JPH0332162A - Selective color adjustment method - Google Patents

Abstract

PURPOSE:To allow a general user to adjust simply an optional color by designating a hue angle and a hue range as the adjustment range and adjusting the hue, saturation and lightness as to the color within the designated adjustment range. CONSTITUTION:A color tone adjustment section 4 consists of a hue adjustment destination 41, a saturation adjustment section 42 and a lightness adjustment section 43 and designates the color adjustment range with a hue angle h0 and a range h1 from the hue angle h0. As to the hue ¦H*-h0¦<h1 within the designated range, the hue, saturation and lightness are adjusted respectively according to adjustment coefficients K1-K3 and on the other hand, as to the hue ¦H*-h0¦>=h1 at the outside of the designated range, the adjustment quantity is selected to be 0. Thus, a general user easily adjusts an optional color and since a gray of an original is unchanged by color adjustment, it is easily adjusted.

Description

[Detailed description of the invention] (Industrial application field) The present invention is limited to a specific color range, including hue and brightness.

The present invention relates to a selective color adjustment method for adjusting saturation.

(Prior Art) Color scanners conventionally used for printing can selectively adjust specific colors of a document. However, for example, if the original is yellow (Y), magenta (M), cyan (C)
, blue (B), R (G), and red (R), requires adjustment for each color separation of Y, M, C, and K (black). The number of knobs is large (24), and YMCK adjustment is difficult for anyone other than a seasoned expert to master. Also, it is not possible to selectively adjust any color.

On the other hand, in a color television, color adjustment corresponding to hue, brightness, and saturation can be performed, which is relatively easy for general users to understand, but it is not possible to selectively adjust arbitrary colors. Also,
Adjustments corresponding to hue, brightness, and saturation are accurate to the human eye (because they cannot be adjusted independently,
For example, adjusting the hue changes the brightness or saturation, which has the disadvantage of being difficult to adjust.

(Problems to be Solved by the Invention) In view of the above points, an object of the present invention is to propose a selective color adjustment method that allows a general user to easily adjust any color. That is, an object of the present invention is to designate an arbitrary hue and hue range and easily adjust the hue, brightness, and saturation within the hue range.

Another object of the present invention is to prevent steps from occurring inside and outside a specified hue range.

A further object of the present invention is to provide a color adjustment method that does not change the gray of a document during color adjustment.

(Means for Solving Problem a) The present invention provides a method for performing color adjustment by obtaining signals corresponding to hue, saturation, and brightness from a color original, in which a hue angle and a hue range are specified as adjustment ranges, and the hue angle and hue range are specified as adjustment ranges. This is a selective color adjustment method that adjusts the hue, saturation, and brightness only for colors within a specified adjustment range.

Further, in one aspect of this selective color adjustment method, the color adjustment strength is strongest at a designated hue angle, and the color adjustment strength is weakened as the distance from the designated hue angle increases.

(for production) The color adjustment range is the hue angle as shown in Figure 2.

and the hue angle range hl from the hue angle ho. Hue within the specified range IH umbrella-hot
For <hl, the hue, saturation, and brightness are adjusted according to the adjustment coefficients +, ka, and ks that indicate the amount of adjustment of the hue, saturation, and brightness, respectively.

On the other hand, hues outside the specified range I H"-he l ii
, hl, the adjustment amount is set to O. According to the present invention, it is possible to specify any hue and hue range and independently adjust the hue, brightness, and saturation within that hue range, so even general users can easily adjust any color. be able to.

In addition, the gray of the original does not change due to color adjustment, so it is easy to adjust.

Also, within the range of I H"-ho l < h +, a function f(H By changing the color adjustment intensity according to -ha), there will be no difference in level between the inside and outside of the specified hue range, and accurate adjustment can be performed without causing any discomfort.

(Embodiment) FIG. 1 is a block diagram showing an example of a color image processing apparatus that implements the selective color adjustment method of the present invention.

This device has an input bag V11 for reading color originals, and a BG
R+L”a/b/conversion unit 2 and L”a”b◆ as L”H”
A polar coordinate conversion unit 3 converting into C, a color adjustment unit 4 and a controller 5 that perform selective color adjustment according to the present invention, and L”
It consists of an H"C/→YMC conversion unit conversion unit 6 and an output bag !!!7 that outputs a color image.

The color adjustment unit 4 adjusts the hue H and saturation C''l at equal intervals to the human eye.
From the lightness L signal, a hue H-1 saturation C1 and lightness L-' signal is obtained by selective color adjustment according to the present invention. Parameters such as each adjustment coefficient kllkm+ks, hue angle hal, color range h+, etc. for the selective color adjustment are specified by operating a knob or the like from the controller 5.

The color adjustment unit 4 includes a hue adjustment unit 41, a saturation adjustment unit 42, and a brightness adjustment unit 43, and also has a function f(H·−ha) that defines color adjustment intensity.

This function f(H・-bt,) is, as shown in FIG. It is a function that becomes smaller as it moves away from the adjustment range, and the color adjustment is not performed outside the adjustment range, for example, as shown in FIG. 3 or 4.

The selective color adjustment method will be explained below.

(1) Hue adjustment H"=Tan-'(b・/a・) ---(1)H"
= H"+ΔH skewer ・ ・ ・
(2) ΔH・=, hlf(H・−ho) However, H umbrella: Hue angle before hue adjustment He': Hue angle after hue adjustment ho: Hue angle of specified color hl: Specified color range , : Hue adjustment coefficient f(H umbrella - ho): A function that has a maximum value of 1 when H. Hue! ! ! Part 4! is input to.

On the other hand, in the controller 5, 1 km and ks are specified as the hue angle 0 color range h1 and the hue adjustment coefficient, and these specified values are set in the hue adjustment section 4! is input to.

The hue ga section 41 sets the hue angle ho input from the controller 5, the color range h1, and the hue adjustment coefficient to 1, the hue angle H from the polar coordinate conversion section 3, and the function f(H.-h
The adjustment amount ΔH· is calculated based on the equation (3) based on the equation (3). Then, by equation (2), the adjusted hue angle H
l is calculated.

(2) Saturation adjustment C"=(a"+b・)Izt...
...(4)c''=c...((ks-t)・f(H・-h
a)+1)・・・・・・(5> However, C・: Saturation g!1 Previous chroma C1゛: Saturation after saturation adjustment 8: Saturation!1 Integer coefficient f(H・− ha): A function whose maximum value is 11 when H.=ho is calculated by the equation (4) in the polar coordinate conversion section 3, and the value is input to the saturation s1 adjustment section 42.

The saturation adjustment unit 42 uses the hue angle ho, color@Rh+, and color IR integral coefficient km input from the controller 5,
The saturation C- from the polar coordinate conversion unit 3 and the function f(H・-ha
) Based on equation (5), the adjusted saturation C11'
is calculated.

(3) Brightness adjustment L”=L skewer+ΔL”...
・ (6) ΔL・= 1f (H・−ha) However, L skewer: Brightness before adjustment Ll: After adjustment rf 1 degree: Brightness adjustment coefficient f (H”−ho): When H”=he The function brightness 51 that has the maximum value 1, the adjustment unit 43 uses the hue angle ha input from the controller 5, the color s1 surroundings, and the brightness adjustment coefficient, and the hue angle H from the polar coordinate conversion unit 3. Function f(H・
-ha), the adjustment amount ΔL· is calculated by equation (7). Then, the adjusted lightness L·1 is calculated using equation (6).

Note that f(H"-ha), which defines the color adjustment intensity, is H◆
= h, the function has the maximum value l, for example, the function f(H"-, ha) = 1-IH"-hol/h+ as shown in Figure 3, or the function as shown in Figure 4. The function f (H"-ha) = (1-(l H@-11++l/
h t)”)”” etc.

In addition, in the above embodiment, L"a・b11 from the BGR signal
11 display system is shown, but L”u from the BGR signal
"V"! l! It can be similarly applied when converting to a display system or a YIQ display system.

As an input system, it is applicable not only to reflective originals (prints, photographs, etc.) and transparent n-original documents, but also to television signals.

Furthermore, as an output system, it can be applied not only to laser xerography thermal printers, inkjet printers, and electrostatic printers, but also to display on color display devices.

(Effects of the Invention) According to the selective color adjustment method of the present invention, a general user can easily adjust any color.

Further, during adjustment, there is no difference in level between the outside and outside of the specified hue range, and adjustment can be performed without any difference f[IIs.

In addition, the gray of the original does not change due to color adjustment, so it is easy to adjust.

[Brief explanation of drawings]

FIG. m1 is a block diagram showing an example of the configuration of an apparatus for carrying out the selective color adjustment method of the present invention. The second m is the hue angle of the specified color, # and the specified color lI
It is a figure showing i enclosure ht. FIGS. 3 and 4 are diagrams showing examples of intensity distributions of hue, saturation, and brightness adjustment, respectively. DESCRIPTION OF SYMBOLS 1... Input device, 2-B G R-L・a"c degree conversion unit, 3... Polar coordinate conversion unit, 4... Color adjustment unit, 5...
・Controller, 8-L "H" C/4YMC conversion unit, 7... Output 1L Diagram 2 Procedure phase ■ Original (self-proposed) August 25, 1989

Claims (2)

[Claims] (1) In a method of performing color adjustment by obtaining signals corresponding to hue, saturation, and brightness from a color original, the hue angle and hue range are specified as the adjustment range, and the hue and hue are adjusted only for colors within the specified adjustment range. A selective color adjustment method characterized by adjusting saturation and brightness. (2) In the selective color adjustment method according to claim (1),
A selective color adjustment method characterized in that the color adjustment intensity is strongest at a specified hue angle, and the color adjustment intensity becomes weaker as the distance from the specified hue angle increases.