JP2511963B2 - Image processing device in electronic stencil plate making machine - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image processing apparatus in an electronic stencil plate making machine or the like.

2. Description of the Related Art Conventionally, as shown in FIG. 3, a data buffer 3 for latching an image input 1, a thinning means 4 for thinning out an input synchronizing signal 2, and a scale control section 5 for controlling the thinning means 4 are provided. The thinning means 4 thins the input synchronizing signal 2 under the control of the output of the scale controller 5, and the thinned input synchronizing signal 2'controls the data buffer 3 and becomes the synchronizing output 7. The image input 1 is thinned out and latched by the data buffer 3 and becomes the image output 6. The image reduction is performed by the image output 6 and the synchronous output 7 (for example, JP-A-59).
-178863).

Next, this conventional example will be described based on the timing chart of FIG. FIGS. 4a to 4e show waveforms at points a to e in FIG. In this system, input sync signal 2
The pixel is determined by the rising edge of, and the value of the image input 1 at that time becomes the value of the pixel.

Each pixel of the image input 1 is composed of N bits. Therefore, in a of FIG. 4, a, a + 1, a + 2, ... Are 0 respectively.
~ (2 ^N -1) takes any value. Now, when the pixel (a + 3) of the signal a is to be thinned by the signal c from the scale controller 5, the signals (b) and (c) are applied to the thinning means 4 to generate the thinning signal d. By using this signal d, the data buffer 3 decimates it from the signal a to the signal e. That is, from the signal e to the pixel (a
The +3) mark is thinned out, and the number of pixels is reduced by one at the same time, resulting in a scale operation.

Problems to be Solved by the Invention In such a conventional configuration, as shown in FIG. 4, the a + 3rd pixel of the image input is thinned out and deleted.
If the thinned image input is a line portion of a line drawing having a line width close to the pixel pitch, there is a problem that the line image is deleted and the image quality of the output image deteriorates.

The present invention solves such a problem, and an object of the present invention is to provide an image processing apparatus capable of improving the image quality of an output image by reflecting the image input of all pixels on the image output. It is a thing.

Means for Solving the Problems An image processing apparatus in an electronic stencil printing plate making machine or the like according to the present invention includes an image input representing one pixel in a multivalued manner and an input synchronization signal for sampling the image input in pixel units. A first data buffer for holding the image input in synchronization with the input synchronization signal, and a numerical function generator for outputting an average value of the image input and the first data buffer output, A data selector for selecting one of the output of the numerical function generator and the output of the first data buffer, a scale control unit for outputting a scale control signal having a generation frequency according to the scale ratio, and the input synchronization signal for each pixel. And a timing adjusting unit which is controlled by the output of the scale control unit and outputs a signal for controlling the thinning unit and a selection signal for controlling the data selector. And a second data buffer for holding the output of the data selector in synchronization with the output of the thinning means, wherein the output of the second data buffer is an image output and the output of the thinning means is an output synchronization signal output. Is.

Action With this configuration, even if the two image inputs to be deleted are line portions of a line drawing having a line width close to the pixel pitch, the image input is reflected as image data reflecting the image input in the image output, and all Since the image input of pixels is reflected in the image output, the image quality of the output image can be improved.

Embodiment FIG. 1 is a block diagram of an image processing apparatus according to an embodiment of the present invention, and FIG. 2 is a timing chart of each part thereof. In the figure, 3 is a data buffer for latching the image input 1 in synchronization with the input synchronizing signal input 2, 4 is thinning means for thinning out the input synchronizing signal 2, 5 is a scale control unit for outputting a scale control signal, and 8 is an image. Function generator 8 with input 1 and data buffer 3 output as variable inputs, 9 is function generator 8
, A data selector for selectively outputting either the output of the data buffer 3 or the output of the data buffer 3, and a timing adjusting unit 10 for generating a selection signal for controlling the data selector 9 and a signal for controlling the thinning means 4 at a predetermined timing. Is a data buffer for latching the output of the data selector 9 in synchronization with the output of the thinning means 4.

The operation of the image processing apparatus configured as described above will be described below. In FIG. 1, when the scale control signal j output from the scale control unit 5 is at a high level, the output from the timing adjustment unit 10, that is, a signal for controlling the thinning means 4
When the selection signal h for controlling the data selector 9 with 1c becomes high level, the image input 1 is latched by the data buffer 3 by the input synchronizing signal 2, and the output f of the data buffer 3 is selected by the data selector 9. To be done. On the other hand, the input synchronizing signal 2 is not thinned by the thinning means 4, and the output i of the data selector 9 is the output d of the thinning means 4.
Is latched in the data buffer 11 in synchronism with, and the output of the data buffer 11 becomes the image output 6. When the scale control signal of the output j of the scale control unit 5 has a low level pulse, the image input 1 and the image input 1 are output by outputting the low level pulse to the output h of the timing adjustment unit 10, that is, the selection signal of the data selector 9. The data selector 9 selects the output g of the function generator 8 which receives the output f of the data buffer 3 which is the image input adjacent to the front. On the other hand, a low level pulse is output to the output of the timing adjustment unit 10, that is, the signal for controlling the thinning-out unit 4, so that the input synchronization signal 2
Is decimated by the decimating means 4 and output to the synchronous output 7. The output of the data selector 9 is latched in the data buffer 11 in synchronization with the output of the decimating means 4 before being decimated,
The output of the data buffer 11 becomes the image output 6. The timing adjusting unit 10 adjusts and outputs the output timing of the selection signal for controlling the data selector 9 and the signal for controlling the thinning means 4 at the above timing. As the function generator 8, a numerical function generator configured to output the average value of two image signals input as the image input 1 is used.

In addition, when it is desired to obtain different kinds of average values depending on the purpose of use, it is possible to switch between them by using a plurality of numerical function generators configured to output different kinds of average values. However, the same effect can be obtained.

Next, the embodiment of the present invention shown in FIG. 1 will be specifically described by using the waveforms of the respective portions of FIG.

The image input 1 is a pixel (a) composed of N bits,
(A + 1), (a + 2), (a + 3) ... (Signal (a)), which is taken into the data buffer 3 at the trailing edge of the input synchronization signal 2 (Signal (b)), and is like the signal (f). The state is shifted from the signal (a). Then, for the signals (a) and (f), for example, an average value is calculated by the function generator 8 and becomes the signal (g). That is, each element Results in. On the other hand, the signal (i) is output by the data selector 9 that selects the signal (g) when the output h of the timing adjusting unit 10 is at the low level and selects the signal (f) when the output is at the high level. here, Is. Then, the signal (i) is decimated in the data buffer 11 by the output signal (d) obtained by the decimating means 4, and the signal (e) is obtained. In this way, the pixel (a +
1) and (a + 4), pixels (a + 2), (a +
There will be an average of 3). Therefore, conventionally, when the scale is reduced, a part of the pixel information is deleted, which causes a problem that the image quality is deteriorated, but in the present embodiment, such a problem is not seen.

As described above, according to the present invention, by deleting the image input of two adjacent pixels and adding the image data of one pixel (for example, the average value) obtained from the two-pixel input to be deleted,
The image input of all pixels is reflected in the image output, and the image quality of the output image can be improved.

Particularly, in the present invention, the input synchronizing signal is input, the thinning means for thinning out the input synchronizing signal on a pixel-by-pixel basis is provided, and the output of the thinning means is used as the output synchronizing signal output.・ It can be constructed at low cost and has a function generator and a data selector.
By configuring the timing adjustment unit that outputs the selection signal that controls the data selector, it is possible to obtain the effect that the output image quality can be improved.

Further, although the image output and the output synchronization signal output of the present invention are intermittent, since the image output and the output synchronization signal output are synchronized, the image input and the input synchronization signal input are even synchronized like a thermal head, for example. If so, by using the output element that allows the intermittent input, it is possible to obtain the effect that it is not necessary to adjust the timing using the memory device and further complicated control is required.

[Brief description of drawings]

FIG. 1 is a block diagram showing an image scaling device according to an embodiment of the present invention, FIG. 2 is a waveform diagram of each part of the block diagram, FIG. 3 is a block diagram showing an image scaling device according to a conventional example, and FIG. FIG. 3 is a waveform chart of each part of the block diagram. 3 ... Data buffer, 4 ... Thinning-out means, 5 ... Scale control unit, 8 ... Function generator, 9 ... Data selector, 10
...... Timing adjustment unit, 11 …… Second data buffer.

Continuation of the front page (56) Reference JP 60-206368 (JP, A) JP 59-214377 (JP, A) JP 60-117874 (JP, A) JP 57-58464 (JP , A) JP 61179671 (JP, A)

Claims (1)

(57) [Claims] 1. A method for receiving an image input representing one pixel in a multi-valued manner and an input synchronizing signal for sampling the image input on a pixel-by-pixel basis and holding the image input in synchronization with the input synchronizing signal. No. 1 data buffer, a numerical function generator for outputting the average value of the image input and the first data buffer output, and data for selecting one of the numerical function generator output and the first data buffer output A selector, a scale control unit that outputs a scale control signal having an occurrence frequency according to a scale ratio, a thinning unit that thins out the input synchronization signal in pixel units, and a thinning unit that is controlled by the output of the scale control unit to control the thinning unit. A timing adjustment unit that outputs a signal and a selection signal that controls the data selector,
An electronic stencil comprising a second data buffer for holding the output of the data selector in synchronization with the output of the thinning means, the output of the second data buffer being an image output, and the output of the thinning means being an output synchronization signal output. An image processing device in a plate making machine for printing.