the initial display period can be displayed. It is possible to grasp the entire data change from the value, and it is possible to easily grasp the more detailed data change situation from the measurement data or the statistical value of the second time layer.

If the first time layer, the second time layer, and the third time layer are displayed in this order on the same screen of the CRT display device 15, the mutual relationship can be easily understood and the operation can be performed. Is very easy to do.

Furthermore, since it is possible to easily increase the depth of the layer sequentially from the line graph display of the first time layer to the second and third time layers, it is possible to quickly display the data change in the time zone of interest. Can grasp the status of data.

In the above embodiment, the set value file 1
Although fixed data is set in advance in 3, the required parameters may be freely set from a terminal device such as the CRT display device 15. In this case, the data display can be made more flexible. Further, although the statistical processing method of the above-described embodiment has been described focusing on the maximum value and the minimum value, other statistical processing methods, for example, logarithmic conversion, while considering other statistical values, for example, the type of data and the degree of data. Etc. may be performed. Furthermore, although the display of a single measurement point has been described, the CRT display device 15
The measurement data and the like at a plurality of measurement points may be simultaneously displayed according to the resolution and the like. Of course, the measurement data and statistical value data of each time layer may be displayed simultaneously. In addition, the present invention can be modified in various ways without departing from the scope of the invention.

[0041]

As described above, according to the present invention, it is possible to surely grasp the entire data change from the display of the measurement data or the statistical value data in the initial display period, and to measure the measurement data or the statistical value of the lower time layer. It is possible to provide a trend data display device that can easily grasp a more detailed data change situation from the data display.

Further, according to the present invention, trend data which can promptly display an abnormal time zone or a portion of sudden data change from a huge amount of data and can appropriately grasp a desired data situation. Can provide a top-down display method of.

[Brief description of drawings]

FIG. 1 is a functional block diagram showing an embodiment of a trend data display device according to the present invention.

FIG. 2 is a schematic diagram of temporal layers when the depth of the sequential layers is increased to explain the operation of the device of the present invention and the method of the present invention.

FIG. 3 is a configuration diagram of an embodiment in which the device of FIG.

4 is a diagram showing a display example of a line graph of each time layer obtained by the apparatus of FIG.

[Explanation of symbols]

1 ... Data storage means, 2 ... Data display control means, 3 ... Data analysis means, 4 ... Trend data display control means, 11
... data processing means, 12 ... external storage device, 13 ... set value file, 14 ... display control means, 15 ... CRT display device, 16 ... line graph display control means, 20 ... first time layer line graph, 26, 27 ... Maximum value and minimum value of first time layer, 30 ... Line graph of second time layer, 36, 37 ... Maximum value and minimum value of second time layer.

Claims (2)

[Claims] 1. Data storage means for storing measurement data of a plurality of measurement points in a time series and a plurality of time hierarchical time layers, and an initial display period of the plurality of time layers. Either one or both of the measurement data and the statistical data obtained by statistically processing the measurement data as the trend data belonging to the upper time layer that is to be output, and thereafter, sequentially the lower time according to an instruction from the outside. Display data analysis means for outputting one or both of the measurement data belonging to the layer and statistical data obtained by statistically processing the measurement data, and measurement data and statistical data output from the display data analysis means. Trend data display control means for displaying a time series graph on the screen of the display unit. Display devices. 2. The measurement data of a plurality of measurement points are stored in advance, and the measurement data and the measurement data of the corresponding time layer are statistically processed while top-down is sequentially performed from an upper layer to a lower time layer according to an instruction from the outside. A top-down display method of trend data, characterized in that one or both of the obtained statistical data are sequentially displayed.