JP3117989B2 - Color image processing equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial applications]

The present invention relates to a color image processing device for converting an input color image signal into a corresponding output color image signal.

[Prior art]

In a conventional color image copying apparatus, as shown in FIG.
R, G, B by the additive color method read by the image reading device 401
, The R, G, B signals are converted into complementary colors cyan (C), magenta (M), yellow (Y), and black (K) by the logarithmic conversion circuit 402. A masking circuit 403 is a matrix operation circuit that corrects unnecessary absorption of ink or toner printed and recorded by the image output device 405. A masking circuit 404 replaces an equivalent neutral component from a YMC color signal with a black (K) signal. Inking circuit and UCR circuit
R, G, B by the additive color method read by the image reading device 401
Was converted into a color image signal by a color reduction method by a logarithmic conversion circuit 402, a masking circuit 403, and an inking UCR circuit 404, and the image output device 405 was configured to print and record with toner or ink. . Generally, the color of an image represented on a printed matter, a photograph, or a CRT, which is a color image original, is wider in a color space coordinate system than a color reproduction area of the image output apparatus due to a mixture of toners and inks. In order to achieve optimal color reproduction for all colors of the input color image signal, compression in the color space is usually performed, and processing to give gradation to colors outside the color reproduction area is usually performed. Going. FIG. 3 is a diagram showing a conventional compression mapping in the above color space (on the a ^* -b ^* axis). In FIG. 3, a region surrounded by a solid line is a color space region of a color image original, and a dotted line inside the solid line. Indicates the color reproduction range of the image output device, and indicates that the input color image document exceeds the color reproduction range of the image output device. Conventionally, color reproduction outside the color reproduction area is projected onto the color reproduction area as indicated by an arrow. On the other hand, along with that, in order to sequentially provide the gradation of the image, the image is reproduced little by little from the original color as indicated by an arrow. That is, the compression mapping of the color space has been performed.

[Problems to be solved by the invention]

However, in the above conventional example, the color space distribution of the color image original exists in the color reproduction area of the image output device, and although the same color as the original color can be reproduced, the color becomes the reproduced color that is compression-mapped, and the original color and The disadvantage was that it was different. If the color image original is an output image from a copying apparatus or an image output apparatus (referred to as a grandchild copy or a generation copy), the reproduced color is further compressed. As described above, when the grandchild copy is repeated, the reproduced colors are compressed one after another, which is different from the original image original. The arrow of FIG. 3 shows the locus of the reproduced color. Furthermore, a document image in which the color space distribution of a color image document exists in the color reproduction area of the image output device, and which expresses gradations in a small spatial area, for example, contour lines with gradients of mountains and sea areas on a map, etc. There is a disadvantage that gradation is lost by compression reproduction.

[Means for Solving the Problems]

SUMMARY An advantage of some aspects of the invention is to solve the above-described problems, and the invention has the following configuration as a means for solving the above-described problems. That is, a table for determining whether the color image signal is within the color reproduction range of the output unit, input means for inputting a color image signal indicating an input image, and the input color image signal A determination unit that determines whether the color is within the color reproduction range of the output unit; and a conversion process selected from a plurality of conversion processes according to the color reproduction range of the output unit according to the determination result of the determination unit. Selecting means, and output means for outputting a color image signal processed by the selected conversion processing, for each of the color images representing the input image, the determination, the selection and the output Performing the selection, if the determination unit determines that the input color image signal is not within the color reproduction range of the output unit, the selection unit is out of the color reproduction range of the input image. As you can reproduce the gradation in the output image, and selects the conversion processing for converting the input color image signal within the color reproduction range of the output unit.

【Example】

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an embodiment in which the present invention is applied to a copying apparatus. As shown in FIG. 1, the copying apparatus includes an input device such as a sensor unit A for reading a color image and an illumination lamp 3, and an image input signal read by the input device as an image output signal. It comprises three components: an image processing unit for conversion, and an image forming unit 20 for receiving an image output signal converted by the image processing unit and performing permanent visible display corresponding to a plurality of colors of toner or ink. Although FIG. 1 shows only the input device for inputting the image signal, the image signal processed by the image processing unit is limited to a color image original or a printed material read by the input device. Instead, CG (computer graphic) images and images captured by electronic still cameras can be handled in the same manner. The image processing unit has the following components. That is, a sampling and holding circuit 6 samples and holds the output of the CCD sensor 5 for each pixel. 7 is A /
A D conversion circuit 8 is a shading circuit that corrects output unevenness due to sensitivity variation between pixels of the CCD sensor 5 and normalizes the output to a predetermined number of bits. Reference numeral 9 denotes a look-up table. The look-up table 9 has output signals Y, M, C, and K corresponding to input signals R, G, and B in advance, which are obtained by mixing colors of ink or toner in the image forming unit 20. A table 14 is stored which stores whether or not the combination of signals is within the reproduction range. 10 is a logarithmic conversion circuit similar to the logarithmic conversion circuit 402 shown in FIG. 2, 11 is also a masking circuit similar to the masking circuit 403 in FIG. 2, and 12 is a signal from the masking circuit 11 or a signal from the density conversion table 13. A switching circuit 13 for selecting any one of the signals and sending the selected signal to the image forming unit 13 is a density conversion table that converts R, G, and B signals into corresponding Y, M, C, and K signals. Reference numeral 15 denotes a selection circuit for instructing the switching circuit 12 to select which input is to be selected in accordance with the sign from the lookup table 9. Hereinafter, the operation of the present embodiment having the above configuration will be described. When a copy start button (not shown) is pressed, the original 1 on the original platen glass 2 is illuminated by the illumination system 3. At the same time, the sensor unit A (consisting of the lens system 4 such as a self-occurring lens and the sensor 5) moves in the direction of the arrow v, performs pre-scanning, and samples image information on the original. Red (R), green (G), blue (B) on the CCD sensor 5
Are applied in a dot-sequential manner, and sequentially output R, G, B color separation signals of the original image. The output of the CCD sensor 5 is an analog signal, which is input to a sampling and holding circuit 6, sampled and held for each pixel, and converted into a corresponding digital signal by an A / D conversion circuit 7. The digitally converted image data is input to a shading circuit 8 together with pre-stored white data (not shown) to correct output unevenness due to sensitivity variations between pixels of the CCD sensor 5 and to normalize to a predetermined number of bits. . When the combination of the input image signals R, G, and B is within the color reproduction range of the image forming unit 20, the output of the lookup table 9 is set to the sign (+) according to the table 14 of the lookup table 9. Conversely, when the combination of the input image signals R, G, and B is out of the color reproduction range of the image forming unit 20, the output of the lookup table 9 is output as a sign (-). When the output of the lookup table 9 is a sign (+), the selection circuit 15 selects the density conversion table 13 and outputs R,
The G and B signals are sent to the density conversion table 13 and are converted into Y, M, C and K signals corresponding to R, G and B by the density conversion table 13. The signal from the density conversion table 13 is transmitted to the image forming unit.
The switching circuit 12 is controlled so as to be sent to. Then, a known image forming process is performed by the image forming unit 20, and a color image corresponding to the input color image signal is permanently and visiblely displayed. For this reason, in this case, the substantially read original and the output image have the same color reproduction. For example, when a color image document is an output image of the present copying apparatus (hereinafter referred to as “generation copy” or “grandchild copy”), all image data exist in the color reproduction area and The output of the up table 9 is a sign (+). On the other hand, when the output of the lookup table 9 is a sign (-), the selection circuit 15 selects the logarithmic conversion circuit 10 and the masking circuit 11, and sends the R, G, B signals to the logarithmic conversion circuit 10, A known color conversion process is performed, and a process of outputting an image having a gradation with respect to color coordinates outside the color reproduction area is performed. The switching circuit 12 is instructed to select a signal from the masking circuit 11, and controls the switching circuit 12 to send a signal from the masking circuit 11 to the image forming unit 14. Then, a known image forming process is performed by the image forming unit 20, and a color image corresponding to the input color image signal is permanently and visiblely displayed. Thereby, even if the input document has color coordinates outside the color reproduction area of the image forming unit 20, it is possible to output an image with gradation.

[Other embodiments]

In the above description, an example in which which color conversion process is selected based on the code output from the lookup table 9 has been described. However, the present invention is not limited to the above example. Is not a sign (-), instead of immediately selecting the logarithmic conversion circuit 10 and the masking circuit 11, the selection circuit 15 counts the pixels of the sign (-), and the pixels of the sign (-) in all the originals When the probability is 5% or more, a color processing method is selected by selecting the logarithmic conversion circuit 10 and the masking circuit 11 as in the prior art.
%, Conversion by the look-up table 9 for directly obtaining a density signal and the density conversion table 13 (direct density conversion)
Can be controlled. Note that the threshold value in this case is not limited to 5%, and it is a matter of course that the threshold value can be set to an arbitrary threshold value with better color reproducibility than the processing result. As described above, according to the above-described embodiment, for the input color separation signals R, G, and B, before the density conversion processing, the input signal is based on the color mixture of ink or toner in the image forming unit 20. A look-up table 9 is provided to indicate whether the color reproduction range is obtained or not, and the subsequent processing is switched according to the result of the determination, thereby masking an image containing only color-reproducible signals as in the related art. In order to express the gradation by compressing it, the gradation conversion is performed directly on the image that can reproduce the color by changing the density conversion method by eliminating the adverse effects of changing the gradation or crushing the gradation. This makes it possible to prevent gradation collapse.

【The invention's effect】

As described above, according to the present invention, for each of the color images representing the input image, a conversion process is performed from among a plurality of conversion processes corresponding to the color reproduction range of the output unit according to the determination result of the determination unit. Since selection is made, conversion processing suitable for the relationship between each of the input color image signals and the color reproduction range of the output unit can be performed, and good color reproduction can be realized. Further, it is possible to perform color reproduction while maintaining the gradation property for a color image signal that extends outside the color reproduction range of the output unit. Further, it is possible to obtain an image with no deviation in reproduced colors even for repeated grandchild copies.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a block diagram showing a configuration of a conventional color reproduction processing section, and FIG. 3 is a compression map of a color space by a conventional color reproduction process. FIG. In the figure, 1 ... original platen glass, 2 ... original, 3 ... halogen lamp for illumination of original, 4 ... rod lens array, 5 ...
... CCD line sensor, 6 ... Sampling and holding circuit, 7 ... A / D conversion circuit, 8 ... Shading circuit,
9 Look-up table, 10,402 Logarithmic conversion circuit, 11,403 Masking circuit, 12 Switching circuit, 13
... density conversion table, 14 ... table, 15 ... selection circuit, 20 ... image forming unit, 401 ... image input device, 404 ...
Inking UCR circuit 405 is an image output device.

Continued on the front page (72) Inventor Akihiro Usami 3-30-2 Shimomaruko, Ota-ku, Tokyo Inside Canon Inc. (72) Inventor Eiji Ota 3-30-2 Shimomaruko, Ota-ku, Tokyo Inside Canon Inc. (72) Inventor Seita Masano, 3-30-2 Shimomaruko, Ota-ku, Tokyo Inside Canon Inc. (56) References JP-A-63-254889 (JP, A) JP-A-60-105376 (JP, A) JP-A-61-288662 (JP, A) JP-A-4-119765 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04N 1/40-1/409 H04N 1 / 46-1/64

Claims (1)

(57) [Claims] 1. A table for determining whether a color image signal is within a color reproduction range of an output unit, input means for inputting a color image signal indicating an input image, and the input color using the table. Determining means for determining whether or not the image signal is within the color reproduction range of the output unit; and converting from a plurality of conversion processes corresponding to the color reproduction range of the output unit according to the determination result of the determination means. Selecting means for selecting processing, and outputting means for outputting a color image signal processed by the selected conversion processing, for each of the color images representing the input image, the determination, the selection and Performing the output, and in the selection, the selection unit determines a color in the input image when the input color image signal is determined not to be within the color reproduction range of the output unit. As it can be reproduced in the output image gradation outside the current range, the color image processing apparatus characterized by selecting a conversion process of converting the input color image signal within the color reproduction range of the output unit.