JP3522880B2 - Image processing apparatus and image forming 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 data processing apparatus, and more particularly, to detecting the characteristics of an image represented by the image data and performing image data processing according to the detected image characteristics and the designated processing. The present invention relates to an image processing apparatus that switches processing characteristics. This image processing apparatus is, for example, a monochrome or color machine.
Used for digital scanners, copiers, printers, facsimiles, or computer image processing.

[0002]

2. Description of the Related Art Japanese Patent Application Laid-Open Nos. 1-241978 and 2-140057 detect image edges and achromatic colors based on image data and perform edge enhancement processing on achromatic edges (black characters). , Or an image processing device for controlling chromatic colors in the vicinity thereof is presented. JP-A-3-
Japanese Laid-Open Patent Publication No. 13783 presents an image processing apparatus that performs a hue conversion or a chromatic color monochromatic conversion in a specified area or outside a specified area.

There are already image processing apparatuses for coloring the background of an original or painting a designated area with a certain color. The characters / patterns are determined by the edge determination, and the printer gamma is set on the character side. On the photo side, there is a technology that makes the printer gamma lie down, and a technology that eliminates the black fine line breaks and coloring by using the luminance signal or G (green) signal for the achromatic part by chromatic / achromatic judgment. It is used.

Character / picture determination and chromatic / achromatic determination are performed based on R, G, B image data sent from a document reading device (image scanner). It is often performed before the processing and processing stages of. However, for processing and processing image data,
The R, G, B image data are provided in parallel with the decision circuit and processed during the decision. Since this processing is the original image data from the image scanner, even when the image data is processed and processed by the image processing, the characteristics of the original image data are transmitted to the processed data, The image was sometimes deteriorated.

[0005]

A first object of the present invention is to prevent image deterioration that deviates from the processing process when the processing process is selected in the image processing, and the second purpose is to suppress the deterioration of character representation. The purpose of.

[0006]

(1) A scanner that reads an original and generates image data; first determination means that determines whether the image data generated by the scanner is a character portion or a pattern portion and is chromatic. Separation means including second judgment means for judging whether the color is achromatic; an operation section for designating the type of processing; a character section or a picture section of the separation section and chromatic or achromatic judgment information. Image processing means for performing image processing of a specified type on the image data, including image processing for correspondingly switching the processing characteristics; and image data in the specified area is set to a constant density value by the operation section. when the filling process outputs are specified Te, the for the character portion and achromatic judgment image data by separating means prohibits the chromatic removal by image processing for switching the processing characteristics, the Pattern portion or colored and determine the release means
Switch the processing characteristics for specified image data
An image processing apparatus including means for enabling effective chromatic color removal by image processing.

According to this, since the chromatic color removal (black character determination area YMC erase) is not performed in the achromatic character portion, that is , there is no switching to the processing characteristics of the character portion.
No blank characters appear.

(2) A scanner that reads an original and generates image data; first determination means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether it is chromatic or achromatic. Separation means including a second judgment means; an operation section for designating a type of processing; a processing characteristic corresponding to the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. An image processing means for performing a specified type of image processing including image processing to be switched on the image data; and, when the background coloring processing is specified by the operation section, the separating section determines that the character section is achromatic. for image data prohibits chromatic removal by image processing for switching the processing characteristics, the separation
An image processing apparatus comprising: means for enabling chromatic color removal by image processing for switching the processing characteristics for image data determined by the means to be a pattern portion or chromatic color .

According to this, since the chromatic color removal (black character determination area YMC erase) is not performed in the achromatic character portion , a blank character does not occur.

(3) A scanner that reads an original and generates image data; first determination means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether it is chromatic or achromatic. Separation means including a second judgment means; an operation section for designating a type of processing; a processing characteristic corresponding to the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing a specified type of image processing including image processing to be switched on the image data; and, when hue conversion processing is specified by the operation section, the separating section determines that it is a character part and an achromatic color. for image data prohibits chromatic removal by image processing for switching the processing characteristics, the separation hands
An image processing apparatus comprising: means for enabling chromatic color removal by image processing for switching the processing characteristics for image data determined to have a pattern portion or a chromatic color by a step .

According to this, since the chromatic color removal (black character determination area YMC erase) is not performed in the achromatic character portion, the achromatic character does not disappear.

(4) A scanner that reads an original and generates image data; first determination means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether it is chromatic or achromatic. Separation means including a second judgment means; an operation section for designating a type of processing; a processing characteristic corresponding to the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing a specified type of image processing including switching image processing on the image data; and, when chromatic color monochromatic conversion processing is specified by the operation section, character separation and achromatic color processing are performed by the separating means. against the determined image data is prohibited chromatic removal by image processing for switching the processing characteristics, the
An image processing apparatus comprising: a unit that enables chromatic color removal by image processing that switches the processing characteristics for image data that is determined to be a pattern portion or chromatic color by the separating unit .

According to this, since the chromatic color removal (black character determination area YMC erase) is not performed in the achromatic character portion, the achromatic character does not disappear.

(5) A scanner that reads an original and generates image data; first determination means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether it is chromatic or achromatic. Separation means including a second judgment means; an operation section for designating a type of processing; a processing characteristic corresponding to the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing a specified type of image processing including image processing to be switched on the image data; and, when hue conversion processing is specified by the operation section, the separating section determines that it is a character part and an achromatic color. for image data prohibits achromatic generation by image processing for switching the processing characteristics, the separation hands
An image processing apparatus comprising: means for enabling achromatic color generation by image processing for switching the processing characteristics for image data determined to have a pattern portion or a chromatic color by a step .

According to this, the achromatic color is not generated in the achromatic character portion, and the achromatic character does not disappear.

[0016]

(6) The image processing means includes a scanner γ correction means; the separation means makes the determination based on image data generated by the scanner and scanner γ corrected by the scanner γ correction means. The image processing apparatus according to any one of (1) to (5) above, wherein the image processing for switching the processing characteristics processes the image data that has undergone the determination.

According to this, since the determination is made based on the image data before the various types of processing and the processing is based on the original image, image deterioration does not occur.

(7) The image processing apparatus according to any one of (1) to (6), wherein the image processing means converts the image data into image data for printer output; and the printer output. Image forming apparatus including a printer that forms an image on a transfer sheet based on image data for use in printing.

According to this, it is possible to obtain a printout of an image having the effects described in (1) to (6) above.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The structure and operation of the present invention will be described in detail below based on the embodiments shown in the drawings. FIG. 1 shows a digital color copier in which the present invention is applied in one aspect. This copying machine includes a scanner 101 for reading a document and a scanner 1.
Image processing 102 for electrically processing the RGB image signal output from 01, a printer 103 for forming an image on transfer paper based on image recording information of each color output from the image processing 102, a scanner 101, an image processing 102 and a printer 103, and an operation unit 104 as a user I / F.

The scanner section 101 has a lamp, for example, a fluorescent lamp, which scans and illuminates the document on the document table. The reflected light from the document when illuminated by this fluorescent lamp is reflected by the mirror and enters the imaging lens. By this imaging lens, the image light is imaged on the dichroic prism and split into light of three kinds of wavelengths, for example, red R, green G and blue B, and a light receiver for each wavelength, for example, red CCD, green The light enters the CCD and the blue CCD, respectively. Each CCD converts the incident light into a digital signal (R image data, G image data and B image data) and outputs it, and the image processing section 2
The R, G, and B image data are subjected to the required processing, and the recording color data of each color, for example, black (abbreviated as Bk below), yellow (abbreviated as Y), magenta (abbreviated as M), and cyan. (C is abbreviated) It is converted into the data for recording formation of each color.

FIG. 2 shows a functional configuration of the image processing 102 in FIG. The image processing 102 is an embodiment of the present invention. The R, G, B image data input from the scanner 101 is converted by the scanner gamma 203 from reflectance linear data to density linear data. RGB data converted into density linear is divided into two systems, one is color processing 2
04, the other is the judgment of the picture part / character part and the chromatic color /
It is input to the separation 202 that makes an achromatic judgment. Separation 20
The signal output from 2 is first input to the color processing 204. In the color processing 204, processing such as painting, base coloring, hue conversion, and single color conversion is performed, and the separation signal (20
The processing is switched according to the output signal 2). After that, the image data is input to the smoothing filter 205. At this time, the separation signal of the separation 202 is also input to the smoothing filter 205, but the separation signal is also delayed and input to the smoothing filter 205 by the delay (pixel delay) of the output image data generated in the processing in the color processing 204. This is done in order to synchronize the image data and the separated signal, and this kind of signal delay processing is common to all the subsequent image processing.

In the smoothing filter 205, smoothing for removing moire of halftone dot originals and edge enhancement filter processing for MTF correction are performed in order to set edges of low-contrast originals.

Next, in the color correction 206, the R, G, B image data are recorded color data, Y, M, C, Bk image data.
Converted to data. After that, in order to make only the edge portion stand out of the image data that has been entirely blurred by the smoothing for removing moire, an emphasis filter process is performed at 207. Then, gamma correction for matching the density characteristics of the printer 103 is performed at 208, dither processing is performed at the gradation processing 209, and Y, M, C, Bk image data subjected to these various corrections is sent to the printer 103. .

FIG. 3 shows a functional configuration of the separation 202. Edge judgment 301, halftone dot judgment 302 and comprehensive judgment 303
Is used to determine the character portion / pattern portion, and the color determination 401 determines chromatic color / achromatic color. In this embodiment, the character portion / pattern portion determination is performed based on the input R, G, B image data, but this is performed on the basis of the luminance signal or on the G image data that greatly contributes to the luminance. You may perform based on.

The edge judgment 301 is performed for R, G, B image data.
Data is binarized (or it may be ternary), black pixels,
A white pixel is determined, the continuity of the boundary between the black pixel and the white pixel is determined by pattern matching, and if the black / white boundary is continuous, it is determined as an edge. Note that other edge determination methods may be used, for example, by observing the density gradient (spatial difference) of the image data and determining a region with a large density gradient as an edge portion.

When there are halftone dots, high and low density dots appear repeatedly in a certain fixed period regardless of the density of the image itself. The halftone dot determination 302 detects the peak and valley peaks of black pixels and the peak and valley peaks of white pixels by using the image data as a block area (unit of a plurality of pixel matrixes), and these are the same for a certain number. When the pitches are continuous, the area is determined to be a halftone dot area.

A comprehensive judgment 303 is performed by characterizing an area judged to be an edge and not a halftone dot from the edge / non-edge judgment result of the edge judgment 301 and the halftone / non-halftone dot judgment result of the halftone dot judgment 302. It is determined to be a copy, and the other area is determined to be a pattern portion. Note that the pattern area is further classified into a halftone dot portion (halftone portion) and a silver salt portion (photograph portion), and the smoothness is switched by the smoothing filter 205, thereby suppressing blurring due to silver salt, and silver salt. Since the original has a wide color reproduction range, R, G, and B gammas may be switched or color correction coefficients may be switched. In a mode suitable for this, the overall determination 303 determines that the pattern area is further divided into a halftone dot portion (halftone portion) and a silver salt portion (photographic portion), and switching is performed. In this case, the comprehensive judgment 303 uses the characteristic that a halftone dot original (halftone image) is often continuous in a certain area, and the halftone dot area has a certain amount in the area determined to be the pattern portion. If it exists, it is determined to be a halftone dot region, and the others are determined to be a silver salt region.

The color determination 401 calculates the absolute value (3 sets) of the difference between the R, G, B image data by observing the balance of the R, G, B image data. Then, the maximum value is extracted, and if it is larger than the set value, it is determined to be chromatic, and if it is smaller, it is determined to be gray (achromatic).

The separation signal representing the judgment result (character / picture & chromatic / achromatic) of the separation 202 is first inputted to the color processing 204, and the printer gamma processing 208 is synchronized with the image data.
Will be sent to. Color processing 204 to printer gamma processing 20
In the image processing of 8, depending on the separation signal (however, if the use is not prohibited (OFF)), processing suitable for character expression, processing suitable for pattern expression, processing suitable for chromatic expression, achromatic Selective processing suitable for expression. For example,
The color correction 206 removes the chromatic color of the character portion when the determination result is the character portion and the achromatic color, and the printer γ correction 208 performs the gamma correction that emphasizes the edge when the determination result is the character portion, and the gradation In the process 209, if the determination result is the character portion, the gradation process is not performed, and if the determination result is the pattern portion, the gradation process is performed. Next, the processing and image processing performed by the image processing 102 will be described.

"Filling", which is one of the processing, is to output image data in a specified area at a constant density value, which is also called "painting". "Generate" is a UCR process and a UCA process. Normal achromatic color generation will be described. Figure 4 (a)
Shows the concentration graph. When the input R, C, B image data are not all 0, there is an achromatic component. Although it is possible to express this achromatic color by using three color toners of Y, M, and C, there is a drawback that the toners are often overlapped and the black becomes cloudy. UCR processing outputs this with a single color of Bk ink. In the case of the R, G, B image data shown in the left half of FIG.
Is the smallest, so replace it with Bk. UCR8
When it is set to about 0%, all the overlapping of RGB components is not replaced by Bk, and the color components remain. Then U
An achromatic color component is created by adding color components according to the amount of UCR further performed by CA processing (right half of FIG. 4A).

It is usual to generate an achromatic color as described above. However, when a thin line or an achromatic color having a low density exists, R, G may be generated due to uneven speed of the scanner or deviation of the mounting position of the mirror. , B image data may be out of balance and input. In this case, the achromatic color is determined to be chromatic, and the black quality is significantly deteriorated. In order to avoid this, when it is determined that the color is achromatic, only the G (green) signal may be used or the minimum value of the R, G, B image data may be used as the achromatic color generation (FIG. 4 ). (B) and (c)). The color processing 204 of FIG. 2 performs this type of achromatic color generation.

One of the processing operations, "background coloring" is R,
This is a process of adding a certain value in the G and B image data,
The other "hue conversion" of the processing is to convert only one hue on the manuscript into another hue.
If red R, green G, blue B, cyan C, magenta M, yellow Y, black Bk, and white W that are the tertiary colors are the types of hues, for example, Y of these is G.
When converted to, the seven hues other than Y are unchanged, and only the Y component is converted to G while maintaining the gradation. Another chromatic-monochrome conversion process is to read the original as white light reflected light and output the density information with a monochrome toner, whether it is a color original or a black-and-white original. Means As reflected light data, lightness L of CIE color system
G image data, in which the contribution of *, chromaticity a *, b * to brightness L * and luminance is large, is often used.

Here, a defect of the conventional processing will be described with reference to FIG. Alphabet letter A on the manuscript,
B, C, and D are described in black, and the background is white. The processing area (contents) is specified from the operation unit, and the target area is specified. At the right end of FIG. 6A, an output sample when paint (including a processing target area and a color type) is designated is shown. Since the black character A exists in the target area (hatched portion) on the document, the output from the separation (202) can switch only the A character portion. In the character portion / pattern portion determination result, the character portion A is determined to be the character portion, and otherwise, the character portion / pattern portion is determined to be the pattern portion, so that only the character portion A is emphasized by the printer gamma. Alternatively, since it is determined that only the A character portion is a character portion and has an achromatic color, chromatic color removal is effective and a blank portion occurs in the character portion.

In the embodiment of the present invention, processing for preventing this is performed. The functions associated with the color correction 206 shown in FIG. 2 are shown in some detail in FIG. In the embodiment of the present invention, the operation unit 701.
When “Paint” is specified from, C in the operation unit 701
From the PU 702, RAM 703, and ROM 704 to the color processing 204, chromatic color removal 709, and printer gamma 208,
The set values (paint, processing target area, color type) are respectively written (set), but at that time (color processing 20
4, chromatic color removal 709, printer gamma 208) separation signal use ON / OFF bit for chromatic color removal is turned off, and printer gamma 208 separation signal use ON / OFF
Also turn off the bit. That is, the chromatic color removal of the achromatic character part by the separation signal is prohibited, and the printer gamma correction (edge emphasis) of the achromatic character part by the separation signal is prohibited. Since the black character A exists in the target area (hatched area),
The output from the separation 202 is switched only in the A character portion, and the character portion / pattern portion determination result is determined to be the character portion in the A character portion,
In other cases, it is determined that the pattern portion is used, but since the use of the separation signal for the character portion is prohibited, chromatic color removal is not performed, and there is no edge enhancement by the conventional printer gamma correction and white spots do not occur.

Similarly, when "background coloring" is specified,
When "Hue conversion" is specified or "Chromatic color monochromatic conversion" is specified, conventionally, it is determined that only the A character part is a character part and that it is an achromatic color. Since the removal is effective, (b) of FIG.
As shown in (c) or (d), the "chromatic coloring" causes the white background of the chromatic color, and the "hue conversion" changes Bk to G as shown in (c) of FIG. 6, for example. When converted, the character A becomes a chromatic color G and the character A itself disappears. In the "chromatic single color conversion", for example, when the entire surface C is converted as shown in FIG.
All of B, C, and D become chromatic color C, and the entire surface becomes blank.

In the embodiment of the present invention, the color correction 2 shown in FIG.
06 performs processing to prevent these. Referring back to FIG. When “background coloring” is specified from the operation unit 701,
CPU 702, RAM 703, ROM in the operation unit 701
From 704, the set values (background coloring, color type, and processing target area) are written (set) to the color processing 204 and the chromatic color removal 709, respectively.
04, chromatic color removal 709) ON / OFF bit for separation signal use for chromatic color removal is turned OFF. That is, the chromatic color removal of the achromatic character portion according to the separation signal is prohibited. As a result, the conventional blank area does not occur in the character A in the processing target area. In this example, it is always turned off when "background coloring" is selected, but it can be turned on when the same "background coloring" is an achromatic background.

Similarly, in the embodiment of the present invention, the operation unit 701 is used.
When "hue conversion" from chromatic color to achromatic color is specified,
CPU 702, RAM 703, ROM in the operation unit 701
From 704, the set values (hue conversion, pre-conversion color, post-conversion color, and processing target area) are written (set) to the color processing 204 and chromatic color removal 709, respectively. The separation signal use ON / OFF bit for chromatic color removal of color removal 709) is turned off. That is, the chromatic color removal of the achromatic character portion according to the separation signal is prohibited. As a result, the colored color remains in the character A portion of the processing target area and does not disappear as in the conventional case. In this example, it is always turned off when "hue conversion" is selected, but even if the same "hue conversion" is used, it can be turned on in the case of conversion from chromatic color to chromatic color, for example from R to B. Is.

Similarly, in the embodiment of the present invention, the operation unit 701 is used.
When "chromatic / monochromatic conversion" is designated from the operation unit 701
From the internal CPU 702, RAM 703, ROM 704,
The setting values (chromatic color monochromatic conversion, post-conversion color, and processing target area) are written (set) in the color processing 204 and the chromatic color removal 709, respectively.
4, use of separation signal for chromatic color removal 709) O
Turn off the N / OFF bit. That is, the chromatic color removal of the achromatic character portion by the separation signal is prohibited. As a result, the characters A, B, C, D will not disappear. In this example, it is always set to OFF when "chromatic / monochromatic conversion" is selected, but even if the same chromatic / monochromatic conversion is performed, if the document does not include an achromatic component or if there is no achromatic color in the area. It is also possible to turn it on.

When the "hue conversion" to achromatic / chromatic color is designated, only the character portion A in the designated area is judged to be a character portion and is achromatic color. Is converted to M and the achromatic color generation processing is selected, the character portion A is converted to G (green), but the G image data or R, G , The B image data has been converted to the minimum value, and has returned to an achromatic color.

In the embodiment of the present invention, when the "hue conversion" from the operation unit 701 to the achromatic / chromatic color is designated, the CPU 702, the RAM 703, and the ROM 704 in the operation unit 701 are designated.
Therefore, the set values (hue conversion, post-conversion color, and processing target area) are written (set) to the color processing 204 and the achromatic color generation 708, respectively.
And achromatic color generation 708) separation signal use of achromatic color generation ON
Turn the / OFF bit off. That is, the generation of achromatic color of the achromatic character portion by the separation signal is prohibited. That is, the “achromatic color character portion”, which is the output of the separation 202 and which is meant by the separation signal, is converted into a “chromatic color character portion”. As a result, the achromatic color generation processing of the character A portion is not performed, and the character A is not erased.

According to the above-described embodiment, the image data for determining the character portion and the pattern portion in the separation 202 is the color processing 20.
4 to R, G, and B image data that faithfully expresses the characteristics of the original image before the image processing by the printer γ correction 208, and therefore the possibility of causing a character portion / pattern portion determination error is low. Then, when processing processing such as “paint”, “background coloring”, “hue conversion”, and “chromatic color monochromatic conversion” is designated, switching of image processing characteristics according to the determination result of separation 202 is designated. Since the control is performed according to (the content of) the modified processing, that is, the determination result of the separation 202 is controlled by the specified processing, the combination of the image processing switching based on the determination of the separation 202 and the specified processing is performed. Image degradation that may occur is suppressed.

According to the above embodiment, the scanner γ correction 2
Separation 202 based on the output R, G, B image data of 03.
Performs character / pattern determination and chromatic / achromatic determination, and this determination data (separated signal) is synchronized with the movement of the R, G, B image data to the color processing 204 to gradation processing 209. If the use of the printer γ correction 208 and the gradation processing 209 is not prohibited based on the determination data (separation signal), the printer γ correction 208 performs edge emphasis on the character portion to give a pattern. The gradation processing 209 performs gradation processing on the part. For example, even if “paint (painting)” is specified and paint processing is performed by the color processing 204, the printer γ correction 208 performs edge enhancement on the character portion before paint processing, and the gradation processing 209 performs pre-paint processing. Gradation processing is applied to the picture part. That is, the printer γ correction 20
8 and gradation processing 209 are the characteristics of the image data after painting (character / picture, chromatic / achromatic).
No image deterioration occurs because it is a process based on the original image rather than the process based on (which is likely to cause image deterioration because the characteristic determination is inaccurate due to the alteration of the image due to the painting process). The same applies when "background coloring", "hue conversion", and "chromatic single color conversion" are designated.

In the area determined by the separation 202 to be a character portion and an achromatic color, chromatic color removal, which is one of image processing, is prohibited. Therefore, when the "paint" or "base coloring" is a chromatic color, White spots do not occur. That is, image deterioration due to blank areas in the character portion is suppressed.

In the case of "hue conversion" (changing hues in a region, for example, Y to G), if the pre-conversion data is achromatic and is converted to chromatic, conventionally, black character determination region data is used. Although white spots have occurred, in the above-described embodiment, when the conversion from the achromatic color to the chromatic color is present in the hue conversion area, the response of the "character portion, achromatic color" of the determination result of the separation 202 is "yes". Since the "color removal" is prohibited (synonymous with changing the determination result "character part, achromatic color" to "character part, chromatic color"), image deterioration due to white spots in the character part is suppressed.

In the case of chromatic / monochromatic conversion (brightness data in the area is output in a single color), the pre-conversion data is achromatic,
In the case of conversion to chromatic color, white spots have conventionally occurred in the black character portion, but in the above embodiment, in chromatic color single color conversion,
Since "chromatic color removal" in response to the "character part, achromatic color" of the judgment result of the separation 202 is prohibited (synonymous with changing the judgment result "character part, achromatic color" to "character part, chromatic color") , Image deterioration due to white spots in the character portion is suppressed.

[Brief description of drawings]

FIG. 1 is a block diagram showing a digital color copying machine in which an embodiment of the present invention is combined.

FIG. 2 is a block diagram showing a functional configuration of an embodiment of the present invention.

3 is a block diagram showing a functional configuration of a separation 202 shown in FIG.

FIG. 4 is a graph showing a density represented by color image data in an achromatic color generation (ink extraction) process in image processing.

5 is a block diagram showing an outline of functions of a color correction 206 shown in FIG.

FIG. 6 is a plan view showing an output image by a conventional combination of image data processing and chromatic color removal.

[Explanation of symbols]

101: Image reading (scanner) 102: Image processing 103: Image writing (printer) 104: Operation unit

─────────────────────────────────────────────────── ─── Continued Front Page (51) Int.Cl. ⁷ Identification Code FI H04N 1/387 B41J 3/00 M 1/407 H04N 1/40 101E 1/46 1/46 C (58) Fields investigated (Int .Cl. ⁷ , DB name) H04N 1/40 B41J 2/44 B41J 2/525 G03G 15/00 303 G06T 5/00 100 H04N 1/387 H04N 1/407 H04N 1/46

Claims (7)

(57) [Claims] 1. A scanner for reading an original to generate image data; first determining means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether the image data is chromatic or achromatic. Separation means including a second judgment means for judging; an operation section for designating a type of processing; a processing characteristic is switched in accordance with the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing image processing of a specified type including image processing on image data; and a fill processing for outputting image data in a specified area at a constant density value by the operation unit. If the image data is judged to be a character part and achromatic by the separating means , chromatic color removal by image processing for switching the processing characteristics is prohibited, and the separating means
For image data that has been determined to be a picture part or chromatic color
An image processing apparatus comprising: means for enabling chromatic color removal by image processing for switching the processing characteristics . 2. A scanner for reading an original and generating image data; first determining means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether the image data is chromatic or achromatic. Separation means including a second judgment means for judging; an operation section for designating a type of processing; a processing characteristic is switched in accordance with the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing image processing of a designated type including image processing on image data; and, when background coloring processing is designated by the operation portion, the separating portion determines that the character portion is achromatic. For image data, chromatic color removal by image processing that switches the processing characteristics is prohibited, and the image is separated by the separating means.
Wherein for the shank or colored judged as image data
An image processing apparatus comprising: means for enabling chromatic color removal by image processing for switching processing characteristics . 3. A scanner for reading an original and generating image data; first determining means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether the image data is chromatic or achromatic. Separation means including a second judgment means for judging; an operation section for designating a type of processing; a processing characteristic is switched in accordance with the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing image processing of a specified type including image processing on image data; and, when hue conversion processing is specified by the operation part, the separating means determines that the character part is achromatic. For image data, chromatic color removal by image processing for switching the processing characteristics is prohibited, and the pattern is separated by the separating means.
The processing for part or colored judged as image data
An image processing apparatus comprising: means for enabling chromatic color removal by image processing for switching physical properties . 4. A scanner for reading an original and generating image data; first determining means for determining whether the image data generated by the scanner is a character portion or a pattern portion, and whether the image data is chromatic or achromatic. Separation means including a second judgment means for judging; an operation section for designating a type of processing; a processing characteristic is switched in accordance with the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing a specified type of image processing including image processing on image data; and, when chromatic / monochromatic conversion processing is specified by the operation part, the separating means determines that the character part is achromatic. The chromatic color removal by the image processing for switching the processing characteristics is prohibited for the generated image data, and
For image data that has been determined to be a picture part or chromatic color
An image processing apparatus comprising: means for enabling chromatic color removal by image processing for switching the processing characteristics . 5. A scanner for reading an original and generating image data; first determining means for determining whether the image data generated by the scanner is a character portion or a picture portion, and whether the image data is chromatic or achromatic. Separation means including a second judgment means for judging; an operation section for designating a type of processing; a processing characteristic is switched in accordance with the judgment information of the character section or the pattern section of the separation means and the chromatic color or the achromatic color. Image processing means for performing image processing of a specified type including image processing on image data; and, when hue conversion processing is specified by the operation part, the separating means determines that the character part is achromatic. For the image data, the achromatic color generation by the image processing for switching the processing characteristics is prohibited, and the pattern is separated by the separating means.
The processing for part or colored judged as image data
An image processing apparatus comprising: means for enabling achromatic color generation by image processing for switching physical properties . 6. The image processing means includes scanner γ correction means; the separation means makes the determination based on image data generated by the scanner and corrected by the scanner γ correction means; An image processing apparatus according to any one of claims 1 to 5, wherein the image processing for switching the characteristics processes the image data that has undergone the determination. 7. The image processing apparatus according to any one of claims 1 to 6, wherein the image processing means converts the image data into image data for printer output; and the image data for printer output. An image forming apparatus including a printer that forms an image on a transfer sheet based on the above.