JP2534678B2 - Color image processing device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color image processing apparatus for subjecting input color image data to undercolor removal processing.

[Prior Art] When a color image is formed by performing undercolor removal, a conventionally known apparatus of this type has a fixed undercolor removal parameter regardless of the content of the image / type. The amount of undercolor removal was uniquely determined depending only on the density.

[Problems to be Solved by the Invention] Therefore, in an image in which a large amount of black process ink is used, the black ink oozes out to an unnecessary portion in the color image, and the ink consumption increases. There was a drawback.

Therefore, in view of the above points, it is an object of the present invention to provide a color image processing apparatus that performs undercolor removal according to the characteristics of a target image and enables good color reproduction.

[Means for Solving Problems] In order to achieve the above object, a color image processing apparatus according to the present invention is based on the input means for inputting color image data forming a target image and the color image data based on the color image data. Determination means for determining characteristics of the target image; setting means for setting undercolor removal parameters in the target image based on the determined characteristics; and And an undercolor removal processing unit for performing color removal processing.

[Example] Prior to the description of the example, the principle of UCR will be described first.

Now, assuming that the densities of cyan, magenta, and yellow are D _C , D _M , and D _Y , respectively, the black density D _BK is given by the following equation.

_{D BK = min (D C,} D M, D Y) Here, the symbol this D _BK is determined to select a min ... minimum value, D _C, D _M, from the concentration of D _Y D _BK
Is removed. This is the principle of UCR, but in reality, the above-mentioned D _BK is rarely removed as it is (that is, 100%), and several tens of% of D _BK is added in order to produce "bodiedness" in the reproduced image.
It is usually fastened to.

In contrast to such a normal UCR, in an embodiment of the present invention, when printing a dark image such as a black background, the UC
The R amount is increased to reduce the yellow, magenta, and cyan ink amounts. If the image is bright and the amount of black is small, the UCR amount is controlled to be reduced.

FIG. 1 shows an electrical block diagram of a color image forming apparatus to which the present invention is applied. In the figure, reference numeral 2 denotes a gradation conversion circuit, which outputs R (red) G (green) B (blue) signals to Y _0.
Convert to (yellow) M ₀ (magenta) C ₀ (cyan) signal. Reference numeral 4 denotes a masking circuit which performs a predetermined masking process and sends out Y ₁ , M ₁ , and C ₁ signals. A block detector 6 detects the lowest density component of the Y ₁ M ₁ C ₁ signal and outputs it as a BK (black) signal.

Reference numeral 8 is a circuit for introducing the RGB signal to detect the lowest level (Y _min signal) of the luminance signal component. Reference numeral 10 is an undercolor removal circuit, which calculates the UC based on the BK signal and Y _min signal described above.
Do R The details will be described later. 12 is a head driver.

 Next, the operation of this embodiment will be described.

In the Y _min detection unit 8, the luminance signal Y is synthesized from the RGB signal according to the following equation, and the minimum value Y _min of the luminance signals Y
Is determined.

Y = 0.3 × R + 0.59 × G + 0.11 × B In the present embodiment, whether the image is bright or dark is determined based on the magnitude of the value of Y _min .

In addition, the gradation conversion circuit 2 having a logarithmic characteristic allows RGB
The signal is converted into a C ₀ M ₀ Y ₀ signal and further masking circuit 4
The masking process is performed by. Also, the BK detection unit determines and outputs the minimum value BK of the Y ₁ M ₁ C ₁ signal.

In the undercolor removal circuit 10, the Y _min sent from the Y _min detector 8
Based on the _min signal, the UCR amount is determined by the table conversion (stored in the ROM (not shown)) shown in FIG.
Perform UCR processing according to the following formula.

The color signals Y ₂ , M ₂ , C ₂ , and BK thus obtained are introduced into the head driver 12 to print for each plate.

In the above-described embodiment, the brightness of the image is determined using the minimum value of the luminance signal level, but the luminance signal level is divided into a plurality of levels, the frequency of each level is obtained, that is, a histogram is taken, and the cumulative value of the histogram is The brightness of the image may be determined according to the level reaching a predetermined number.

Further, in the above-mentioned embodiment, the UCR amount for Y _min is determined by the table conversion, but it may be configured to be calculated.

[Effects of the Invention] As described above, according to the present invention, the undercolor removal parameter for the entire target image is set based on the characteristics of the entire target image, so that the undercolor removal processing according to the characteristics of the target image can be performed. Therefore, good color reproduction can be performed.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a diagram showing a table for controlling the degree of undercolor removal. 2 ... Grayscale conversion circuit, 4 ... Masking circuit, 6 ... Black (BK) detector, 8 ... Minimum level (Y _min ) detector of luminance signal component, 10 ... Undercolor removal (UCR) circuit , 12 ……
Head driver.

Claims (1)

(57) [Claims] 1. Input means for inputting color image data forming a target image; determining means for determining a characteristic of the target image based on the color image data; and a lower portion of the target image based on the determined characteristic. A color image processing apparatus, comprising: setting means for setting a color removal parameter; and undercolor removal processing means for performing undercolor removal processing on the color image data using the undercolor removal parameter.