JP4075348B2 - Image processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image processing apparatus, and in particular, to an image output apparatus that outputs an image using a plurality of color materials, the color of each pixel is indicated by a density value of each color component corresponding to each of the plurality of color materials. The present invention relates to an image processing apparatus that performs image processing on image data and outputs the processed image data.
[0002]
[Prior art]
Conventionally, a copying machine, a FAX, and a printer that form a color image using a plurality of color materials such as Y (yellow), M (magenta), C (cyan), and K (black), and a plurality of these functions are provided. Image output devices such as multifunction peripherals have become widespread. In order to use such an image output device, the image data is represented by tristimulus values such as L ^* a ^* b ^* , for example, using a three-dimensional lookup table (DLUT). It is necessary to perform color conversion from the color to the YMCK color system corresponding to the color material of the printer, and the printer expresses the color by overlapping each color material according to the image data after conversion to the YMCK color system.
[0003]
For example, in order to create dark black, the density values of the respective color components of YMCK are maximized, and the color materials of the respective colors are overlapped with the maximum color material. In this case, assuming that the maximum color material of one color is 100%, the total amount of the four color materials of YMCK is 100% × 4 colors = 400%. If toner is used as the color material, the toner cannot be fixed. When the ink is used, the recording paper is wrinkled due to moisture contained in the ink, and it takes time to dry the ink.
[0004]
For this reason, Japanese Patent Laid-Open No. 2000-25274 discloses a color for limiting the total amount of color material after color conversion from the L ^* a ^* b ^* color system to the YMCK color system using DLUT, or in the DLUT. A technique for performing a total material amount limiting process has been proposed.
[0005]
By the way, in the image output apparatus, since the gradation reproducibility of each color varies with time or environmental changes, the original color (density) indicated by the image data and the color actually reproduced on the recording paper are generally used. (Concentration) is different. For this reason, it is necessary to perform correction (so-called gradation correction) on the image data in accordance with the output characteristics of the actual image output apparatus.
[0006]
[Problems to be solved by the invention]
However, in the technique described in Japanese Patent Application Laid-Open No. 2000-25274, since the tone correction processing is performed on the image output device side after the total color material amount limiting process, the total color material amount cannot be reliably limited. In other words, even if the total color material amount is limited by the total color material amount restriction process, the actual color material total amount exceeds the total amount regulation value due to the gradation correction processing, and the effect of the color material restriction process cannot be obtained. There has been a problem that the image is defective because a sufficient density cannot be obtained because the pressure is lower than the value.
[0007]
SUMMARY An advantage of some aspects of the invention is that it provides an image processing apparatus that can reliably limit the total amount of color materials.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 is directed to an image output device that outputs an image using a plurality of color materials, and sets the color of each pixel to each color component corresponding to each of the plurality of color materials. An image processing device that performs image processing on the image data indicated by the density value and outputs the image data, and the density value of each color component so that a predetermined output density is obtained according to the output characteristics of each color of the image output device A total amount of color materials of the plurality of color materials used in the image output device is within a predetermined range based on the tone correction unit for correcting the color density and the density value of each color component corrected by the tone correction unit And the gradation correction so that the total color material amount falls within the predetermined range when the total color material amount is determined to be outside the predetermined range by the determination unit. Change the density value of each color component before correction by means Is characterized by having a change unit that, the.
[0009]
According to the first aspect of the present invention, each color after the correction by the gradation correction means (so-called gradation correction) is performed by the determination means so that a predetermined output density is obtained according to the output characteristics of each color of the image output apparatus. Based on the density value of the component, it is determined whether or not the total color material amount of the plurality of color materials used in the image output apparatus is within a predetermined range. If the total color material amount is outside the predetermined range, the change is made. The density value of each color component before correction by the gradation correction unit is changed by the means so that the total color material amount is within the predetermined range, and the total color material amount is adjusted to be within the predetermined range. . That is, the color material total amount is judged based on the density value of each color component after gradation correction, not the density value of each color component before gradation correction, and the color value is adjusted by adjusting the density value of each color component before gradation correction. Since the total amount of the material is regulated, the total amount of the color material can be surely limited within a predetermined range.
[0010]
In addition, as described in claim 2, the color material uses yellow, magenta, cyan, and black color materials, and the changing unit includes yellow, magenta, and black before correction by the gradation correction unit. The density value of each cyan color component may be reduced by the same predetermined amount , and the density value of the black color component before correction by the gradation correcting means may be increased by the predetermined amount .
[0011]
According to a fourth aspect of the present invention, the image data represented by the density values of the respective color components is output, and the image data represented by the first color system corresponds to the density values of the respective color components. It is preferable to further include conversion means for converting into image data expressed in the second color system.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Next, an example of an embodiment according to the present invention will be described in detail with reference to the drawings. Hereinafter, a case where the present invention is applied to a copying machine will be described as an example.
[0016]
As shown in FIG. 1, the copying machine 10 includes an image input unit (IIT) 12 that reads an image from a document and acquires image data, and various types of image data acquired by the image input unit 12. An image processing unit 14 that performs image processing and a printer unit 16 that records and outputs an image on an image recording medium such as recording paper using YMCK color material based on the image data.
[0017]
The image input unit 12 includes a CCD sensor 18 that optically reads a document with a plurality of CCDs (Charge-Coupled Devices), an A / D converter 20 that converts image data read by the CCD sensor into a digital signal, and a digital And a correction unit 22 that performs shading correction on the converted image data. In general, the CCD sensor 18 reads a document for each of R (red), G (green), and B (blue) color components, so that the color of each pixel is represented by RGB color from the image input unit 12 to the image processing unit 14. Image data expressed in a system, that is, a signal indicating the density value of each of the RGB color components is output.
[0018]
The image processing unit 14 includes a color conversion circuit 24 that performs color conversion on the image data input from the image input unit 12, an image processing circuit 26 that performs various image processing on the color-converted image data, and a printer unit 16. A color conversion circuit 28 is provided as conversion means for converting image data after image processing into a YMCK color system for output to the printer unit 16 for output.
[0019]
In the color conversion circuit 24, the device color-dependent RGB color system image data is converted into a device-independent color system by using data indicating the device characteristics of the CCD sensor 18 set in advance. In the form, as an example, color conversion is performed to an L ^* a ^* b ^* color system. Therefore, the color conversion circuit 24 outputs image data representing the color of each pixel in the L ^* a ^* b ^* color system, that is, a signal indicating each stimulus value of L ^* a ^* b ^* .
[0020]
The image processing circuit 26 performs sharpening processing such as enlargement / reduction processing according to a print instruction, MTF (Modulation Transfer Function / Factor) correction on the image data converted into the L ^* a ^* b ^* color system, In addition, various image processing such as background removal processing for removing background components corresponding to the type of original (semi-half paper, recycled paper, colored paper, etc.) is performed and output to the subsequent color conversion circuit 28.
[0021]
As shown in FIG. 2, the color conversion circuit 28 includes a DLUT circuit 30 and a total amount regulation circuit 32 as a changing unit, and the L ^* a ^* b after image processing input from the image processing circuit 26. ^{* The} color system image data is input to the DLUT circuit 30.
[0022]
The DLUT circuit 30 converts each color represented by a combination of stimulation values of L ^* a ^* b ^* as a conversion table indicating correspondence between L ^* a ^* b ^* color system image data and YMCK color system image data. A three-dimensional lookup table (DLUT) indicating a combination of density values of each color component of YMCK for expressing a color substantially equivalent to the color is stored in the internal memory in advance. DLUT circuit 30 uses the 3-dimensional look-up table, the image data of the L ^* a ^* b ^* color system after the image processing is input from the image processing circuit 26 from the L ^* a ^* b ^* color system Color conversion to the YMCK color system is performed, and image data in which the color of each pixel is expressed in the YMCK color system, that is, a signal indicating the density value of each color component of YMCK is output.
[0023]
That is, the DLUT circuit 30 receives three signals indicating the respective stimulus values of L ^* a ^* b ^* (three inputs) and outputs four signals indicating the density values of the respective color components of YMCK (four outputs). It is like that.
[0024]
In the present embodiment, the printer unit 16 using four colorants of YMCK has been described as an example, so that the DLUT circuit 30 can obtain four outputs corresponding to each color material used in the printer unit 16. However, the present invention is not limited to this. Of course, when the printer unit uses N color materials, N outputs are obtained from the DLUT circuit 30 correspondingly.
[0025]
The total amount regulating circuit 32 receives the image data color-converted to the YMCK color system by the DLUT circuit 30 and outputs the density value of each color component of YMCK to the printer unit 16 as it is for each pixel, or the printer unit 16 In response to an instruction from the printer, a function is provided in which at least one of the YMC density value and the K density value is adjusted by increasing or decreasing a predetermined amount and output to the printer unit 16.
[0026]
Specifically, in the present embodiment, as an example, the total amount regulation circuit 32 uniformly reduces the YMC density value and adds the corresponding amount to the K density value, so that color (hue, saturation, brightness) is obtained. The output itself is substantially the same, but the total sum of the density values of the respective color components is reduced. This is explained as Y, M, C, K as input density values of YMCK color components in the total amount regulating circuit 32, and Y ′, M ′, C ′, K ′ as output density values. An internal memory for holding density values Y ′, M ′, C ′, K ′ is provided. When the total amount regulation is instructed, output density values Y ′, M ′, C ′, K ′ is read, and the output density value Y′M′C ′ is uniformly reduced by a predetermined value a (a> 0). The predetermined value a is added to the output density value K ′ to obtain a new Y This can be realized by outputting ', M', C ', K' to the printer unit 16 and updating the memory contents.
[0027]
In addition to the above, the adjustment of the density value in the total amount regulating circuit 32 may be performed by, for example, uniformly reducing the YMC density values and leaving the K density value as it is, or conversely, the YMC density value as it is. The density value of K can be reduced, or the density values of all colors of YMC and K can be reduced uniformly.
[0028]
As shown in FIG. 2, the printer unit 16 includes a gradation correction LUT circuit 34 as gradation correction means for performing gradation correction on the image data input from the image processing unit 14, and the total amount of color materials used is An image based on the image data after gradation correction is formed on an image output medium such as recording paper by using the total amount regulation condition circuit 36 as a judging means for judging whether it is within a predetermined range and the color materials of each color of YMCK. And an image output unit (IOT: Image Output Terminal) 38 serving as an image output device that outputs the image data. The image data output from the total amount regulating circuit 32 is input to the gradation correction LUT circuit 34. It is like that.
[0029]
In the gradation correction LUT circuit 34, for each density value of each color component of YMCK, a lookup table indicating density values for actually reproducing a predetermined density corresponding to the density value in the printer unit is stored in advance in an internal memory (illustrated). (Omitted). Note that the look-up table is set in advance based on the output characteristics of the printer unit 16 obtained by, for example, outputting a test print of a predetermined pattern from the printer unit 16.
[0030]
The tone correction LUT circuit 34 uses the lookup table to set the density values Y ′, M ′, C ′, and K ′ of the YMCK color components for each pixel of the image data output from the total amount regulating circuit 32. Each density value is corrected (tone correction) so that the corresponding predetermined density is actually reproduced. Hereinafter, the density values after the gradation correction of the gradation correction LUT circuit 34 are indicated as Y ″, M ″, C ″, K ″.
[0031]
The total amount regulation condition circuit 36 adds the sum of density values of YMCK color components (Y ″ + M ″ + C ″ + K ″) and a predetermined predetermined printer unit total amount regulation value (for each pixel of image data after gradation correction ( X), and if the sum is equal to or less than the printer unit total amount regulation value, signals indicating the density values Y ″, M ″, C ″, and K ″ after the gradation correction are sent to the subsequent image output unit 38. Output as image data. When the total exceeds the printer unit total amount regulation value, a signal for instructing total amount regulation is output to the above-described total amount regulation circuit 32.
[0032]
The image output unit 38 has a function of printing image data using color materials such as YMCK toner and ink, that is, recording and outputting an image based on the image data on a recording sheet as an image recording medium. That's fine. In this embodiment, as an example, the image output unit 38 includes a photoconductor for each color of YMCK, uses toner as a color material, and converts the image data from the total amount regulation condition circuit 36 into the density for each color component of YMCK. Each of the color components is divided into image data indicating values, and electrostatic latent images are recorded on the respective photoconductors based on the image data of the corresponding colors, and the electrostatic latent images are developed using the corresponding color toners. A toner image for each color component is formed, and the formed toner image for each color component is transferred to a recording paper as an image recording medium, directly or via an intermediate transfer member, and output.
[0033]
In the above description, the case where the color conversion circuit 28 is provided outside the printer unit 16 and the gradation correction LUT circuit 34 and the total amount regulation condition circuit 36 are provided inside the printer unit 16 has been described as an example. It is important that the color conversion circuit 28, the gradation correction LUT circuit 34, and the total amount regulation condition circuit 36 are provided in front of the image output unit 38 in order, and may be provided inside the printer unit 16 or outside.
[0034]
Next, the operation of this embodiment will be described.
[0035]
When a copy job is input, such as when a start button provided on a user interface (not shown) is pressed, the copying machine 10 reads a document for each RGB color component by the CCD sensor 18 in the image input unit 12. Image data is acquired, the acquired image data is converted into digital data by the A / D converter 20, shading correction is performed by the correction unit 22, and then output to the image processing unit 14. As a result, the image processing unit 14 receives image data representing the color of each pixel in the RGB color system, that is, a signal indicating the density value of each RGB color component.
[0036]
The image data input to the image processing unit 14 is first color-converted from the RGB color system to the L ^* a ^* b ^* color system by the color conversion circuit 24, and the color of each pixel is changed to L ^* a ^* b ^*. After being converted into image data expressed in the color system and subjected to various types of image processing by the image processing circuit 26, the color conversion circuit 28 supports the color material of the printer unit 16 from the L ^* a ^* b ^* color system. Converted to the YMCK color system.
[0037]
The image data converted into the YMCK color system is subjected to gradation correction by the gradation correction LUT circuit 34, and the color conversion circuit 28 so that the total amount of YMCK color material at the time of printing falls within the predetermined total amount regulation value. The density value of each color component before gradation correction is feedback-adjusted by the total quantity regulation circuit 32 and the total quantity regulation condition circuit 36 of the printer unit 16, and the image data subjected to feedback adjustment and tone correction is output to the image output unit 38. And printed.
[0038]
Next, the operations of the color conversion circuit 28 and the printer unit 16 will be described in detail.
[0039]
Note that the color conversion circuit 28 receives each pixel after image processing from the image processing circuit 26 as image data expressed in the L ^* a ^* b ^* color system in synchronization with a predetermined clock signal. Three signals indicating respective stimulus values of L ^* a ^* b ^* are sequentially input. The three signals may be input in parallel or serially.
[0040]
First, the operation of the color conversion circuit 28 will be described with reference to FIG. Note that the operation of the color conversion circuit 28 shown in FIG. 3 is performed for each pixel.
[0041]
As shown in FIG. 3, in the color conversion circuit 28, when three signals indicating each stimulus value of L ^* a ^* b ^* indicating the color of each pixel are input, the process proceeds from step 100 to step 102. , The DLUT circuit 30 converts the color of the pixel from the L ^* a ^* b ^* color system to the YMCK color system, and the density value (Y, M, C) of each color component of YMCK representing the color of the pixel. , K) are output to the total amount regulating circuit 32.
[0042]
In the next step 104, the total amount regulating circuit 32 outputs the input density values (Y, M, C, K) of the YMCK color components indicated by the four input signals as they are as output density values (Y ′ = Y, M ′ = M, C ′ = C, K ′ = K), and in the next step 106, four signals indicating output density values (Y ′, M ′, C ′, K ′) are sent to the printer unit 16. In addition to outputting, the output density value is stored in the internal memory of the total amount regulating circuit 32.
[0043]
Thereafter, whether a total amount restriction instruction from the printer unit 16 is received by the total amount restriction circuit 32 (step 108), or a preset predetermined time elapses until a signal indicating the color of the next pixel is input (step) 114), and when the total amount regulation instruction is received within a predetermined time, the process proceeds from step 108 to step 110.
[0044]
In step 110, the previous output density value stored in the internal memory is read, and for each color of YMC, a predetermined value (a) is uniformly subtracted from the read previous output density value (Y ′ = Y−). a, M ′ = M′−a, C ′ = C′−a), and for K color, a predetermined value (a) is added to the previous output density value read out (K ′ = K ′ + a), and YMCK In the next step 112, four signals indicating the new output density value are output to the printer unit, and the storage in the internal memory is updated to the new output density value. That is, without changing the color represented by the output density value of each previous YMCK color component, the density value of each color component is adjusted so as to reduce the sum of the density values of each color component, and a new output density value is obtained by the printer unit. Is output.
[0045]
Thereafter, if it is within the predetermined time, a negative determination is made in the next step 114, the process returns to step 108, and the same processing as described above is repeated. When the predetermined time has elapsed, an affirmative determination is made in step 114, and the processing for the pixel ends.
[0046]
Next, the operation of the printer unit 16 will be described with reference to FIG.
[0047]
As shown in FIG. 4, the printer unit 16 outputs the density values of the YMCK color components indicating the color of each pixel output from the color conversion circuit 28, that is, the output density values (Y ′, M ′, C) of the total amount regulating circuit 32. When a signal indicating ', K') is input, the process proceeds from step 120 to step 122. In step 122, the tone correction LUT circuit 34 corrects the density value of each color component (tone correction), and a signal indicating the density value (Y ″, M ″, C ″, K ″) after the tone correction is provided in the subsequent stage. To the total amount regulation condition circuit 36.
[0048]
In the next step 124, the total amount restriction condition circuit 36 obtains the sum of density values (Y ″ + M ″ + C ″ + K ″) of the respective color components subjected to gradation correction by the gradation correction LUT circuit 34, and the total amount restriction value (X ).
[0049]
When the sum of the densities of the respective color components is equal to or greater than the total amount regulation value (Y ″ + M ″ + C ″ + K ″ ≧ X), the process proceeds from step 124 to step 126 and proceeds to the color conversion circuit 28, more specifically to the total amount regulation circuit 32. The total amount regulation instruction is output. By this total amount restriction instruction, as described above, in the total amount restriction circuit 32, the density value of each color of YMC is decreased by a predetermined value a, the density value of K is increased by a predetermined value a, and the YMCK color component for the pixel is New output density values (Y ′, M ′, C ′, K ′) are output.
[0050]
Then, in the next step 128, the printer unit 16 waits for a signal indicating a new output density value of each color component for the pixel from the total amount regulating circuit 32, and a signal indicating a new output density value is input. Then, the process returns to step 122 and the same processing as described above is repeated.
[0051]
That is, the density value of each color component of YMC before gradation correction is reduced by a predetermined value a by the repeated total quantity regulation circuit 32 until the total sum of density of each color component after gradation correction becomes less than the total quantity regulation value. The density value of the K color component is increased by a predetermined value a, and the density value of each color component is adjusted (feedback adjustment).
[0052]
In the present embodiment, the case where the predetermined value a is a fixed value has been described as an example, but the present invention is not limited to this. For example, in order to increase the speed, the predetermined value a is changed according to the difference between the sum of the density of each color component after the gradation correction and the total amount regulation value, and the total amount regulation circuit 32 performs adjustment within a predetermined number of times. It is also possible to suppress the sum of the density of each color component after the tone correction to less than the total amount regulation value.
[0053]
When the sum of the densities of the respective color components becomes less than the total amount regulation value (Y ″ + M ″ + C ″ + K ″ <X), the process proceeds from step 124 to step 130, and the density values (Y ″, M ″, A signal indicating C ″, K ″) is output to the image output unit 38.
[0054]
In the image processing unit 14, the density values (Y ″, M ″, C ″, K ″) of YMCK color components for each pixel output from the total amount regulation condition circuit 36 are sequentially stored in a buffer (not shown) as image data. If there is a next pixel, the process returns from the next step 132 to step 120 and repeats the same process as described above. When one page of image data is stored, the process proceeds from step 132 to step 134 to perform the print process. Is called. Note that the unit for performing the printing process does not have to be one page, and printing may be performed when a predetermined number of lines of image data are stored as a line unit. You may make it print after storing the image data for a page.
[0055]
As described above, in this embodiment, the total amount regulating circuit 32 is provided before the gradation correction LUT circuit 34 and the total amount regulating condition circuit 36 is provided after the gradation correction LUT circuit 34, and the gradation correction by the gradation correction LUT circuit 34 is performed by the total amount regulating condition circuit 36. Based on the density value of each subsequent color component, it is determined whether the total color material amount falls within the predetermined total amount regulation value, and the total color material amount based on the density value of each color component after gradation correction is greater than or equal to the total amount regulation value. In this case, until the total color material amount falls within the predetermined total amount regulation value, the total amount regulation circuit 32 uniformly increases or decreases the density values of the YMC and K color components before gradation correction by the predetermined value a. The color material total amount is regulated within a predetermined total amount regulation value by adjusting the density value of each color component without changing the color itself.
[0056]
In other words, the total color material amount is determined based on the density value of each color component after tone correction, not the density value of each color component before tone correction, and if the total color material amount exceeds the total amount regulation value, each color before tone correction Since the total color material amount is regulated by adjusting the density value, it is possible to prevent the actual total color material amount from exceeding the total amount regulation value or being kept lower than the total amount regulation value as before. Thus, the total amount of the color material can be reliably limited within a predetermined total amount regulation value.
[0057]
When the density value of each color component is adjusted by the total amount regulation circuit 32 so that the total amount of color material based on the density value of each color component after gradation correction falls within the total amount regulation value, the convergence value becomes the gradation correction LUT. This is determined by the gradation correction amount in the circuit 32. Therefore, as indicated by a broken line in FIG. 2, the DLUT used for color conversion of the DLUT circuit 30 is converted into the density of each color component after the gradation correction in accordance with the LUT used for the gradation correction of the gradation correction LUT circuit 32. If the color material total amount based on the value is updated so that the density value of each color component is output within the total amount regulation value, the total amount regulation circuit 32 and the total amount regulation condition circuit 36 can be omitted. .
[0058]
By updating the DLUT in this way, when the DLUT circuit 30 converts the image data from the L ^* a ^* b ^* color system to the YMCK color system, it is simultaneously based on the density value of each color component after gradation correction. Since the density value of each color component of YMCK is adjusted and converted so that the total color material amount is within the total amount regulation value, it is necessary to feedback-adjust the density value of each color component every time by the total amount regulation circuit 32 and the total quantity regulation condition circuit 36. There is no problem and the speed can be increased.
[0059]
The present invention can be applied to any apparatus that outputs an image using a plurality of color materials in addition to a copying machine. For example, the present invention may be applied to a FAX, a printer used by being connected to a PC, a copier, a FAX, and a multifunction machine having at least two functions of a printer.
[0060]
【The invention's effect】
As described above, the present invention has an excellent effect that the total amount of the color material can be surely limited.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a copying machine according to an embodiment of the present invention.
FIG. 2 is a detailed configuration diagram of a color conversion circuit and a printer unit.
FIG. 3 is a flowchart showing the operation of the color conversion circuit.
FIG. 4 is a flowchart illustrating an operation of a printer unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Copy machine 12 Image input part 14 Image processing part 16 Printer part 24 Color conversion circuit 26 Image processing circuit 28 Color conversion circuit 30 DLUT circuit 32 Total amount regulation circuit 34 Tone correction LUT circuit 36 Total quantity regulation condition circuit 38 Image output part

Claims (2)

An image processing apparatus that outputs and outputs image data indicating the color of each pixel by the density value of each color component corresponding to each of the plurality of color materials, to an image output apparatus that outputs an image using the plurality of color materials Because
Gradation correction means for correcting the density value of each color component so as to obtain a predetermined output density according to the output characteristics of each color of the image output device;
Judging means for judging whether or not the total amount of color materials of the plurality of color materials used in the image output device is within a predetermined range based on the density value of each color component after correction by the gradation correction means; ,
When the total color material amount is determined to be outside the predetermined range by the determination unit, the density of each color component before correction by the gradation correction unit so that the total color material amount falls within the predetermined range. A change means for changing the value;
An image processing apparatus comprising: The color materials are yellow, magenta, cyan, and black color materials,
The changing means reduces the density values of the yellow, magenta, and cyan color components before correction by the gradation correction means by the same predetermined amount, and reduces the density values of the black color components before correction by the gradation correction means. Increase the predetermined amount,
The image processing apparatus according to claim 1.

Images