JP3255085B2 - Image area determination method and apparatus, image processing apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image area judging device for judging a photograph area, a color character area, and a black character area in an image, an image area judging method, and an image processing apparatus equipped with the image area judging apparatus. is there.

[0002]

2. Description of the Related Art When an image in which various elements such as photographs and characters are mixed is subjected to image processing such as output to an output device or encoding, processing corresponding to the characteristics of each area is performed. Need to be done. For example, in the case of output processing, tone is emphasized in a photograph area, and discrimination is emphasized in a character area. For this reason, it is desired to perform image processing according to the viewpoints to which importance is given, and to output the processed images. Further, for example, in an output device such as a color printer or a color copier, since an output image is formed using black along with three colors, different processing is performed for a character area even for a color character area or a black character area. ing. For example, in the case of encoding, an encoding method with a high compression rate can be applied to a character area, and processing for each area is often required in other image processing. In order to perform such processing for each area, it is necessary to accurately recognize and separate each area. For this reason, various proposals have conventionally been made for processing for recognizing and separating regions.

FIG. 10 is a block diagram showing an example of a conventional image area determination device. In the figure, 71 is a structure extraction unit, 7
Reference numeral 2 denotes a color judgment unit, 73 denotes a photograph / character judgment unit, 74 to 76 denote judgment units, and 77 denotes a logical operation unit. An image is input as an L ^* a ^* b ^* signal to the image area determination device illustrated in FIG. The structure extracting unit 71 separates the character structure and the photograph structure based on the brightness signal (L ^* ) based on the contrast information, the edge information, the matching information with the halftone pattern, and the like.

[0004] The color determination unit 72 determines whether each pixel of the input image is a color pixel, a black or white pixel, based on the lightness signal (L ^* ) and the color signals (a ^* , b ^* ). , Or in the middle. For this purpose, the color determination unit 72 includes, for each image signal (L ^* , a ^* , b ^* ), a determination unit 74 to 7 that compares each signal with a corresponding threshold value.
6, and a logic operation unit 77 for determining whether the pixel is a color pixel, a black or white pixel, or an intermediate pixel based on the determination results of these determination units 74 to 76.

[0005] The photograph / character judging section 73 includes a structure extracting section 71.
Is logically operated on the output signal of
It is determined whether the character is a black character, a color character, an intermediate character, or a photograph, and an area signal is generated and output. FIG. 10B shows the determination logic by the photograph / character determination unit 73.

[0006] Many of the conventional image processing apparatuses include a color judging unit 7.
In 2, there are few that determine that the pixel is between a color pixel and a black or white pixel, and it is determined whether the pixel is a color pixel or a black or white pixel. For example, in the image processing apparatus described in Japanese Patent Application Laid-Open No. 5-145751, a block hue discriminator corresponding to the color judgment section 72 judges whether the image is color or black and white. The final judgment circuit corresponding to the photograph / character judgment section 73 judges whether the image is a halftone, a black character, or a color character from the identification result of the tonality. Similarly, for example, in an image processing apparatus described in Japanese Patent Application Laid-Open No. 7-107278, an image area separation circuit corresponding to the structure extraction unit 71 determines whether or not a character is in a white background, and corresponds to a color determination unit 72. The color / black discriminating circuit determines whether the image is black or not, and based on the result of the determination, a combining circuit corresponding to the photograph / character determining unit 73 separates the image into black characters, color characters, and other regions. Further, for example, Japanese Unexamined Patent Application Publication No. 6-223
Also in Japanese Patent Publication No. 172, the character region is separated by a region separation unit corresponding to the structure extraction unit 71, and color pixels are detected by a color detection circuit corresponding to the color determination unit 72. An example of extracting a region is shown.

FIG. 11 to FIG. 13 are explanatory diagrams of the problem of the area judgment by the conventional color judgment. As described above, when determining the area of a photograph, a color character, and a black character, it is determined whether each pixel of the input image is at least a color pixel or a monochrome pixel. However, it may not be possible to satisfactorily separate the color character region from the black character region only by such color determination for each pixel. In particular, in an image acquired using an image input device such as a scanner or a camera, deterioration of the MTF due to deterioration of the image input device, vibration of the device itself, a timing error when acquiring each color, and the like,
The input image signal may not always reflect the color of the original image.

FIG. 11 shows a case where the original image is a black character. When a black character as shown in FIG. 11A is read by using an image input device, all the color signals may vary without being reduced uniformly near the start and end points of the black area. In FIG. 11 (D), the vertical axis represents the saturation. If the saturation is equal to or less than a predetermined threshold, the color is determined as black or white, and if the saturation is equal to or greater than the threshold, the color is determined. Fig. 11
If the saturation increases near the start and end points of the black area as shown in (D), that part is erroneously determined as a color area.
In FIG. 11B, a portion that is erroneously determined to be a color region is indicated by cross-hatching. If the determination result of such a color region is applied as it is, a determination result in which a black character region and a color character region are mixed as shown in FIG. become. When such a determination result is output, in some cases, the boundary between the region determined to be a black character and the region determined to be a color character is unnecessarily emphasized and conspicuous, or a partially different process is performed. This causes a problem that the image quality as a character is reduced by being applied.

A similar problem occurs in the case of color characters.
FIG. 12 shows a case where the original image is a low-saturation color character. For convenience of illustration, in FIG. 12, instead of applying colors, hatching is shown in the lower right direction. For example, in the case of low-saturation characters such as blue and dark green, saturation may not be obtained due to variations in color signals near the start and end points of the color area. For example, if the saturation does not increase near the start and end points as shown in FIG. 12D, that part is determined to be a black area. As a result, as shown in FIG. 12B, a part of the low-saturation character area determination result shown in FIG. 12A is determined to be a black area. In FIG. 12B, the cross-hatched portions are portions determined to be color regions. If the determination result of such a color area is applied as it is, an image is obtained in which black spots are present in the color character, and the boundary is emphasized by the subsequent processing, and the image quality of the character image is reduced.

FIG. 13 shows a case where the original image is a color character with extremely low saturation such as dark brown or dark blue. For convenience of illustration, in FIG. 13, hatching that rises to the right is shown instead of being colored. In the case of extremely low-saturation characters, erroneous determinations occur at edges as in the case of low-saturation characters as shown in FIG. 12, and the image signal fluctuates around the threshold value as a whole. There is a possibility that an erroneous determination of a black character may be made. For this reason, as shown in FIG. 13B, the black area indicated by black is mixed in the area indicated by cross-hatching determined to be a color area, and as a result, as shown in FIG. There is a problem that a black portion in the character is a mottled character, and the image quality of the color character is extremely deteriorated.

As described with reference to the configuration shown in FIG. 10, in the case of a color character having low saturation or extremely low saturation, the determination result of an intermediate character may be output without determining a color character or a black character. It is possible. However, when the result of the determination that the character is an intermediate character is output, when performing the image processing in response to the result of the determination, processing for the intermediate character must be performed. Problem.

On the other hand, when extracting a character area or a photograph area in the structure extraction unit 71 of FIG. 10, there is a processing method that corrects an area determined to be a character or a photograph. For example, in the image processing apparatus described in the above-mentioned Japanese Patent Application Laid-Open No. 7-107278, after erosion processing is performed to erase thin lines such as characters, expansion processing is performed, and expansion is performed so that edges and the like do not remain. Further, the above-mentioned Japanese Patent Application Laid-Open No. 6-223
In the image processing apparatus described in Japanese Patent Laid-Open No. 172, an expansion process, a contraction process, and an expansion process are performed on the extracted character region to correct the character region.

[0013] However, even if the character region and the photograph region are accurately extracted as described in these documents, the accurate color judgment must be performed as shown in FIGS. At present, it is not possible to make a determination of a proper area, and it is still impossible to make an accurate determination.

[0014]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned circumstances, and an image area determination method and an image area determination apparatus which improve the determination accuracy of each area of a photograph, a color character, and a black character. It is another object of the present invention to provide an image processing apparatus using the image area determination device.

[0015]

According to the present invention, after a color region is extracted from an input image in the same manner as before, a first expansion process, a contraction process, and a second expansion process are performed on the extracted color region. The color regions are corrected in this order. Alternatively, after a black region is extracted from an input image, a contraction process and an expansion process are performed on the extracted black region in this order to correct the black region. Then, the photographic area, the color character area, and the black character area are determined based on the information of the color area or the black area corrected in this way and the information of the photographic area and the character area extracted by the structure extracting unit. As a result, even if there is an area that is erroneously determined in the color determination, the color area or the black area is corrected by the correction processing, so that the determination accuracy of the photograph area, the color character area, and the black character area is improved. Can be.

[0016]

FIG. 1 is a block diagram showing a first embodiment of an image area determining apparatus according to the present invention. In the figure,
1 is a structure extraction unit, 2 is a color judgment unit, 3 is a color judgment correction unit, 4
Is a photograph / character determination unit, 11 and 12 are determination units, 13 is a logical operation unit, 21 is a first expansion processing unit, 22 is a contraction processing unit,
23 is a second expansion processing unit. In this example, it is assumed that an input image is input as an L ^* a ^* b ^* signal. The structure extracting unit 1 is the same as the conventional one. For example, a character structure is extracted by edge extraction, and a photograph and a halftone dot photograph structure are extracted by a matching process with a halftone pattern. A photographic structure such as a background is identified.

The color judging section 2 has judging sections 11 and 12 and a logical operation section 13, and judges whether each pixel is a color or not.
The determination unit 11 compares the color signal a ^* with the threshold value,
Compares the color signal b ^* with a threshold. The logical operation unit 13
If any one of the determination results of the determination unit 11 or the determination unit 12 determines that the pixel is a color pixel, the pixel is determined to be a color pixel. When both the determination results of the determination unit 11 and the determination unit 12 are not color pixels, it is determined that the pixel is not a color pixel. Such color determination is performed for each pixel of the entire input image. Therefore, color determination is performed irrespective of the contents of images such as characters and photographs.

As described above with reference to FIGS. 11 to 13, there is a possibility that an area which is erroneously determined by the threshold value processing in the color determination unit 2 exists. The color determination correction unit 3 performs a correction process on the determination result of each pixel in the color determination unit 2 to remove an erroneous determination region in a character portion. In this example, the color determination correction unit 3 includes a first expansion processing unit 21, a contraction processing unit 22, and a second expansion processing unit 23, and processes the determination result in the color determination unit 2 in this order.

The first dilation processing unit 21 performs dilation processing by a logical filter that uses a pixel of interest as a color pixel if a pixel determined to be a color pixel exists within a predetermined window size. Thus, for example, even if the color determination region of a character having extremely low chroma is interrupted on the way, it can be made continuous by expanding it. In this processing, for example, it is not desirable that the region of the color pixel existing around the black character be continuous. Therefore, the first expansion processing unit 2
The window size used in step (1) needs to be suppressed to such an extent that the area of the color pixels existing around the black character does not become continuous. A specific example of the window size used in the first expansion processing unit 21 can be 3 × 3 pixels.

The contraction processing section 22 performs contraction processing using a logical filter having a predetermined window size. As a result, an isolated color pixel region existing around the black character is removed. The area of the color pixels existing around the black character is also expanded by the expansion processing by the first expansion processing unit 21.
Therefore, the window size used in the contraction processing unit 22 needs to be set larger than the window size used in the first expansion processing unit 21. However, the window size must be set within a range in which the area of the color pixels extracted from the small color characters and the thin color lines is not lost by the contraction processing. A specific example of the window size used in the contraction processing unit 22 can be 5 × 5 pixels.

Further, the second expansion processing section 23 performs the same expansion processing as that of the first expansion processing section 21 by using a logical filter having a predetermined window size, and enlarges the area determined to be a color pixel. In the previous contraction processing unit 22, since the contraction amount is larger than the expansion amount by the first expansion processing unit 21, the contraction is performed even in comparison with the original image.
In the second expansion processing section 23,
For example, the area of the color pixels is expanded by the number of pixels estimated to be unable to be determined as the area of the color pixels around the low-saturation character or the like. The window size used in the second expansion processing unit 23 needs to be a size corresponding to such an expansion amount. However, if the black character or black line and the color character or color line are close to each other on the original input image, the window size is set so that the color pixel area does not expand and enter the black character or black line area Must. A specific example of the window size used in the second expansion processing unit 23 can be 11 × 11 pixels.

Note that these processes are performed not only on black characters and color characters, but also on the color judgment results of the entire image. As described later, a portion such as a photograph is determined to be a photograph region regardless of the color determination result, so that the above-described correction processing has no effect.

The photograph / character judging section 4 derives a photographic area, a color character area and a black character area from the color judgment result corrected by the color judgment correcting section 3 and the character structure or photographic structure extracted by the structure extracting section 1. And outputs the result of the determination as a region signal. FIG. 1 shows the determination logic in the photograph / character determination unit 4.
This is shown in FIG. The region extracted as a photographic structure by the structure extracting unit 1 is a photographic region regardless of the color determination result. In addition, according to the result of the color determination, the region extracted as the character structure by the structure extracting unit 1 determines a portion determined as a color pixel region as a color character region,
A portion other than the color pixel region may be determined as a black character region. In the photo / character determination section 4, since the area is determined using the result of the color determination corrected by the color determination correction section 3, a part of black characters becomes a color character area,
The problem that a part of the color character becomes a black character region does not occur, and the region determination accuracy can be improved.

FIGS. 2 to 4 are explanatory diagrams of an example of a specific operation in the first embodiment of the image area determining apparatus of the present invention. Here, FIG. 11A and FIG.
(A), specific processing of black characters, low-saturation characters, and extremely low-saturation characters shown in FIG. 13A in the respective processes in the first embodiment of the present invention shown in FIG. The determination results and the like in the process are shown in FIGS. 2, 3, and 4, respectively. In each figure, A indicates a character on the original, black characters are filled, low-saturation characters are indicated by hatching to the right instead of colors, and extremely low-saturation characters are indicated by hatching to the right instead of color. It is shown. B is the color determination unit 2
, And regions of color pixels up to E are shown with cross hatching. C indicates the processing result of the first expansion processing unit 21, and D indicates the reduction processing unit 22
, And E indicates the processing result by the second expansion processing unit 23. F indicates an area determined by the photograph / character determination unit 4, a solid area in FIG. 2 indicates an area determined as a black character area, and a cross-hatched area in FIGS. 3 and 4 indicates a color area. Each of the areas determined to be character areas is shown.

First, in the case of a black character shown in FIG. 2, as described with reference to FIG. 11, there is a case where an area determined to be a color pixel exists in a surrounding portion. Therefore, the color determination unit 2
In the determination result in, color pixels are scattered as shown in B. In the first expansion processing section 21, expansion processing is performed on these color pixels, and the area of the color pixels is enlarged as shown in C. However, as described above, the first expansion processing unit 21
Since the window size of the logical filter used in is set to a size in which the area of the color pixels scattered on the black character is not continuous, the area of the color pixels does not increase continuously.

Thereafter, when contraction processing is performed in the contraction processing section 22, these color pixel regions disappear, and as shown by D, there are no color pixels on the black character. There is no change even if the processing by the second expansion processing unit 23 is performed in this state, and the result of the color judgment output from the color judgment correction unit 3 includes:
There is no color-determined area on the black character. On the other hand, if it is assumed that the structure extraction unit 1 faithfully extracts the black character region indicated by A as a character region, the photo / character determination unit 4
There is no black character portion determined to be a color pixel region, and all extracted character regions are determined as black character regions.

Next, in the case of the low chroma character shown in FIG. 3, as described with reference to FIG. 12, there is a case where an area which is not determined to be a color pixel exists in a surrounding portion. Therefore, in the determination result of the color determination unit 2, as shown in B, areas that are not determined to be color pixels are scattered.
In the first expansion processing section 21, expansion processing is performed on these color pixels, and the area of the color pixels is enlarged as shown in C. At this point, the small recess is filled. In this state, contraction processing is performed in the contraction processing section 22, and the line width is reduced as shown by D. At this time, the concave portion may be enlarged. However, in the second expansion processing section 23, the expansion processing is performed with the expansion amount larger than the contraction amount, so that B
The pixel which is not determined as a color pixel while being on the color character at the time of is also a color pixel, and the color pixel region as shown by E including the color character shown by A is output from the color determination correction unit 3. Become. On the other hand, if it is assumed that the structure extracting unit 1 faithfully extracts the color character region A shown as a character region, the photograph / character determining unit 4 determines that all of the character regions are color pixel regions. The character area extracted by the structure extracting unit 1 is accurately determined as a color character area.

Further, in the case of the extremely low chroma character shown in FIG. 4, as described above with reference to FIG. 13, there is an area that is not determined to be a color pixel in the surrounding area, and the color is also applied to other areas. There may be a region that is not determined as a pixel. Therefore, in the determination result of the color determination unit 2, as shown in B, an area that is not determined to be a color pixel exists everywhere. Further, there is a possibility that a portion where a color pixel region is interrupted may occur. In the first expansion processing section 21, expansion processing is performed on these color pixels, and the area of the color pixels is enlarged as shown in C. At a point where the color pixel area is interrupted at this point, the color pixel area can be made continuous. In addition, the small concave portion is filled, for example, even if there is a small portion that has escaped inside.

In this state, the contraction processing section 22 performs contraction processing. As described above, in the contraction processing, the contraction processing is performed so that the area of the color pixel corresponding to the small color character or the thin color line is not removed. For this reason, the contraction processing is performed without removing the color pixel area that has been made continuous by the expansion processing by the first expansion processing unit 21, and the color pixel area as indicated by D remains. In the next second expansion processing unit 23,
By performing the expansion processing with the expansion amount larger than the contraction amount, the pixel which is not determined as a color pixel on the color character at the time of B also becomes a color pixel, and as shown in E including the color character shown in A, The color pixel area is output from the color determination correction unit 3. On the other hand, if it is assumed that the structure extracting unit 1 faithfully extracts the color character region A shown as a character region, the photograph / character determining unit 4 determines that all of the character regions are color pixel regions. The character area extracted by the structure extracting unit 1 is accurately determined as a color character area.

As described above, in the present invention, a black character is determined as a black character region without partially including a color character region, and a color character is determined as a color character region without partially including a black character region. can do.

FIG. 5 shows a second embodiment of the image area determining apparatus according to the present invention.
It is a block diagram showing an embodiment. In the figure, the same as FIG.
The same reference numerals are given to the same parts and the description is omitted. 14 is
C^*The calculation unit 15 is a logical operation unit. In this example, the color
Judgment unit 2 is C^*Includes calculation unit 14 and logical operation unit 15
You. C^*The calculator 14 calculates the color signal a^*, B^*From saturation C ^*
Is calculated. The logical operation unit 15 calculates C^*Calculated by calculation unit 14
Saturation C^*Is compared with a predetermined threshold, and is larger than the threshold.
If not, it is determined that the pixel is a color pixel. Thus, the saturation C^*
By using the color signal a^*, B^*Noso
Difference in hue H ゜ compared to the case of judging each
This makes it possible to suppress variations in the color determination result.

The color signal indicating whether or not the pixel is a color pixel output from the color determination unit 2 is subjected to expansion processing, contraction processing, and expansion processing by the color determination correction unit 3 in the same manner as in the first embodiment. The processing is performed in this order, and the area of the color pixel is corrected. The photograph / character determination unit 4 extracts the character structure or the photographic structure from the structure extraction unit 1 and the color pixel region corrected by the color determination correction unit 3 to determine a photographic region, a black character region, The color character area is determined according to the determination logic shown in FIG.

FIG. 6 shows a third embodiment of the image area determining apparatus according to the present invention.
It is a block diagram showing an embodiment. In the figure, the same parts as those in FIG. 5 is a color determination unit, 6 is a color determination correction unit, 31 to 33 are determination units, 34
Is a logical operation unit, 41 is a contraction processing unit, and 42 is an expansion processing unit. In the first and second embodiments described above, the area is determined by determining the color pixels. However, in this example, the area is determined by determining the black pixels.

The color judging section 5 calculates a value of each pixel of the image input using the lightness signal L ^* and the color signals a ^* and b ^* .
It is determined whether or not the pixel is a black pixel. As in the first and second embodiments described above, only the determination of the color signals a ^* and b ^* includes a white pixel, a gray pixel, and the like. Therefore, the brightness signal L ^{* is} used to determine only the black pixel ^. Is also used.

The color judging section 5 includes judging sections 31 to 33 and a logical operation section 34. The judgment unit 31 outputs the brightness signal L ^*
And a predetermined threshold value to determine whether the color is black with low brightness. The determining unit 32 compares the color signal a ^* with a predetermined threshold value, and the determining unit 33 compares the color signal b ^* with a predetermined threshold value to determine whether or not each color is achromatic. The logical operation unit 34 determines that a pixel is a black pixel when the determination result of the determination unit 31 is a determination of black and the determination results of the determination unit 32 and the determination unit 33 are an achromatic color determination.

As described above, in the judgment result of the color judgment unit 5, there are pixels which are erroneously judged. In this case, since it is determined whether or not the pixel is a black pixel, for example, a pixel on a black character may not be determined as a black pixel. Further, a pixel on a color character having low saturation or extremely low saturation may be determined as a black pixel. However, black pixels on a character with extremely low saturation do not need to be continuous, and are instead subject to erasure. Therefore, the color determination correction unit 6 does not perform the first expansion processing. The color determination correction unit 6 in this example is composed of the contraction processing unit 41 and the expansion processing unit 42 corresponding to the contraction processing unit 22 and the second expansion processing unit 23 in the above-described first and second embodiments. I have. Black pixels on the color character are deleted by the contraction processing unit 41. Then, the dilation processing unit 42 performs dilation processing for the number of pixels that have been contracted by the contraction processing unit 41 and the number of pixels that may not be determined as black pixels in black characters. As a result, a black pixel area including only the original black character is formed.

The photograph / character judging section 4 derives a photographic area, a photograph area, and a character structure from the result of the color judgment (black pixel judgment) corrected by the color judgment correcting section 6 and the character structure or the photographic structure extracted by the structure extracting section 1. A color character area and a black character area are determined, and the determination result is output as a region signal. FIG. 6B shows the determination logic in the photograph / character determination unit 4. The region extracted as a photographic structure by the structure extracting unit 1 is a photographic region regardless of the color determination result. In addition, for the region extracted as a character structure by the structure extracting unit 1, a portion determined to be a black pixel region is determined to be a black character region according to a result of color determination, and a portion other than a black pixel region is determined to be a color character region. What is necessary is just to determine an area.

As described above, even when the color determination unit 5 determines a black pixel and the color determination correction unit 6 corrects the area of the black pixel, the color determination unit 6 is different from the first and second embodiments. Similarly, a problem that a part of a black character becomes a color character area or a part of a color character becomes a black character area does not occur, and the determination accuracy of the area can be improved.

FIG. 7 shows a fourth embodiment of the image area determining apparatus according to the present invention.
It is a block diagram showing an embodiment. In the figure, the same parts as those in FIG. 6 are denoted by the same reference numerals, and description thereof will be omitted. 35 is a C ^* calculation unit, and 36 is a logical operation unit. This example is shown in FIG.
In the third embodiment shown in FIG. 5, the second embodiment shown in FIG.
This is an example in which the color determination is performed by calculating the saturation C ^* in the same manner as in the embodiment.

The C ^* calculating section 35 is the same as the C ^* calculating section 14 in the second embodiment described above, and includes the color signals a ^* ,
b ^* to calculate the chroma C ^* from. The logical operation unit 36 calculates C ^*
The saturation C ^* calculated by the calculation unit 35 is compared with a predetermined threshold. When the saturation C ^* is equal to or less than the threshold and the determination result of the determination unit 31 is black, the pixel is determined to be a black pixel. By using the saturation C ^* , the determination can be made regardless of the hue H ゜. The following processing is the same as in the third embodiment.

FIG. 8 is a schematic configuration diagram showing an example of an image processing apparatus to which the image area determination device of the present invention is applied. In the figure, 51 is a scanner unit, 52 is a scanner color correction unit, 53
Denotes an image area determination unit, 54 denotes a printer color correction unit, and 55 denotes a printer unit. This image processing apparatus includes a scanner 51
Scanner color correction section 52, image area determination section 53,
It comprises a printer color correction section 54 and a printer section 55.

The scanner section 51 reads an image on a document and outputs it as RGB signals. Scanner color correction unit 52
Corrects the color characteristics peculiar to the scanner unit 51 and converts the color representation from the RGB signal into the uniform color space signal L ^* a ^* b.
Convert to ^* . The image area determining unit 53 is the above-described image area determining apparatus of the present invention. The printer color correction unit 54 performs color correction in accordance with the color expression performance unique to the printer unit 55, for example, the color developing property and the expressible color space, and also performs the color space of the color material handled by the printer unit 55, for example, Y (yellow). )
The signal is converted into an M (magenta) C (cyan) K (black) signal. The printer unit 55 records the image on the recording medium,
Output.

In such an image processing apparatus, an image input by the scanner section 51 is subjected to color correction by the scanner color correction section 52 and a uniform color space signal L ^* a ^* b ^*.
And supplied to the image area determination unit 53. The image area determination unit 53 determines a photographic area, a color character area, and a black character area based on an image supplied as the uniform color space signal L ^* a ^* b ^*, as described in each of the above embodiments. To output the area signal. This area signal is supplied to the printer color correction unit 54 and the printer unit 55 in this example.

In the printer color correction section 54, L ^* a ^* b ^*
A process of converting the signal into a YMCK signal is performed. At this time, the process is switched based on an area signal provided from the image area determination unit 53. For example, for a black character area, YM
Color conversion is performed so that recording is performed using K instead of C, and character enhancement processing and gradation correction are performed. For the color character area, the processing is performed by setting a good background removal amount for reproducing the color character, and performing gradation correction and the like. further,
For the photographic area, for example, emphasis is placed on color reproducibility and graininess,
Perform optimal background removal and reproduction processing.

In the printer section 55, for example, screen reproduction is switched based on the area signal given from the image area determination section 53, and an appropriate screen process is performed in each area to record an image.

By performing processing in accordance with the area signal output from image area determination section 53 in this manner,
Appropriate processing is performed on the recorded image in each area, and a high-quality image can be obtained. In addition, since the image area determination unit 53 of the present invention is used as the image area determination unit 53, problems such as mixing of a part of black characters with a color-processed part or a part of black characters in a color character are solved. Thus, it is possible to obtain an image with better image quality than before.

FIG. 9 is a schematic configuration diagram showing another example of an image processing apparatus to which the image area determination device of the present invention is applied.
In the figure, 61 is a scanner unit, 62 is a color correction unit, and 63 is an image area determination unit. This example of the image processing apparatus shows an example in which the image reading apparatus is incorporated with the image area determination device of the present invention. This image processing apparatus includes a scanner 61
, A color correction unit 62, and an image area determination unit 63.

The scanner section 61 reads an image on a document and outputs it as RGB signals. The color correction unit 62 corrects the color characteristics unique to the scanner unit 61 and converts the RGB signals into L ^* a ^* b ^* signals. Image area determination unit 63
Is an image area determination device of the present invention, which determines a photographic area, a color character area, and a black character area from the L ^* a ^* b ^* signal passed from the color correction unit 62 and outputs an area signal.

In such an image processing apparatus, the image input by the scanner section 61 is subjected to color correction by the color correction section 62 and converted into a uniform color space signal L ^* a ^* b ^* to determine the image area. It is supplied to the unit 63. As described in the above embodiments, the image area determination unit 63 determines a photographic area, a color character area, and a black character area based on an image supplied as the uniform color space signal L ^* a ^* b ^*. To output the area signal. In this image processing apparatus, the image area determination unit 6 includes the L ^* a ^* b ^* signal converted by the color correction unit 62.
3 is output to the outside. The image signal may be input by the scanner unit 61 and the RGB signal corrected by the color correction unit 62 may be output to the outside.

As described above, since the image processing apparatus outputs the image signal and the area signal of the image, other image processing apparatuses using the output image use the area signal to appropriately control each area. Processing can be performed.

In addition to these examples, as an image processing apparatus, a configuration in which the image area determination apparatus of the present invention is incorporated in an image output apparatus, for example, an image area determination section 53, a printer color correction section 54, and a printer section 55 in FIG. It is also possible to configure as an image forming apparatus to be configured. Of course, the image area determination device of the present invention may be incorporated in an image processing apparatus that does not have an image input device such as a scanner unit and an image output device such as a printer unit. These image processing apparatuses, including the examples described above, may be incorporated in a network system or the like.

In each embodiment of the above-described image area determining apparatus and the image area determining section in the example of the image processing apparatus, an example has been described in which an image is input as a signal in the L ^* a ^* b ^* color space. The present invention is not limited to this.
^* C ^* H ゜, L ^* u ^* v ^* , YCrCb, RGB, CM
It may be input as a signal according to various color systems such as YK. For example, in the case of an input image signal according to the L ^* C ^* H ゜ color system, the C ^* calculating units 14 and 35 are unnecessary in the above-described second and fourth embodiments of the image area determination device.

[0053]

As is clear from the above description, according to the image area determining method and the image area determining apparatus of the present invention,
In the past, even if it was originally a very low saturation character or low saturation character area, it was determined as a black character area, or a part that was originally determined as a color character area even though it was a black character area, surely It can be determined as a color character area and a black character area. For this reason, there is an effect that the determination accuracy of a region such as a photograph region, a color character region, and a black character region can be improved.

According to the image region determining method and the image processing apparatus of the present invention using the image region determining apparatus of the present invention having a high determination accuracy, originally, the extremely low chroma character and the region of the low chroma character It is possible to solve the problem that a part of a black character area is processed as a black character area or a part of a black character area is originally processed as a color character area. There is an effect that an image can be obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a first embodiment of an image area determination device according to the present invention.

FIG. 2 is a diagram illustrating an example of a specific operation in the case of a black character in the first embodiment of the image area determination device of the present invention.

FIG. 3 is an explanatory diagram of an example of a specific operation in the case of a low-saturation character in the first embodiment of the image area determination device of the present invention.

FIG. 4 is an explanatory diagram of an example of a specific operation in the case of an extremely low chroma character in the first embodiment of the image area determination device of the present invention.

FIG. 5 is a block diagram showing a second embodiment of the image area determination device of the present invention.

FIG. 6 is a block diagram showing a third embodiment of the image area determination device of the present invention.

FIG. 7 is a block diagram showing a fourth embodiment of the image area determination device of the present invention.

FIG. 8 is a schematic configuration diagram illustrating an example of an image processing device to which the image region determination device of the present invention is applied.

FIG. 9 is a schematic configuration diagram showing another example of an image processing device to which the image region determination device of the present invention is applied.

FIG. 10 is a block diagram illustrating an example of a conventional image area determination device.

FIG. 11 is an explanatory diagram of a conventional problem of area determination by color determination in black characters.

FIG. 12 is an explanatory diagram of a conventional problem of area determination by color determination in low chroma characters.

FIG. 13 is an explanatory diagram of a problem of a conventional region determination based on color determination in extremely low chroma characters.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Structure extraction part, 2, 5 ... Color judgment part, 3, 6 ... Color judgment correction part, 4 ... Photograph / character judgment part, 11, 12, 31-33
... determination unit, 13, 15, 34, 36 ... logical operation unit, 1
4, 35... C ^* calculation unit, 21.
2, 41 ... contraction processing unit, 23 ... second expansion processing unit, 42
... Expansion processing section, 51 ... Scanner section, 52 ... Scanner color correction section, 53 ... Image area determination section, 54 ... Printer color correction section, 55 ... Printer section, 61 ... Scanner section, 62 ... Color correction section, 63 ... Image Area determination unit.

Continuation of front page (56) References JP-A-3-182189 (JP, A) JP-A-4-115669 (JP, A) JP-A-7-162687 (JP, A) JP-A-7-107278 (JP) (A) JP-A-6-223172 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04N 1/40 G06T 1/00 510 G06T 7/00 100 H04N 1/46 H04N 1 / 60

Claims (12)

(57) [Claims] 1. A structure extracting unit for extracting a photograph region and a character region in an input image, a color determining unit for extracting a color region in the input image, and a color extracting unit for extracting a color region in the input image. The first expansion processing, the contraction processing, and the second expansion processing are performed in this order to correct the color area. The color determination correction means, and the color area corrected by the color determination correction means and the structure extraction means An image region determining apparatus comprising: a photograph / character determining unit that determines a photograph region, a color character region, and a black character region based on information of the extracted photograph region and character region. 2. The input image includes a lightness signal and two color signals, and the color determination unit extracts the color region as the color region when any one of the two color signals is equal to or more than a predetermined threshold value corresponding to each of the two color signals. The image area determination device according to claim 1, wherein: 3. The image area determination apparatus according to claim 1, wherein the color determination unit extracts the color area as the color area when the saturation of the input image is equal to or greater than a predetermined threshold. 4. The first dilation processing, the erosion processing, and the second dilation processing performed by the color determination correction means are processing using logical filters of different sizes, and the number of pixels changed by the dilation or erosion processing. The apparatus according to claim 1, wherein the contraction processing is larger than the first expansion processing, and the second expansion processing is larger than the contraction processing. 5. A structure extracting means for extracting a photographic area and a character area in an input image, a color determining means for extracting a black area in the input image, and a color extracting means for extracting a black area in the input image. A color determination correction unit for performing the contraction process and the expansion process in this order to correct the black region; and a black region corrected by the color determination correction unit and a photograph region and a character region extracted by the structure extraction unit. An image region determining apparatus, comprising: a photograph / character determining unit that determines a photograph region, a color character region, and a black character region based on information. 6. The input image comprises a lightness signal and two color signals, and the color determination means determines that the black area is smaller when both the lightness signal and the two color signals are smaller than respective predetermined thresholds. The image area determination device according to claim 5, wherein: 7. The image area determination according to claim 5, wherein the color determination unit sets the black area when the lightness and the saturation of the input image are smaller than predetermined thresholds respectively corresponding to the input image. apparatus. 8. The contraction process and the dilation process performed by the color determination correction unit are processes using logical filters of different sizes, and the number of pixels that change by the dilation or erosion process is larger than that of the erosion process. The apparatus according to claim 5, wherein the processing is larger. 9. A photograph area and a character area in the input image are extracted, and a color area in the input image is extracted. A first expansion processing, a reduction processing, and a second expansion processing are performed on the extracted color area. Perform the expansion process in this order to correct the color area,
An image area determination method, comprising: determining a photograph area, a color character area, and a black character area based on the corrected color area and information on the photograph area and the character area. 10. A photo region and a character region in an input image are extracted, a black region in the input image is extracted, and a contraction process and an expansion process are performed on the extracted black region in this order. An image area determination method, wherein a black area is corrected, and a photo area, a color character area, and a black character area are determined based on the corrected black area and information on the photo area and the character area. 11. Reading means for reading an image on a document,
An image area determination device according to any one of claims 1 to 8, wherein the image read by the reading unit is input to the image region determination device as an input image as it is or after being subjected to image processing. An image processing apparatus comprising: 12. The method according to claim 1, wherein
An image processing apparatus comprising: an image area determination device according to item 1; and image processing means for performing image processing according to characteristics of each area determined by the image area determination device.