JPH11164159A - Image processor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve image processing efficiency, without wasting recording paper sheets and processing time at confirming an ink amount of images and color characteristics of ink, etc. SOLUTION: This image processor is provided with a processing means 3a for decomposing image data into plural color comment data, a storage means 4 for storing the decomposed respective color component data, an editing means 3b for performing editing processing to the respective color component data stored by the storage means 4 and an output means 5 for listing and outputting the respective color component data after editing processing into one pages worth of summary of visible images.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image processing apparatus such as a digital copying machine, and more particularly to an image processing apparatus capable of handling a color image.

[0002]

2. Description of the Related Art Conventionally, as an image processing apparatus, an apparatus capable of supporting a color image, such as a digital copying machine, for reading a color image, performing image processing, outputting, and the like has been widely known. I have. In such an image processing apparatus, image data composed of R (red), G (green), and B (blue) color components read from a document image by a CCD (Charge Coupled Device) sensor is usually transferred onto a recording sheet. In order to be suitable for the color output, color conversion processing for converting the image data into color data of each of Y (yellow), M (magenta), C (cyan) and K (black) is performed.

In the printing industry and the like, in general, in order to improve the quality of an image reproduced from a document image, the amount of black (content of K) of the image, the color characteristics of each of the YMC inks, the dot gain, It is required to check the screen angle and the like in advance. For this reason, some printing apparatuses form color separation films of Y, M, C, and K using, for example, an image setter and output these on separate sheets or films. In order to satisfy the requirement of Y, M,
Some image data of each color component of C and K are individually visualized and output for each color component. By doing so, the image data of each color component is output on separate recording paper, and it is possible to check the black amount of the image, the color characteristics of the ink, and the like.

[0004]

However, when the conventional image processing apparatus is used, the image data of each color component is output on separate recording paper, so that the amount of black in the image, the color characteristics of the ink, etc. Requires a plurality of recording papers, and consumes a lot of processing time for outputting a plurality of recording papers. That is, in the conventional image processing apparatus, when trying to check the black amount of an image, the color characteristics of ink, and the like, a large amount of recording paper and processing time are required, and as a result, recording paper is wasted or processing efficiency is low. Will be.

On the other hand, for example, Japanese Patent Laid-Open No.
As disclosed in Japanese Patent Application Publication No. 65-65, image data of a plurality of pages of recording paper is reduced to one page and output as a list, thereby outputting image data of each color component on one recording paper. It is also conceivable to eliminate waste of storage paper and processing time. However, in this case, unless the image data is for a plurality of pages, the image data cannot be reduced to one page and output as a list. That is, in order to output a list of image data of each color component obtained from one document image, it is necessary to read the document image a plurality of times. Therefore, even in this case, the processing efficiency cannot be improved.

Accordingly, the present invention provides a method for converting one document image into one image.
It is possible to output the image data of each color component obtained by reading each color component separately on one sheet of recording paper to check the black amount of the image, the color characteristics of the ink, etc. It is another object of the present invention to provide an image processing apparatus capable of improving the efficiency without wasting the number of recording sheets and processing time.

[0007]

SUMMARY OF THE INVENTION The present invention is directed to an image processing apparatus devised to achieve the above object, comprising a processing means for decomposing image data into a plurality of color component data; Storage means for storing each color component data, editing means for performing an editing process on each color component data stored in the storage means, and output means for outputting a list of each color component data edited by the editing means as a visible image; and It is characterized by having.

According to the image processing apparatus having the above-described configuration, for example, for image data obtained by one reading from one original image, the processing unit decomposes the image data into a plurality of color component data. Are stored. Here, the editing unit performs an editing process such as reduction or cutout on each color component data. And
The output unit extracts each color component data from the storage unit and outputs a list of each color component data for one page of the visible image. Therefore, if this image processing apparatus is used, image data obtained by one reading from one document image is
The color components are output on a single sheet of recording paper or the like.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an image processing apparatus according to the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating an example of a schematic configuration of an image processing apparatus according to the present invention.

As shown in the figure, an image processing apparatus according to the present embodiment has an image input terminal (hereinafter referred to as II).
T) 1, an image buffer 2, and an image processing unit (hereinafter referred to as IPS) 3
, Data storage 4, and an image output unit (Image Output
Terminal; hereinafter, referred to as IOT) 5.

The IIT 1 includes a scanner device having a CCD sensor and the like, and reads an original image to obtain image data including R, G, and B color components.

The image buffer 2 has a RAM (Random A)
ccess Memory) and IIT1
Temporarily holds the read image data.

The IPS 3 includes a microprocessor or the like, and performs image processing on image data read by the IIT 1. The image processing performed by the IPS 3 includes, for example, color conversion processing and editing processing. To perform these image processes, the IPS 3 includes a color separation unit 3a, an image editing unit 3b, and a pseudo signal generation unit 3c.

The color separation section 3a performs a color conversion process on the image data read by the IIT 1. That is, the image data of each of the R, G, and B color components is represented by Y, M,
The image data is converted into image data of each color component of C and K.

The image editing unit 3b edits image data of each of the Y, M, C, and K color components converted by the color separation unit 3a. Specifically, the image editing unit 3b
Reduces image data of each color component of Y, M, C, and K,
Alternatively, only a predetermined portion is cut out from the image data of each of the Y, M, C, and K color components, and each color component data is edited for one visible image page.

The pseudo signal generator 3c is what is called a pattern generator, and generates pattern data as a pseudo signal (test waveform) in order to evaluate the function of the IPS3. It is assumed that the pattern data is determined by the user prior to the execution of the evaluation, and is stored in a memory or the like (not shown).

The data storage 4 is composed of a storage device having a large capacity such as a hard disk device,
3, image data after image processing is performed, specifically, converted into each of Y, M, C, and K color components by a color separation unit 3a, and edited into one visible image page by an image editing unit 3b. The stored image data is stored.

The IOT 5 is composed of a printer engine and the like, extracts image data stored in the data storage 4 from the data storage 4,
It is to output a visible image on recording paper. The IOT 5 may be a single drum type having one photoconductor drum (latent image carrier), or may have four photoconductor drums corresponding to Y, M, C, and K. These may be of a tandem type that performs processing in parallel.

Next, an example of a processing operation in the image processing apparatus configured as described above will be described with reference to FIG. Here, a case where the IOT 5 is a tandem system will be described as an example.

In this image processing apparatus, the IIT 1 reads an original image and reads R and R from the original image.
When the image data composed of the G and B color components is obtained (Step 101, hereinafter, the step is abbreviated as S), the image buffer 2 temporarily holds the image data (S10).
2).

After the image buffer 2 holds the image data, the IPS 3 extracts the image data from the image buffer 2 and performs image processing on the extracted image data. First, the IPS 3 performs gray balance adjustment and negative / positive inversion on the extracted image data as necessary (S103). This is
It may be performed in IIT1 instead of IPS3.

Next, in the IPS 3, the color separation unit 3a
Image data retrieved from the image buffer 2
The image data composed of the R, G, and B color components is represented by L^*a
^*b ^*(Elstar, Aster, Biestar) signal
Conversion is performed (S104). L^*a^*b^*The signal is hue, saturation
It expresses brightness, brightness, etc. and is called so-called halftone data
It is what is done.

When the color system conversion for converting to the L ^* a ^* b ^* signal is performed, subsequently, the color separation unit 3a outputs the L ^* a ^* b
^{* The} signal is subjected to density adjustment, hue adjustment, and saturation adjustment as necessary (S105), and the L ^* a ^* b ^* signal is converted into image data of each of Y, M, C, and K color components. A color conversion process is performed (S106). In the color separation section 3a,
Since IOT5 is of the tandem type, Y, M,
Image data of each of the C and K color components is transmitted to the subsequent image editing unit 3b in a frame sequential manner in a predetermined time series.

In the color conversion process in the color separation section 3a,
If the IPS 3 has a character editing function, that is, a graphic controller and a font memory, Y,
The image data of each color component of M, C, and K includes “Y”,
Character information for drawing each character of "M", "C", and "K" may be added (S107).

When the color separation unit 3a performs the color conversion process, the image editing unit 3b subsequently receives the image data of each of the Y, M, C, and K color components, which is the result of the color conversion process.
Enlargement / reduction processing is performed on the image data of each color component (S108). More specifically, the image editing unit 3b stores Y, M,
Each color component data is reduced or only a predetermined portion is cut out from the image data of each color component so that the image data of each color component of C and K can be edited for one page of the visible image.

After that, the image editing unit 3b determines whether Y, M, C,
The image data of each color component of K is subjected to spatial filter processing for edge enhancement and moire removal (S109) and linear / high gamma processing for inversely correcting nonlinearity (S110). Then, the image data of each of the Y, M, C, and K color components after the processing is transmitted to the data storage 4 and stored therein (S111).

At this time, in the image editing unit 3b, Y, M,
Since the image data of each color component of C and K is transmitted from the color separation unit 3a in a frame-sequential manner, each color component data is not overlapped with each other, that is, each color component data is
Each color component data is sequentially pasted to a predetermined area in the data storage 4 so as to be arranged within the area of the page. As a result, Y, M,
Image data of each color component of C and K (hereinafter, Y, M, C
Plate and K plate) are stored side by side in the area of one page of the visible image.

Incidentally, in order to confirm the amount of black ink and the color characteristics of the ink, not only the Y, M, C and K plates but also full-color image data obtained by combining them are output. It is often preferred. Therefore, in this image processing apparatus, the Y, M, and
After the C and K planes are stored, a process for storing the full-color image data (hereinafter, referred to as YMCK plane) obtained by combining the C and K planes in the data storage 4 is performed. This process controls the entire image processing apparatus, and may be performed in accordance with a control signal instructed from a control unit (not shown) serving as an upper circuit such as the IIT1, the IPS3, and the IOT5.

In the data storage 4, Y, M, C
After the version and the K version have been stored, the IPS 3 again controls the image buffer 2 according to the control signal from the control unit (S112).
Of the image data from. Then, the same processing as described above is performed on the image data (S103 to S11).
0) is repeated, and this is held and stored in the data storage 4 (S111). However, at this time, the image editing unit 3
b denotes one page of the visible image together with the previously stored Y, M, C, and K plates together with the image data of each of the Y, M, C, and K color components, not individually. It is pasted on a predetermined area in the data storage 4 so as to be arranged in the area of the minute.

As a result, in the data storage 4,
A total of five surfaces of the Y, M, C, K, and YMCK plates are stored in a state of being arranged in the area of one page of the visible image.

Then, the Y version, M
Version, C version, K version and YMCK version are stored, IO
T5 is output-side gradation correction by IPS3, that is, TR
After the C (Tone Reproduction Correction) process (S113), the Y, M, C, K, and YM versions
The CK plate is converted into a visible image on a recording sheet and output as image data for one page of the recording sheet (S114).

As a result of the output by the IOT 5, as shown in FIG.
The M-version equivalent image 12, the C-version equivalent image 13, the K-version equivalent image 14, and the YMCK-version equivalent image 15 are formed in a state of being edited and arranged. That is, the Y, M, C, K, and YM
The corresponding images 11 to 15 of the CK version are output in a list.

As described above, in the image processing apparatus of the present embodiment, the data storage 4 holds the image data of each of the Y, M, C, and K color components generated by the color conversion processing in the color separation section 3a. When storing the images, the image editing unit 3b edits them so as to be included in one page of the visible image, so that the images 11 to 15 corresponding to the Y, M, C, K, and YMCK versions respectively. Are output as a list on one recording sheet 10.

Therefore, in this image processing apparatus, even when checking the amount of black of an image, the color characteristics of ink, and the like,
It is not necessary to output the image data of each color component on a separate recording sheet, so that a lot of recording sheets and processing time are not consumed. In addition, Y version,
Equivalent images 11 to 1 for M, C, K and YMCK versions
Since 5 is output on a single sheet of recording paper 10, it is very easy to check the amount of black ink and the color characteristics of ink.
In other words, with this image processing apparatus, it is possible to easily check the amount of black of an image, the color characteristics of ink, the dot gain, the screen angle, and the like, which are performed in the printing industry, and furthermore, the work efficiency is high. Can be improved more than before.

In the image processing apparatus according to the present embodiment,
The image buffer 2 temporarily stores the image data read from the original image by the IIT 1, and the color separation unit 3 a and the image editing unit 3 b process the image data to perform the Y and M versions of the image data. , C
The corresponding images 11 to 15 of the plate, the K plate and the YMCK plate are output in a list.

Therefore, this image processing apparatus can output a list of image data of each color component obtained from one document image, and it is not necessary to perform reading a plurality of times for outputting the list. Become. Furthermore, even when copying an original image, it is possible to check the black amount of the image, the color characteristics of the ink, and the like, and to improve the work efficiency as compared with the conventional case. become.

Further, the image processing apparatus according to the present embodiment
The IPS 3 has a pseudo signal generator 3c. For this reason, in this image processing apparatus, not the image data read by the IIT 1 but the pattern data generated by the pseudo signal generation unit 3c, the Y data, the M data, the C data,
A list can be output as the equivalent images 11 to 15 of the K and YMCK versions.

Therefore, in this image processing apparatus, in the tandem-type IOT 5, if any of the Y, M, C, and K photosensitive drums or a control board thereof has a problem, a service person or the like issues a message. If a list of pattern data generated according to the instruction is output for each color component, it is possible to easily find out at which part a defect has occurred.

In this embodiment, the Y, M, C
Image 1 corresponding to each of the plate, K plate and YMCK plate
Although the case where 1 to 15 are output as a list on one recording sheet 10 has been described, the present invention is not limited to this. For example, only the Y, M, C, and K plates are output as a list. May be performed. In this case, it is not necessary to re-fetch the image data from the image buffer 2 for the YMCK plate, and further, the repetition processing in the color separation unit 3a and the image editing unit 3b is not required. Also, for example, Y
It is also feasible to output the list in any combination, such as only the version, the M version, and the C version, or only the K version and the YMCK version.

Further, Y, M, C, K, and Y versions
Images 11 to 15 corresponding to the respective MCK plates are not on the recording paper 10 but are, for example, CRT (Cathode Ray Tub).
e) A list may be output on the screen of the device. Even in this case, it is possible to obtain the same effect as in the case of outputting on the recording paper 10.

In this embodiment, the case where the IOT 5 is of the tandem type has been described as an example.
Even if the OT 5 is of a single drum type, the present invention can be similarly applied. However, in this case, IOT5 is Y,
Since it is not possible to simultaneously correspond to the image data of each of the M, C, and K color components, the extraction of the image data from the image buffer 2 and the processing (color conversion processing, editing processing, etc.) of the image data are repeatedly performed. Just do it.

More specifically, when the IOT 5 is of a single drum type, the take-out and processing are performed four times for the Y, M, C, and K plates. In each process, at the time of linear / high gamma processing, the MCK data is reset to “0” for the Y plane, and
CK data is reset to “0”, and YM for C version
Reset K data to "0", and for K version, YMC
Reset the data to "0". As a result, the data storage 4 stores the Y, M, C, and K versions. In addition to this, when the YMCK version is also output, the YMCK version may be held and stored in the data storage 4 by performing extraction and processing four more times.

In the present embodiment, the IIT 1 is
When image data is read from an image,
An example in which file 2 temporarily holds the image data
Although described above (see S101 and S102 in FIG. 2),
The image buffer 2 performs editing processing by the image editing unit 3b.
At which point the image data
The temporary holding may be performed. For example, as shown in FIG.
L^*a^*b ^*To temporarily hold the signal
(S204), or as shown in FIG.
Temporarily holds image data of each color component of Y, M, C, K
(S308).

[0044]

As described above, according to the image processing apparatus of the present invention, the editing means performs editing processing on each color component data decomposed by the processing means, thereby outputting a list of each color component data. It has become. Therefore, in this image processing apparatus, even when, for example, checking the amount of black ink or the color characteristics of ink, it is not necessary to separately output each color component data. No processing time is wasted.
In addition, since each color component data is output as a list of visible images, it is very easy to check the amount of black in the image, the color characteristics of the ink, and the like. In other words, with this image processing apparatus, it is possible to easily check the amount of black of an image, the color characteristics of ink, the dot gain, the screen angle, and the like, which are performed in the printing industry, and furthermore, the work efficiency is high. Can be improved more than before.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating an example of a schematic configuration of an image processing apparatus according to the present invention.

FIG. 2 is an explanatory diagram illustrating an example of a processing operation in the image processing apparatus according to the present invention.

FIG. 3 is an explanatory diagram illustrating an example of an output image in the image processing device according to the present invention.

FIG. 4 is an explanatory diagram (part 1) illustrating another example of the processing operation in the image processing apparatus according to the present invention.

FIG. 5 is an explanatory diagram (part 2) illustrating another example of the processing operation in the image processing apparatus according to the present invention.

[Explanation of symbols]

1 image input unit (IIT), 3 image processing unit (IP
S), 3a: color separation unit, 3b: image editing unit, 3c: pseudo signal generation unit, 4: data storage, 5: image output unit (IOT)

Claims (3)

[Claims] A processing unit configured to separate image data into a plurality of color component data; a storage unit configured to store each color component data separated by the processing unit; and an editing process performed on each color component data stored by the storage unit. An image processing apparatus comprising: an editing unit that performs the following; and an output unit that outputs a list of color component data edited by the editing unit as visible images. 2. An image processing apparatus, comprising: input means for inputting image data; and wherein the processing means decomposes the image data input by the input means into a plurality of color component data. Item 2. The image processing apparatus according to Item 1. 3. A method according to claim 1, further comprising generating means for generating pseudo image data, wherein said processing means decomposes the pseudo image data generated by said generating means into a plurality of color component data as image data. The image processing device according to claim 1.