JP3768695B2 - Data processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data processing apparatus that averages and outputs input data, and more particularly to a data processing apparatus that can easily set various average processes.
[0002]
[Prior art]
Some data processing devices average the input data. In particular, the displacement measuring device measures surface irregularities of a measurement object, and averages and outputs the measurement data.
[0003]
This averaging process has various settings and operates in a corresponding setting mode. For example: In the intermittent measurement (no averaging) process, the input measurement data is directly output at every predetermined period (sampling period), and the average calculation is not performed. This process is applied, for example, when the measurement object is exchanged one after another for measurement.
2. In simple averaging, a plurality of measurement data of a predetermined period (average period) is averaged and output as an output period for each predetermined period. This process is applied, for example, when continuously measuring the amount of displacement of the surface of the measurement object.
In addition, 3. 3. Intermittent measurement (with average), Some have a setting mode such as moving average.
[0004]
[Problems to be solved by the invention]
A conventional data processing apparatus that performs such an average process is configured to perform an operation of setting an average period and an output period after an operation of selecting a setting mode.
For this reason, when the average cycle and the output cycle are set in a state where the setting mode is incorrectly selected, there is a problem that the setting must be cleared and the setting mode must be selected again.
[0005]
By the way, in the example of the above simple average, although the average period and the output period are the same, the conventional apparatus has a troublesome setting of the average period and the output period.
[0006]
The present invention has been made to solve the above-described problems, and various types of averaging processing can be set with a simple operation with a minimum, and data processing that can determine the setting of each averaging processing and prevent erroneous setting. The object is to provide a device.
[0007]
To achieve the above object, a data processing apparatus of the present invention, against the measured data is continuously input at a constant sampling period (n), predetermined period Dede over data subjected to predetermined average treatment if necessary An average interval setting means (2a) for setting an average period (A) for averaging the measurement data, and an output period for setting the output period (B) of the averaged averaged data Signal processing means (2c) for signal-processing the measurement data in an average processing setting mode based on a setting means (2b), an average period set by the average interval setting means, and an output period set by the output period setting means In a data processing apparatus comprising:
A mode identifying means (2d) for discriminating a corresponding average processing setting mode based on a magnitude comparison between the average period set by the average interval setting means and the output period set by the output period setting means;
Display means (3) for displaying the average processing setting mode determined by the mode identifying means ;
It is provided with.
[0008]
According to a second aspect of the present invention, in the data processing device of the first aspect, the display means (3) displays the average processing setting mode determined by the mode identifying means (2d) and the average processing setting mode. The sampling period (n) of the measurement data, the average period, and the output period are expressed on the same time axis and displayed as an image .
[0009]
Further , the data processing apparatus according to claim 3 is configured to perform predetermined averaging processing on the measurement data continuously input at a constant sampling period (n) and output the data at a predetermined period as necessary. An average interval setting unit (2a) for setting an average period (A) for averaging the measurement data, and an output cycle setting unit (2b) for setting an output cycle (B) of the averaged averaged data. And signal processing means (2c) for signal processing the measurement data in an average processing setting mode based on the average period set by the average interval setting means and the output period set by the output period setting means. In a data processing device,
A mode identifying means (2d) for discriminating a corresponding average processing setting mode based on a magnitude comparison between the average period set by the average interval setting means and the output period set by the output period setting means;
Corresponding to the average processing setting mode determined by the mode identifying means, display means for displaying the image by expressing the measurement data sampling period (n), the average period and the output period on the same time axis. (3) and
It is provided with .
[0010]
The invention according to claim 4 is the data processing device according to any one of claims 1 to 3,
An operation means (1) comprising a touch panel provided on the display screen of the display means (3),
Said average period and the guidance screen for setting the output period displayed on the display means, and can be set a value of said average period and the output period by depressing operating the touch panel in accordance with the guidance screen Features .
[0011]
According to the above configuration, the average period for averaging the data input by the average interval setting unit 2a is set, and the output cycle of the data subjected to the averaging process is set by the output cycle setting unit 2b.
As a result, the signal processing means 2c averages the data during the average period set by the average interval setting means 2a, and outputs the averaged data at the output period set by the output period setting means 2b.
The mode identifying unit 2d discriminates the setting mode based on the set average period and output period, and displays the discriminated setting mode on the display unit 3.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing an embodiment of a data processing apparatus of the present invention.
The apparatus is roughly composed of operation means 1, processing means 2, and display means 3.
In the following description, the data processing apparatus will be described using an example in which the data processing apparatus is applied to a displacement measuring apparatus that measures a displacement amount of a measurement object.
[0013]
The operation unit 1 includes keys and switches for performing various settings for the average processing in the processing unit 2.
The processing means 2 includes an average interval setting means 2a, an output cycle setting means 2b, a signal processing means 2c, and a mode identification means 2d.
[0014]
The average interval setting means 2a and the output cycle setting means 2b make settings for averaging processing.
The average interval setting means 2a sets a value referred to as a period (hereinafter referred to as average interval A) for averaging the measurement data taken in the sampling period n. This average section A indicates sampling period n × sampling number N, and sampling number N is set assuming that sampling period n is a fixed value.
The output cycle setting means 2b sets the value of the output cycle B (sampling cycle n × sampling number N) of the averaged data.
[0015]
A displacement amount such as surface irregularities of the measurement object input from the detector is input to the signal processing means 2c as measurement data.
The measurement data is sampled and taken in at a predetermined sampling period n. Then, the signal processing means 2c performs a predetermined averaging process on the measurement data based on the average interval A set by the average interval setting means 2a and the output cycle B set by the output cycle setting means 2b.
This averaged average value data is output externally. For example, it is displayed on the display means 3 such as an LCD or CRT.
[0016]
The mode identifying unit 2d automatically determines the setting mode based on the average interval A set by the average interval setting unit 2a and the output cycle B set by the output cycle setting unit 2b, and displays the output on the display unit 3.
[0017]
FIG. 2 shows a setting screen.
On the display screen of the display means 3 composed of an LCD, a transparent sheet touch panel constituting the operation means 1 is provided in an overlapping manner. Accordingly, when a predetermined item on the display screen is pressed, the display item is selected and input.
[0018]
On the left side of the display screen, a selection screen / switch 10 for selecting the average interval A and a selection screen / switch 11 for selecting the output cycle B are provided side by side.
On the right side, a cursor key 12 for setting the numerical value of the selected setting item is provided.
Then, after selecting the average interval A or the output cycle B on the selection screens / switches 10 and 11, a numerical value is input by the cursor key 12. By pressing the execution key 13 after inputting the numerical value, the set value of the selected average section A or output cycle B is set.
[0019]
Next, the procedure of the average process of the apparatus having the above configuration will be described using the flowchart of FIG.
First, the average section A or the output period b is selected on the display screen (S1).
When the selection switch 10 of the average section A is pressed, the value of the average section A is set using the cursor key 12 (S2).
When the output cycle B selection switch 11 is pressed, the value of the output cycle B is set using the cursor key 12 (S3).
[0020]
Next, it is determined whether or not both the average interval A and the output cycle B are set (S4), and when either one is not set, the process proceeds to S1.
When the average section A and the output cycle B are both set (S4-YES), the average process is executed (S5).
[0021]
The signal processing means 2c samples the input measurement data at a predetermined cycle, and calculates the average value of the plurality of measurement data sampled during the period set in the average interval A.
Then, every time the set output cycle B arrives, the calculated average value data is displayed on the display means 3.
As described above, according to the apparatus of the present invention, it is possible to execute the averaging process by two simple operations for setting the average interval A and the output period B.
[0022]
For example, when the average interval A is set to average 10 samplings and the output period B is set to output an average value every 10 samplings, the measurement data is 10 samples before that every 10 samplings. The average value of the measured data is displayed and output. That is, a simple average process is executed.
[0023]
Next, the mode identification function of the present invention will be described.
As described above, the averaging process has various modes. 1. Intermittent measurement (no average), 2. 2. Intermittent measurement (with average) Simple average; 4. For example, moving average.
In the present invention, the average value of the measurement data can be output only by setting the average interval A and the output period B as described above. In addition to this, the average set by the function of the mode identifying means 2d shown in FIG. It is possible to automatically determine which mode the processing is in.
[0024]
The mode identification means 2d automatically determines the average processing mode by the following processing based on the comparison of the average interval A that is input by the operation and the period of the output cycle B. It is assumed that the sampling period n is constant.
1. When the number of samplings in the average interval A is equal to or less than the number of samplings in the output period B For example, when one piece of measurement data (N = 1) is output every 10 samplings (N = 10), the measurement mode is intermittent measurement (average None).
Here, when the number of samplings N in the average interval A is fixed to 1, it is determined that the measurement is intermittent without the averaging process.
[0025]
2. When the number of samplings in the average section A ≦ the number of samplings N in the output period B For example, when the average value of 5 pieces of measurement data (N = 5) is output every 10 samplings (N = 10), the measurement mode is intermittent Judge as measured (with average).
[0026]
3. When the number of samplings in the average section A = the number of samplings N in the output period B For example, when the average value of 10 pieces of measurement data (N = 10) is output every 10 samplings (N = 10), the measurement mode is simple Judge as average.
[0027]
4). When the number of samplings in the average section A> the number of samplings N in the output period B For example, when the average value of 15 measurement data (N = 15) is output every 5 samplings (N = 5), the measurement mode is moved Judge as average.
[0028]
Each mode determined by the mode identification unit 2d can be displayed on the display unit 3.
Hereinafter, the procedure of the average process of the apparatus including the mode determination of the mode identification means 2d will be described with reference to the flowchart of FIG. In the figure, the same step numbers are attached to the same portions as the processing contents shown in FIG.
[0029]
First, the average section A or the output period b is selected on the display screen (S1).
When the selection switch 10 of the average section A is pressed, the value of the average section A is set using the cursor key 12 (S2).
When the output cycle B selection switch 11 is pressed, the value of the output cycle B is set using the cursor key 12 (S3).
[0030]
Next, it is determined whether or not both the average interval A and the output cycle B are set (S4), and when either one is not set, the process proceeds to S1.
When the average interval A and the output cycle B are both set (S4-YES), the mode discrimination by the mode identification unit 2d is executed.
First, (average interval A / output cycle B (however, both are for the number of samplings)) is calculated (S6), and the correlation between these average intervals A and output cycle B is determined.
[0031]
As a result, when the average interval A ≦ the output period B and the average interval A is N = 1 (S7—YES), the intermittent measurement (no average) mode is determined (S8).
Then, the display means 3 is displayed and output to the effect that the mode is the intermittent measurement (no average) mode (S9).
As display contents at this time, in addition to the character display indicating the discriminated mode “intermittent measurement (no average)”, as shown in FIG. 5A, the sampling period (n) of the measurement data and the output period B (denoted by ▲) is displayed as an image for a predetermined period on the same time axis.
The illustrated example shows the case where the output period B is N = 10. In this way, the state in which the measurement data is output once every 10 samplings to the operator is imaged. It is imaged that the averaging process is not performed at the same time.
[0032]
Moreover, when the result of S6 is average section A <output period B (S10-YES), it determines with the intermittent measurement (with average) mode (S11).
Then, the display means 3 is displayed and output to indicate that it is in this intermittent measurement (no average) mode (S12).
As display contents at this time, in addition to the character display indicating the discriminated mode “intermittent measurement (with average)”, as shown in FIG. 5B, the sampling period (n) of the measurement data and the average interval An image is displayed for a predetermined period corresponding to A (indicated by Δ) and output period B (indicated by Δ).
The illustrated example shows a case where the average interval A is N = 5 and the output period B is N = 10. In this manner, a state in which an average process for 5 samplings is output every 10 sampling periods is imaged.
[0033]
When the result of S6 is average section A = output cycle B (S13-YES), it is determined that the mode is the simple average mode (S14).
Then, the fact that it is the mode of this simple average is displayed on the display means 3 (S15).
As display contents at this time, in addition to the character display indicating the determined mode “simple average”, as shown in FIG. 5C, the sampling period (n) of the measurement data and the average interval A (Δ Description) and an output period B (described by ▲) are displayed as images for a predetermined period.
The illustrated example shows a case where the average interval A and the output period B are both N = 10. In this way, the state in which the average processing for 10 samplings is output every 10 sampling periods is imaged.
[0034]
Further, when the result of S6 is average section A> output cycle B (S16), it is determined as the moving average mode (S17).
Then, the display means 3 is displayed and output to the effect that it is in this moving average mode (S18).
As display contents at this time, in addition to the character display indicating the discriminated mode “moving average”, as shown in FIG. 5D, the sampling period (n) of the measurement data and the average interval A (Δ Description) and an output period B (described by ▲) are displayed as images for a predetermined period.
The illustrated example shows a case where the average interval A is N = 15 and the output period B is N = 5. In this way, the state in which the average processing for 15 samplings is output every 5 sampling periods is imaged.
[0035]
In this way, when the operator confirms the image display of each determined mode and operates the execution key 13 (see FIG. 2) (S19-YES), the inputted average interval A and output cycle B are obtained. Is set.
The signal processing means 2c measures the input measurement data in the determined mode based on the set average interval A and output cycle B (S5).
If it is determined in S19 that the mode character and image display are wrong and the setting is incorrect (S19-NO), the process proceeds to S1 and only the erroneously set average interval A or output cycle B is displayed on the screen shown in FIG. The procedure can be reset again.
[0036]
In the above-described embodiment, the configuration in which four types of intermittent measurement (no average and average), simple average, and moving average can be set as setting modes for various averaging processes has been described. If the setting mode has the setting of the average interval A and the output cycle B, it can be set by a simple operation by the same procedure.
[0037]
【The invention's effect】
According to the data processing apparatus of the present invention, it is possible to execute the averaging process simply by operating and inputting the averaging period and the output cycle, and it is possible to execute the averaging process in various setting modes with a simple operation. In addition, even in the case of an erroneous setting, it can be reset again with few operations. This setting can be easily and easily performed by directly operating the setting guide screen.
Further, various setting modes can be determined based on the setting of the average period and the output cycle, and the setting mode can be easily confirmed. Further, if the determined setting mode is configured to display an image, it becomes easier to visually grasp the outline of the averaging process, and a setting error can be corrected immediately.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a data processing apparatus of the present invention.
FIG. 2 is a diagram showing an apparatus setting screen.
FIG. 3 is a flowchart showing a procedure of an average process of the apparatus.
FIG. 4 is a flowchart showing a procedure of an average process of the apparatus including mode determination.
FIG. 5 is a diagram showing an image display screen at the time of mode determination.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Operation means, 2 ... Processing means, 2a ... Average area setting means, 2b ... Output period setting means, 2c ... Signal processing means, 2d ... Mode identification means, 3 ... Display means.

Claims (4)

Against the measured data is continuously input at a constant sampling period (n), if necessary be one for outputting a predetermined period Dede over data subjected to a predetermined averaging, averaging the measurement data average The average interval setting means (2a) for setting the period (A), the output cycle setting means (2b) for setting the output cycle (B) of the averaged average value data, and the average interval setting means are set. In a data processing apparatus comprising signal processing means (2c) for signal processing the measurement data in an average processing setting mode based on the average period and the output period set by the output period setting means ,
A mode identifying means (2d) for discriminating a corresponding average processing setting mode based on a magnitude comparison between the average period set by the average interval setting means and the output period set by the output period setting means;
Display means (3) for displaying the average processing setting mode determined by the mode identifying means ;
A data processing apparatus comprising: The display means (3) displays the average processing setting mode determined by the mode identification means (2d), and corresponds to the average processing setting mode, the sampling period (n) of the measurement data, and the average period 2. The data processing apparatus according to claim 1, wherein the output cycle is displayed on the same time axis as an image . The measurement data that is continuously input at a constant sampling period (n) is subjected to a predetermined averaging process as necessary, and the data is output at a predetermined period. A) an average interval setting unit (2a) for setting, an output cycle setting unit (2b) for setting an output cycle (B) of the averaged average value data, and an average set by the average interval setting unit In a data processing apparatus comprising signal processing means (2c) for signal-processing the measurement data in an average processing setting mode based on a period and an output period set by the output period setting means,
A mode identifying means (2d) for discriminating a corresponding average processing setting mode based on a magnitude comparison between the average period set by the average interval setting means and the output period set by the output period setting means;
Corresponding to the average processing setting mode determined by the mode identifying means, display means for displaying the image by expressing the measurement data sampling period (n), the average period and the output period on the same time axis. (3) and
A data processing apparatus comprising: An operation means (1) comprising a touch panel provided on the display screen of the display means (3),
A guide screen for setting the average period and the output period is displayed on the display means, and the values of the average period and the output period can be set by pressing the touch panel according to the guide screen. The data processing apparatus according to claim 1, wherein the data processing apparatus is characterized in that

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