JP2002112020A - Image processor and image processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve such a problem that, if a section judged as a character edge and another section judged including the other coexist in the same character part when an area judgment error occurs in a color character section, a pictographic character separation gap is produced in the color character section. SOLUTION: On the basis of a color image data which is read from a color original, a pattern section, a black character section, and a color character are judged by an area judgment section 14, and image processing parameters are set by a parameter setting section 19 according to the area judgment result, and then this image processor processes images according to the image processing parameters. If a character mode to give the reproduction of character priority is set by a mode setting section 20 and the area judgment result shows an area including other than the black character section, the parameter setting section 19 sets an almost same value as an image processing parameter, and at the same time, it sets the larger number of screen lines than that of the pattern of the original mode other than the character mode.

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 and an image processing method such as a color copying machine and a color facsimile, and more particularly to an image processing apparatus and an image processing method having a document mode in which priority is given to character reproduction.

[0002]

2. Description of the Related Art Conventionally, an image read from a manuscript by a scanner is divided into a character (black character / color character) / edge (line drawing) portion and a non-character / non-edge portion (picture portion) to determine an area. A technique of performing an area adaptation process for smoothly reproducing a portion determined as a non-edge is known (see, for example, JP-A-11-266368 and JP-A-8-46804). This area adaptive processing technology is widely used in image processing apparatuses such as copying machines.

The mechanism of this area adaptive processing technique is as follows. That is, for the area determined to be characters / edges, emphasis processing is performed by a spatial filter and gradation correction, and the output screen is set to a high screen ruling screen to reproduce clearly, and is determined to be non-character / non-edge. For the area, attenuation processing is performed by a spatial filter having smooth characteristics and gradation correction, and the output screen is set to a low-line screen to reproduce the output.

A specific flow of image processing will be described with reference to a flowchart of FIG. Here, it is assumed that the character portion is further determined separately for a black character portion and a color character portion.

First, an area is determined based on image data read from a document (step S101), and parameters used for image processing are switched according to the determination result (step S102). That is, if the area determination result is a pattern (non-character / non-edge portion), a filter characteristic for the pattern is set (step S103), and then the output screen is set to a low line frequency screen (for example, 200 lines). Screen processing is performed (step S104).

On the other hand, if the area determination result is a black character, filter characteristics for the black character are set (step S105).
If it is a color character, a filter characteristic for the color character is set (step S106). Then, in the case of the determination result of any of the black character and the color character, the output screen is set to the high line frequency screen (for example, 600 lines) and the screen processing is performed (step S107).

However, in the above-described area adaptive processing technology, when reading a color character portion, the character / edge portion and the non-character /
When an area determination error for erroneously determining a non-edge portion occurs, the following problem occurs.

That is, when an area determination error occurs and a part determined to be a character / edge and a part determined to be a non-character / non-edge are mixed in the same character part, emphasis processing is performed in the mixed part. And a portion to be attenuated. As a result, in the boundary portion of the region determination error, the image reproduction of the portion determined to be a character / edge and the character portion erroneously determined to be a non-character / non-edge rapidly changes,
A pictogram separation gap (pictogram separation boundary) occurs in the color character portion.

For this reason, conventionally, a document mode in which emphasis is placed on the reproduction of characters and edges, and a document mode in which non-characters and non-edges as well as characters and edges are reproduced with neutral characteristics are provided. Many original modes are created so that the user can appropriately select the original mode according to the image state of the original to be processed.

[0010]

However, in any of the above-described original modes, there is only a technique of reducing the difference in intensity (density difference) in a portion where an area determination error boundary is evident to make it difficult to see. In this case, the output is reproduced with the region separation error appearing, and it has not been possible to eliminate the pictogram separation gap in the color character portion.

[0011] Further, regarding the reproduction of characters in the pattern judgment portion,
The non-character / non-edge determination portion is processed by a spatial filter having smooth characteristics and gradation correction, and then the output screen is reproduced on a low screen ruling screen, so that particularly small characters are difficult to read. In order to solve this problem, a method of expressing characters by increasing the gradation has been adopted.However, the characters become thick and collapsed, making it difficult to read characters existing in the area determined to be a pattern. Could not be resolved.

[0012]

In order to solve the above-mentioned problems, the present invention provides an image input means for inputting color image data corresponding to a color original, and an image processing means for inputting the color image data. Image processing means for applying, a picture portion of the original image based on the input color image data,
An image processing apparatus comprising: a region determining unit that determines a black character portion and a color character portion; and a parameter setting unit that sets an image processing parameter to the image processing unit based on a region determination result of the region determining unit. When the character mode in which reproduction is prioritized is set, and the area determination result is other than the black character portion, substantially the same image processing parameters are set from the parameter setting means to the image processing means, and the document in the character mode other than the character mode is set. Set a higher screen ruling than the picture part of the mode.

When a character mode in which character reproduction is prioritized is set, substantially the same value is set as an image processing parameter for an area determination result other than a black character portion, so that a different pattern portion and a different color character portion are set. Instead of performing image processing, substantially the same image processing is performed. Thus, even when an area determination error occurs when reading a color character portion, image processing is basically performed on the color character portion as a picture portion, and furthermore, a line higher than the original mode other than the character mode is used. Image processing is performed by giving priority to characters by number. As a result, the glyph separation gap in the color character part (glyph separation boundary)
Can be eliminated.

[0014]

Embodiments of the present invention will be described below in detail with reference to the drawings. The present invention can be applied to all image processing apparatuses that process color image data corresponding to a color original, such as a color copying machine and a color facsimile.

FIG. 1 is a block diagram showing a configuration example of an image processing apparatus according to an embodiment of the present invention. In FIG. 1, an image input unit 11 is constituted by a scanner or the like, and reads image information of a color original to read R (red) G (green) B (blue)
Is supplied to the former-stage color correction / conversion unit 12 as color image data of The first-stage color correction / conversion unit 12 performs RGB balance correction on the RGB image data supplied from the image input unit 11 and performs color conversion to L ^* a ^* b ^* image data to perform second-stage color conversion. This is supplied to the section 13 and the area determination section 14.

The second-stage color converter 13 converts the image data of L ^* a ^* b ^* into Y (yellow), M (magenta), C (cyan) K
The color is converted into (black) image data and supplied to the subsequent image processing system. This image processing system includes various processing units such as a filter processing unit 15, a post-stage color correction unit 16, and a screen processing unit 17.

In this image processing system, the filter processing section 15 has a spatial filter processing for sharpening pictures and characters and a spatial filter processing for removing halftone dots of a printed document to prevent an unsightly moire pattern. For example, in order to faithfully reproduce the original image, a filtering process according to the set parameters is performed.

The second-stage color correction section 16 corrects the gradient (γ) of the density characteristic curve (gradation curve) of the output image with respect to the density of the input image in accordance with the set parameters, thereby obtaining an output image corresponding to the input image. Is performed. The screen processing unit 17 performs screen processing with a screen ruling corresponding to the set parameters.

The setting of image processing parameters (filter coefficient / γ coefficient / screen ruling, etc.) for the filter processing unit 15, the post-stage color correction unit 16 and the screen processing unit 16 is based on the area determination result by the area determination unit 14. This is performed in the parameter setting unit 19, and details thereof will be described later.

The YMCK color-converted by the second-stage color converter 13
Are subjected to various types of image processing by the image processing system, that is, the filter processing unit 15, the post-stage color correction unit 16, and the screen processing unit 16, and then supplied to the image output unit 18. The image output unit 18 corresponds to an image forming unit when the image processing apparatus is, for example, a color copier, and forms and outputs a color image on paper or the like. For example, when the image processing apparatus is a color facsimile, it corresponds to a data transmitting unit. To send and output image data.

The area judging section 14 includes a former-stage color correcting / converting section 1
2 based on the L ^* a ^* b ^* image data supplied from
Area determination is made between a character area and a halftone picture area. The character area is further subjected to area determination separately for a black character part and a color character part. The area determination result (picture part / black character part / color character part) by the area determination part 14 is given to the parameter setting part 19.

The mode information set by the mode setting section 20 is also given to the parameter setting section 19. The mode setting unit 20 can set two original modes: a character / photo mode for performing standard reproduction and a character mode for giving priority to character reproduction. Here, the case of setting two original modes, that is, the character / photo mode and the character mode, has been described as an example, but it goes without saying that an original mode other than these two modes may be set. .

The parameter setting section 19 includes a mode setting section 2
In response to the original mode set at 0, the area determination unit 14
Image processing parameters (filter coefficient / γ coefficient / screen ruling, etc.) for the filter processing unit 15, the post-stage color correction unit 16 and the screen processing unit 16 based on the area determination result (picture part / black character part / color character part) in Make the settings for

That is, when the character / photo mode is set, the filter processing unit 15 and the post-stage color correction unit perform the same processing as in the related art so that the characters are not blurred as much as possible and the moire is not as noticeable as possible. Pattern part / black character part /
An image processing parameter corresponding to each area determination result of the color character portion is set.

On the other hand, when the character mode is set, based on each area determination result of the picture part / black character part / color character part, it is determined whether the character is determined to be a black character or not (a pattern / color character determination). The image processing parameters for the two systems are set for the filter processing unit 15, the post-stage color correction unit 16, and the screen processing unit 16.

More specifically, when it is determined that the image is a black character portion, an emphasis process is performed by a spatial filter and gradation correction as in the prior art, and the output screen is changed to a high-line screen (for example, 600 lines). Set. Thereby, black characters can be reproduced sharply. When it is determined that the image is other than black characters, that is, a picture portion or a color character portion, attenuation processing is performed by a spatial filter having smooth characteristics and gradation correction, and the output screen is set to another original mode (in this example, A screen (for example, 300 lines) having a higher screen ruling than the screen ruling (for example, 200 lines) of the picture portion in the character / photo mode is set.

Next, the flow of image processing when the character mode is set as the document mode in the image processing apparatus according to the present embodiment having the above configuration will be described with reference to the flowchart of FIG.

First, when a color original is read, the area determination section 14 performs area determination based on the L ^* a ^* b ^* image data supplied from the preceding color correction / conversion section 12 (step S11). . Next, the parameter setting unit 19
In the image processing system based on the determination result (picture part / black character part / color character part) by the area determination part 14, the image processing is performed by the filter processing part 15, the post-stage color correction part 16 and the screen processing part 16. The image processing parameters to be used are set (step S12).

That is, if the area determination result is a black character portion, a filter coefficient for emphasizing the high frequency is set in the filter processing section 15 and Hi-γ (steep gradation) is set in the subsequent color correction section 16. Curve) to perform emphasis processing
(Step S13) Then, a high-line screen (for example, 600 lines) is set to the screen processing unit 17 (Step S14). As a result, black characters can be sharply reproduced.

On the other hand, if the area determination result is a halftone picture or color character portion, a filter coefficient for cutting high frequencies is set in the filter processing section 15 and a Lo coefficient is set in the subsequent color correction section 16. Attenuation processing is performed by setting -γ (smooth gradation curve) (step S15), and then the screen processing unit 17 is higher than the screen ruling (for example, 200 lines) of the picture part in the character / photo mode. A screen having a line number (for example, 300 lines) is set (Step S)
16).

As described above, instead of setting different image processing parameters and performing different processing on the picture part and the color character part, the same processing is performed by setting image processing parameters having the same value. Therefore, even if an area determination error occurs when reading a color character part, the color character part is basically processed as a picture part, and the characters are displayed at a higher line frequency than other document modes. Is performed, the pictogram separation gap in the color character portion can be eliminated.

At this time, although the reproducibility of the picture portion is slightly reduced, the degree of the reduction is such that the reproduction quality of the picture portion is not significantly affected. The effect of improving the reproduction quality of the color character portion due to the elimination of the pictorial character separation gap in the color character portion is much greater.

In the present embodiment, the image processing parameters having exactly the same value are set for the picture portion and the color character portion. However, the image processing parameters need not always be exactly the same value, and image processing parameters having slightly different values may be set. Basically, in the character mode in which the character reproduction is prioritized, it is sufficient that substantially the same image processing can be performed on the picture portion and the color character portion with substantially the same parameter values.

The screen ruling is also 300
The number of lines is merely an example, and the number of lines is not limited to this, and it is only necessary that the number of lines be higher than the number of screen lines of the picture portion in another original mode.

Next, a description will be given of the digital filter characteristics used in the filter processing unit 15 when the area determination result is a picture part or a color character part in the character mode in which character reproduction is prioritized.

Normally, when a region is determined as a picture portion,
The filter characteristics shown in FIG. 3 are set. In the filter characteristics shown in FIG. 3, the horizontal axis represents the sampling frequency, and the vertical axis represents the filter strength, that is, the gain. Curve (a) shows the case where the screen angle is 0 °, curve (b) shows the case where the screen angle is 90 °, and curve (c) shows the case where the screen angle is 45 °. As is clear from the characteristic diagram of FIG.
This characteristic has a peak in the low frequency range and the gain becomes 0 in the high frequency range.

By performing image processing on a region determined to be a picture portion using the filter characteristics, a picture can be reproduced smoothly, but for example, the image existing in the region determined to be a picture portion can be reproduced. For color characters,
Since the filter characteristic has a gain of 0 on the high frequency range side, it cannot be reproduced sharply and becomes difficult to read. On the other hand, if the emphasis processing is performed by increasing the gain on the high frequency range side in order to reproduce characters sharply, periodic streaks, that is, moire, will occur at the picture.

In view of this, attention is paid to the difference in the number of lines between the picture portion and the character portion, the frequency characteristic, and the print screen angle of the picture portion of a widely existing document, and in the present embodiment, the character mode is prioritized for character reproduction. If the region determination result is a picture portion or a color character portion, the filter characteristics shown in FIG.

In the filter characteristics shown in FIG. 4, the horizontal axis represents the sampling frequency, and the vertical axis represents the filter strength, that is, the gain. The curve (a) corresponds to the case where the screen angle is 0 °, and the curve (b) corresponds to the screen angle 90 °.
°, and the curve (c) shows the case where the screen angle is 45 °.

As can be seen from the characteristic diagram of FIG. 4, the filter characteristic varies in accordance with the input frequency and the screen angle at a gain of 1.0 or more over the entire input frequency (sampling frequency) band. In the high frequency range, the gain gradually decreases and converges to 1.0, and the screen angle (approximately 45 °) that causes moire is reduced to a substantially intermediate frequency range, for example, a screen ruling frequently used in printing. The gain is weakened in a corresponding frequency range of approximately 0.25 to approximately 0.4 (corresponding to 133 to 175 printed lines in this example).

Here, in the filter characteristics shown in FIG. 4, a gain of 1.0 means that no filtering processing is performed, and a region exceeding the gain of 1.0 means that the filter strength is increased. A region less than 1.0 means that the gain intensity is weakened.

As described above, in the character mode in which the character reproduction is prioritized, when the area determination result is a pattern portion or a color character portion, a higher number of lines is used for reproducing the pattern portion than in the other original modes, and the filtering process is performed. By setting the above filter characteristics to the unit 15 and performing image processing on an area determined to be a picture portion, in addition to being able to smoothly reproduce the picture by its low-frequency side characteristics, For example, a color character existing in the determined area can be sharply and clearly reproduced.

That is, the image processing is performed by the characteristic that the gain is 1.0 or more from the intermediate frequency range to the high frequency range, and the gain gradually decreases and converges to 1.0 in the high frequency range. A color character existing in the area determined to be a part can be sharply and clearly reproduced. In addition, regarding the screen angle (approximately 45 °) that causes moiré, moire is generated in the picture portion by taking into account the characteristic of weakening the gain in the frequency range corresponding to the screen ruling often used in printing. Can also be suppressed.

Here, the reproduction of the color characters existing in the area determined to be the picture portion has been described. However, the present invention is not limited to this. For example, when a black character exists on a colored background, the reproduction of the color characters may be performed. Can be applied to the reproduction of all characters having a small contrast difference, and as a result, it can greatly contribute to the improvement of the reproduction quality of all characters.

[0045]

As described above, according to the present invention,
At the time of setting the character mode in which the character reproduction is prioritized, when the area determination result is other than the black character portion, set substantially the same value as the image processing parameter, and set a higher screen ruling than the picture portion in the original mode other than the character mode. By setting, there is no pictographic character separation gap in the color character portion, and it is possible to sharply and clearly reproduce the characters in the pattern determining portion, so that the character reproduction quality can be greatly improved.

[Brief description of the drawings]

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

FIG. 2 is a flowchart illustrating a flow of image processing when a character mode in which character reproduction is prioritized is set.

FIG. 3 is a filter characteristic diagram of a digital filter used for image processing of a normal picture portion.

FIG. 4 is a filter characteristic diagram of a digital filter used for image processing of a picture determination area when a character mode is set.

FIG. 5 is a flowchart showing a flow of image processing in the area application processing technique.

[Explanation of Signs] 11 ... Image input unit, 12 ... Pre-stage color correction / conversion unit, 13 ...
2nd stage color conversion unit, 14: region determination unit, 15: filter processing unit, 16: 2nd stage color correction unit, 17: screen processing unit, 1
8 image output unit, 19 parameter setting unit, 20 mode setting unit

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5B057 AA11 CA01 CA02 CA06 CA08 CA12 CB01 CB02 CB06 CB07 CB12 CC02 CE03 CE06 CE13 CE16 CH18 DA08 DB02 DB05 DB06 DB08 5C077 LL03 LL19 MP05 MP06 MP08 NN06 PP01 PP27 PP28 PQ08RR LA06 LA15 LA31 LC14 MA19 NA01 PA01 PA02

Claims (4)

[Claims] An image input unit for inputting color image data corresponding to a color original; an image processing unit for performing image processing on the color image data input from the image input unit; and an input from the image input unit. Area determining means for determining a picture portion, a black character portion, and a color character portion of a document image based on the color image data obtained; a mode setting device for setting a character mode that prioritizes character reproduction and a document mode other than the character mode; If the character mode is set by the mode setting means, and the area determination result by the area determination means is other than a black character portion, image processing parameters having substantially the same value are set to the image processing means. And parameter setting means for setting a higher screen ruling than a picture portion in the original mode other than the character mode. That image processing apparatus. 2. The image processing means has a filter processing means for performing a filtering process on the color image data input from the image input means, and the parameter setting means is configured to control the character setting by the mode setting means. When the mode is set and the area determination result by the area determination unit is other than the black character portion, the gain changes in accordance with the input frequency and the screen angle at a gain of 1.0 or more over the entire input frequency band. And a filter characteristic which gradually converges to a gain of 1.0 while decreasing in a high frequency range, and for which a gain is weakened in a substantially intermediate frequency range for a screen angle of about 45 °, is set to the filter processing means. The image processing apparatus according to claim 1. 3. A pattern portion, a black character portion, and a color character portion of a document image are determined based on color image data read from a color document, and the image portion is determined according to an image processing parameter set based on a region determination result. An image processing method for performing image processing on color image data, wherein when the character mode in which character reproduction is prioritized is set, substantially the same value is set as the image processing parameter unless the area determination result is a black character portion. And setting a higher screen ruling than a picture portion in the original mode other than the character mode. 4. One of the image processes is a filtering process on color image data, and when the character mode is set, if the region determination result is other than a black character portion,
The gain changes according to the input frequency and the screen angle at a gain of 1.0 or more over the entire input frequency band,
4. The image according to claim 3, wherein a filter characteristic is set such that the gain gradually converges to 1.0 while decreasing in a high frequency range, and the gain is weakened in a substantially intermediate frequency range for a screen angle of about 45 °. Processing method.