KR970003392B1 - Image control method of facsimile - Google Patents

Abstract

A method for controlling a darkness of an image is disclosed. First, a white image is generated to an A/D converter. At this time, an input compensation value is set in order to sense a white image to an white value. And then the output of the ABC circuit is connected to the input of the A/D converter by a switching process. The image data is read based on the compensation value which is obtained by the input compensation value and a limit value. Thereafter, it is determined whether the read image data exists within an image spec range. When the read image data does not exist within an image spec range, the limit value is changed and a previous process is repeated. When the read image data exists within an image spec range, the compensation value is stored as a comparing compensation value.

Description

Automatic Image Joke Adjustment

1 is a block diagram of a conventional image signal processing apparatus

2 is a flow chart of the operation of the automatic image lightening adjustment method of the present invention

* Explanation of symbols for main parts of the drawings

1: Sampling circuit part 2: Input A / D conversion circuit part

4: switching part 5: comparison A / D conversion circuit part

6: comparator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a facsimile (FAX), and more particularly, to a method for automatically adjusting image lightening, which enables automatic image lightening.

Referring to the accompanying drawings, an image signal processing apparatus and a processing method in a conventional facsimile are as follows.

FIG. 1 is a block diagram of a conventional image signal processing apparatus. First, an input image signal is generated as an electrical signal having a change in size due to light reflectance through an optical system. The data is stored at the same time and a clock is given to it to read the point data one by one, and the data must be held while processing them.

Accordingly, the conventional facsimile image signal processing apparatus includes a sampling circuit unit 1 for sampling to hold an input image signal, and an input A / D conversion for converting the sampled analog signals into digital signals and adjusting the size when converted. ABC (Auto Background Control) unit 3 for processing as a white signal when the circuit unit 2 and the output signal of the input A / D conversion circuit unit 2 have a constant level (when there is a background color) And a switching unit 4 for selecting one of the output signal of the ABC unit 3 and a reference signal, a signal selected by the switching unit 4, multiplied by a compensation value, and then converted into a digital signal. A comparator 6 for outputting image data by comparing the output of the comparison A / D conversion circuit section 5 and the signal of the input A / D conversion circuit section 2 with the signal of the comparison A / D conversion circuit section 5. It is composed.

The conventional image signal processing method configured as described above is as follows.

The facsimile generates an electrical signal with a change in size due to light reflectance through the optical system, and one line of data is simultaneously stored in the optical system and a clock is read to read the point data one by one. The sampling circuit 1 samples the input signal to hold the data during processing.

The input A / D conversion circuit section 2 is multiplied to convert the signal into a signal so that a normal calculation can be performed on the sampled point data.

Then, when the input signal has a constant level (when there is a color) in the ABC circuit section 3, the highest value of several dozen points data in a series of one line data is used to process this as a white signal. Background color value) as the output.

In order to determine the shade of the image, the comparison A / D conversion circuit section 5 is multiplied by a constant value to produce a comparison signal of the comparator 6, and the compensation value of the input A / D conversion circuit section 2 is returned to the input image signal. (White) Generates an image and multiplies it by a specific value to produce an input signal.

At this time, the comparison signal is generated by multiplying the reference voltage input through the switching unit 4 by a constant value and multiplied by the input A / D conversion circuit unit 2 until it changes from the black image to the white image through the comparator 6. Change the value to determine the compensation value.

When the actual image signal comes in, the switching unit 4 is connected to the ABC circuit unit 3, and the signal of the ABC circuit unit 3 is used as the signal source of the comparator 6, so as to compare the signal with the reference voltage and the signal that has passed through the ABC circuit. The joke corresponding to the difference is determined.

However, in such a conventional image signal processing apparatus, the reference voltage used when determining the compensation value of the input A / D conversion circuit portion and the actual image processing because the comparison compensation value multiplied by the comparison A / D conversion circuit portion 5 is a constant. As the difference appearing between the ABC circuit part used at the time is determined to the extent of the shade, there was a problem that the difference of the shade between the products is caused by the error between the parts of the ABC circuit part.

The present invention has been drawn to solve such a problem, and the object of the present invention is to automatically control the change of the image jog standard between the products due to the deviation of the internal parts of the device to prevent the joke difference between the products.

According to the present invention for achieving the above object, the first step of setting the input compensation value so that the image data is recognized as the white when the white image is applied to the input A / D conversion circuit, and the ABC circuit unit compares A / A second step for reading the image data with a compensation value applying a threshold value for determining a shade to the input compensation value and switching to be an input of the D conversion circuit unit, and determining whether the read image data is within a range that can be determined as an image specification. The third step to be performed; if the image data is not within the range that can be determined by the image specification; and the fourth step of changing the threshold value and repeating the third step; and when the read image data is within the range that can be determined by the image specification. And a fifth step of recording and storing the compensation value as the comparison compensation value.

This invention will be described with reference to the accompanying drawings as follows.

2 is an operation flow chart of the automatic image lightening adjustment method of the present invention, the configuration of the image signal processing apparatus is the same as Figure 1 (conventional), the automatic image lightening adjustment method of the present invention is a signal generated due to a structural problem of the optical system In order to minimize the deviation of the input signal, which is a reference signal (here, a white signal) is generated, the size of the signal is compensated to be used for the input of the comparator 6 with the same size on one line.

In other words, one of the comparators 6 (comparative signal) is kept equal to a certain value, and the compensation value for the input signal is changed in order to determine the value of the point at which the input signal becomes larger than the comparison signal as the input compensation value.

When one point data is compensated for in this way, an input signal corresponding to the magnitude of the comparison signal can be obtained.

Therefore, in order to ensure that the comparison signal at this time has a constant value, the switching unit 4 is connected to a reference voltage, and a white image is generated, and the white image is passed to the comparison A / D conversion circuit 5 through the sampling circuit unit 1. When applied, an appropriate compensation value is taken to set the compensation value so that the image data is recognized as white.

For example, assuming that the point data of the sampled input image signal is 10, 8, 9 ___, the reference voltage of the switching unit 4 is 5, and the compensation value of the comparison A / D conversion circuit unit 5 is 20. If it is assumed that the comparison signal is 100 (5 × 20), the compensation value of the point data sampled by the input A / D conversion circuit unit 2 is 10. The point data compensation value of 10 is 10, and the point data compensation value of 8 is 13. , The point data compensation value of 9 is determined to be 11.

When the compensation value setting is completed as described above, the switching unit 4 is connected to the ABC circuit unit 3 so that a signal passing through the ABC circuit unit 3 is input to the comparison A / D conversion circuit unit 5 and then compared. Inputting the Compensation Value The image data is read by applying a threshold value for determining the tone (comparative compensation value = constant value-limit value) to a constant value used when setting the compensation value of the A / D conversion circuit section 2.

At this time, it is checked whether the image signal is within a range that can be determined by the image specification (or between the highest data generation allowable value and the smallest data generation allowable value). If the image signal is not within the range, the comparison compensation value is changed and readjusted.

If it is within the range that can be determined by the image specification, it is recorded and stored and used as a comparison compensation value when an actual image signal is received.

That is, when the image signal is read out and the image signal is smaller than the black data generation allowable maximum value and larger than the black data generation allowable minimum value, the comparison compensation value is recorded and stored. If the value is re-adjusted less than the minimum value allowed for black data generation, repeat the method of re-adjusting the comparative compensation value to a larger value.The comparison compensation is performed with the image signal that can be determined by the image spec. Use as.

Assuming that the ABC circuit section 3 has an error value, if the switching section 4 is connected to the ABC circuit section 3, the magnitude of the input signal is fixed to 100 due to the input compensation as described above. Change the random value to the comparison compensation value of the comparison A / D conversion circuit in order to determine the value when the multiplication value becomes 100.

In the automatic image lightening adjustment method of the present invention as described above, since the change of the image lightness standard among the products due to the deviation of the internal parts of the device is automatically adjusted, various processes for adjusting the tone of each product can be omitted. It has an effect.

Claims (2)

A first step for generating a white image and setting the input compensation value so that the image data is recognized as white when the white image is applied to the input A / D conversion circuit, and switching so that the ABC circuit portion becomes an input of the comparison A / D conversion circuit portion. And a second step of reading the image data with a compensation value applying a threshold value for determining the color tone to the input compensation value, a third step of determining whether the read image data is within a range that can be determined by the image specification, and the image data. Is not a range that can be determined by the image specification, the fourth step of repeating the third step by changing the threshold value, and when the read image data is a range that can be determined by the image specification, the compensation value is recorded as a comparison compensation value. And a fifth step of storing. The method according to claim 1, wherein the range that can be determined by the image specification is smaller than the maximum allowable black data generation value and larger than the minimum allowable black data generation value.