KR910005144B1 - Isolating picture signal eliminating device - Google Patents

Abstract

No content.

Description

Isolation pixel removal device for transmission and reception of image transmission device

1 is a block diagram of an isolated pixel removal device of a transmission / reception image of the present invention.

2A and 2B are exemplary views before and after removing isolated pixels according to the present invention.

3 is a 3x3 mask state diagram used for the removal of isolated pixels in the present invention.

4 is a state diagram of a line storage memory.

5 is a positional coordinate diagram of a pixel.

6 is a flowchart showing the operation of the present invention.

* Explanation of symbols for main parts of the drawings

1: CPU 2: Image reading unit

3: ROM 4: RAM

5: line interface unit 6: recording unit

7: Demodulation unit 8: Line storage memory

9: Modulation unit 10: Subscription line

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image transmission apparatus such as a facsimile, and more particularly, when an isolated pixel is generated among image data transmitted / received by the image transmission apparatus due to an abnormal noise or a line of an image reading unit or an abnormality of another apparatus. The present invention relates to an apparatus for removing an isolated pixel from a transmission / reception image of an image transmission device capable of improving image quality by removing the?

In general, in an image transmission apparatus such as a facsimile, unnecessary isolated pixels are generated due to noise of a light source unit or an image reading unit, an abnormality in a line, or an abnormality in other devices. However, in the conventional image transfer apparatus, there is no device for removing the isolated pixels when unnecessary isolated pixels are generated. Accordingly, when an isolated pixel is generated, the length of the run-length code of the line is increased during coding due to the isolated pixel, which causes a delay in communication time and a deterioration in image quality.

The present invention has been made to solve such a conventional problem, and when the isolated isolated pixel phenomenon occurs due to the noise of the light source unit or the image reading unit, the line abnormality, or other device abnormality, as described above, the isolated pixel is generated. An object of the present invention is to shorten communication time and improve image quality by detecting and removing a phenomenon.

The present invention having the above object will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an isolated pixel removal device of a transmission / reception image according to the present invention. As shown therein, a CPU 1 for controlling the entire image transmission device, an image reading unit 2 for reading a transmission document, A ROM (3) and a RAM (4) in which a program to be executed by the CPU (1) is embedded, a demodulation unit (7) for demodulating received image data, and a read out of the image reading unit (2). A line storage memory 8 for storing the data in order to remove the isolated pixels from the transmission image data or the reception image data demodulated by the demodulator 7, and the data of the lines after removing the isolated pixels from the transmission image data. A modulator (9) for modulating the data, a recorder (6) for removing the isolated pixels from the received image data, and recording the data; and transmitting the modulated transmission image data to the subscription line (10). Receive received image data from (10) To be composed of a line interface unit (5).

2a and 2b are exemplary views before and after removing isolated pixels according to the present invention, and when isolated pixels a and b exist as shown in FIG. 2a, the isolated pixels a and b are removed to remove the isolated pixels as shown in FIG. The position pixels a 'and b' are made the same as the surrounding pixels.

FIG. 3 is a state diagram of a 3x3 mask used to remove the isolated pixels in the present invention, FIG. 4 is a state diagram of the line storage memory 8 of FIG. 1, and FIG. In FIG. 5, m represents the number of pixels in one line.

Effects of the present invention configured as described above will be described in detail with reference to the flowchart of FIG.

First, when communication is started, as shown in FIG. 4, the three line storage memories 8 are initialized with the white Renel, and it is determined whether the transmission state or the reception state. At this time, in the transmission state, the first image line data to be transmitted to the second (2nd) line storage memory among the three line storage memories 8 is replaced 1: 1 with the line storage memory, and the third (3rd) is transferred. The second image line data is corresponded to and replaced in the line storage memory.

Thereafter, the center of the 3x3 mask as shown in FIG. 3 is positioned in the first column of the second (2nd) line of the line storage memory 8 to determine whether the center pixel is an isolated pixel. If the central pixel is an isolated pixel, the isolated pixel is replaced with the pixel level around it. If the central pixel is not an isolated pixel, the next column is examined as to the isolated pixel as described above. That is, the center of the 3x3 mask is positioned in the second column of the second (2nd) line of the line storage memory 8 to determine whether the center pixel is an isolated pixel.

In this way, the 3x3 mask is moved to the last column of the second line to check whether there is an isolated pixel, and if there is an isolated pixel, the isolated pixel is replaced with the pixel level around it. When the irradiation to the last pixel of the line is completed in this way, the transmission image data stored in the second line storage memory is sent to the modulation unit 9, and accordingly the modulation unit 9 modulates the transmission image data and then the line. The transmission line 10 is transmitted to the subscription line 10 through the interface unit 5. If the isolated pixel is removed in this way, the length of the run-length code of the line is shortened as a whole.

In this way, it is checked whether the isolated pixels exist one by one for the next line to the last line of the original, and if the isolated pixels exist, replace the isolated pixels with the surrounding pixel level and then modulate. The unit 9 modulates and transmits.

On the other hand, in the case of receiving image data through the line interface 5, similarly to the case of the above-mentioned transmission, the isolated pixel existing in the received image data is removed and then applied to the recording unit 6 for recording. That is, the image data received through the line interface 5 is demodulated by the demodulation section 7, and the demodulated reception image data is transferred to the line storage memory 8 in the same way as in the case of the above transmission, during the reception image data. It is checked whether an isolated pixel exists, and if an isolated pixel exists, the isolated pixel is replaced with a pixel level around it, and the received image data of the line is applied to the recording unit 6 to record. Therefore, it is possible to prevent the degradation of the image quality of the received document due to the isolated pixel.

As described in detail above, the present invention removes the isolated pixel even if an isolated pixel is generated in the image data due to noise of a light source unit or an image reading unit, an abnormality in a line, or an abnormality in another apparatus in an image transmission apparatus such as a facsimile. It is possible to prevent the length of the run-length code of the line from being extended due to the isolated pixel at the time of coding. Accordingly, it is possible to shorten the communication time and to transmit and receive a clear picture signal, thereby improving image quality. There is.

Claims (1)

A CPU 1 for controlling the entire image transmission device, an image reading unit 2 for reading a transmission document, a ROM 3 and a RAM 4 incorporating a program to be executed by the CPU 1; And a demodulation unit 7 for demodulating the received image data, and whether the isolated pixel exists in the image transmission data read from the image reading unit 2 or the received image data demodulated by the demodulation unit 7. A line storage memory 8 for storing the data on a line-by-line basis to remove the isolated pixel, a modulator 9 for modulating the data on the line after removing the isolated pixel from the transmission image data, and the received image data. A recording unit 6 for recording the data after removing the isolated pixel from the circuit; and a line interface unit 5 for transmitting the modulated transmission image data to the subscription line 10 and receiving the received image data from the subscription line 10. It is composed by) Image transfer sending and receiving image pixel removal unit isolated from the device that.

Images