JPH0296477A - Color regulating method - Google Patents
Color regulating methodInfo
- Publication number
- JPH0296477A JPH0296477A JP63248148A JP24814888A JPH0296477A JP H0296477 A JPH0296477 A JP H0296477A JP 63248148 A JP63248148 A JP 63248148A JP 24814888 A JP24814888 A JP 24814888A JP H0296477 A JPH0296477 A JP H0296477A
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- Prior art keywords
- color
- signals
- adjustment
- memory
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- 238000000034 method Methods 0.000 title claims description 18
- 230000001105 regulatory effect Effects 0.000 title abstract 3
- 230000000873 masking effect Effects 0.000 claims abstract description 20
- 230000005484 gravity Effects 0.000 claims abstract description 13
- 238000006243 chemical reaction Methods 0.000 claims description 14
- 238000000926 separation method Methods 0.000 claims description 7
- 230000001172 regenerating effect Effects 0.000 abstract 1
- 239000003086 colorant Substances 0.000 description 15
- 239000008186 active pharmaceutical agent Substances 0.000 description 8
- 230000007423 decrease Effects 0.000 description 7
- 230000006870 function Effects 0.000 description 5
- 238000010586 diagram Methods 0.000 description 4
- 230000003247 decreasing effect Effects 0.000 description 2
- 235000013399 edible fruits Nutrition 0.000 description 2
- 239000000654 additive Substances 0.000 description 1
- 230000000996 additive effect Effects 0.000 description 1
- 239000003795 chemical substances by application Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 239000000284 extract Substances 0.000 description 1
- 230000003340 mental effect Effects 0.000 description 1
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- Color Image Communication Systems (AREA)
- Color Electrophotography (AREA)
- Image Processing (AREA)
- Digital Computer Display Output (AREA)
- Facsimile Image Signal Circuits (AREA)
Abstract
Description
【発明の詳細な説明】
産業上の利用分野
本発明はカラースキャナの3色分解信号からハ−トコビ
ー装置によりカラー原稿を複製する際に、そのカラー信
号の色調整を実施する色調整方法に関するものである。DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a color adjustment method for performing color adjustment of color signals when a color original is reproduced using a Hartcoby device from three-color separation signals of a color scanner. It is.
従来の技術
従来、カラー原稿をハードコピーとして複製する装置で
は、色修正処理は画面全域に同一処理が施される。この
ため肌色など人間がイメージとして持っている色、即ち
記憶色だけを人間の好ましい色に再現することが困難で
あった。これを画面上での領域判定を行い、各部分(た
とえば人の顔、髪、果物)ごとに処理を変えることで解
決することも可能だが画像領域分割を行う必要があり、
これは人手で行うのも、自動的に行うことも非常に困難
である。そこで、領域判定を画面上でなく色空間内で行
う方式が提案されている。これは、2置に入力された色
が色空間内でどの領域に属するかを判定し、判定結果に
従って色再現処理内容を変化させる技術であり、たとえ
ば特開昭60−91770号公報記載の技術などがあり
、簡単に構成を説明すると、色修正内容を記憶したマス
キングIM)Mの出方側にUC’几(下色除去)ユニッ
トを介して記憶色補正ユニットを接続し、マスキングR
,OMの出力信号C(シアン)、M(マゼンダ)、Y(
イエロ−)の組合わせのうちのある範囲のみを色空間内
で記憶色に該当する色領域であると判定し、該当するR
OM内容を理想的な色再現をするだめのC,M、Yの組
合わせに置き替えるものである。2. Description of the Related Art Conventionally, in an apparatus that reproduces a color original as a hard copy, the same color correction processing is applied to the entire screen. For this reason, it has been difficult to reproduce only colors that humans have in mind, such as skin tones, that is, memory colors, into colors that humans prefer. It is possible to solve this problem by determining the area on the screen and changing the processing for each part (for example, a person's face, hair, fruit), but it is necessary to divide the image into areas.
This is very difficult to do manually or automatically. Therefore, a method has been proposed in which area determination is performed within the color space rather than on the screen. This is a technology that determines to which region in the color space the color input to the second position belongs, and changes the content of color reproduction processing according to the determination result. To briefly explain the configuration, a memory color correction unit is connected to the output side of the masking IM)M that stores the color correction contents via a UC'(undercolor removal) unit, and the masking R
, OM output signals C (cyan), M (magenta), Y (
It is determined that only a certain range of the combinations of (Yellow-) corresponds to the memory color in the color space, and the corresponding R
This replaces the OM contents with a combination of C, M, and Y that produces ideal color reproduction.
発明が解決しようとする課題 しかし、従来の技術には次のような課題があった。Problems that the invention aims to solve However, the conventional technology has the following problems.
(A)
肌色などの記憶色再現領域が色空間内で不連続的に設定
されているので、人力された色が領域の境界に位置する
ときには、出力色が不連続的となシ再現画像上に偽輪郭
が発生してしまう。(A) Since the memory color reproduction area such as skin color is set discontinuously within the color space, when the manually created color is located at the boundary of the area, the output color will be discontinuous. False contours occur.
また、記憶色再現をするだめの理想的なC、M。Also, C and M are ideal for reproducing memory colors.
Yの組合わせは、各色領域について1種類しか設定され
ておらず、この領域では理想的な1色が再現されるため
、原画の微妙な色あいの変化、階調性が壊されてしまう
。Only one type of Y combination is set for each color area, and since one ideal color is reproduced in this area, subtle changes in color tone and gradation of the original image are destroyed.
(B) 記憶色再現の対象領域は、入力された色の3
色分解信号でなく、マスキング処理以後のC2M、Yの
値により判定されるため、マスキング係数を変更した場
合には記憶色再現の対象領域も同時に変える必要があり
、両者を独立に構成することが困難である。(B) The target area for memory color reproduction is 3 of the input colors.
Since the determination is made based on the C2M and Y values after masking processing, rather than color separation signals, when changing the masking coefficient, it is necessary to change the target area for memory color reproduction at the same time, and it is not possible to configure both independently. Have difficulty.
以上の例では、肌色などの記憶色再現の対象領域が、自
動的に判定され自動的に理想的な色へと再現される方式
について説明したが、理想的な色というものは個人差が
太きい。肌色に関しては、日本人の場合本物の肌色より
もピンク色気味の色をイメージするが欧米人では、本物
の肌色よりも黄色い色をイメージし、好むと報告されて
いる。In the example above, we explained a method in which the target area for memory color reproduction, such as skin tone, is automatically determined and automatically reproduced as an ideal color. Hey. Regarding skin color, it has been reported that Japanese people imagine a pinkish color rather than a real skin color, while Westerners imagine and prefer a yellow color rather than a real skin color.
また、螢光体により常に安定な色が発光するテレビジョ
ンの場合と異なり、ハードコピーの色再現では再現色は
種々の環境条件によって微妙に変化し、理想的なC,M
、Yの組合わせが必ずしも理想的な色を再現するとは限
らない。Also, unlike the case of television, which uses phosphors to emit stable colors at all times, in hard copy color reproduction, the reproduced colors vary slightly depending on various environmental conditions, and the ideal C, M
, Y does not necessarily reproduce an ideal color.
以上の理由から記憶色再現の場面でもなんらかの色調整
機能の付加が有効であることがわかるが、従来の色調整
機能は色空間全域に作用するものがほとんどであった。For the above reasons, it can be seen that adding some kind of color adjustment function is effective even in the case of memory color reproduction, but most conventional color adjustment functions act on the entire color space.
これらは画面を明るく、あるいは暗く、あるいは赤っぽ
くするという調整であり、特定の領域の色のみを調整す
るというここでの目的にかなうものではない。テレビジ
ョンの色調整を例にとると、黄色っぽい肌色に赤みをつ
けようとして色相つまみを回すと、確かに肌色は改善さ
れるのだが、同時に画面全体の色調が一様に色相変化を
おこす。この時、等しい色相角の変化では高彩度の色は
ど色の絶対的変化量が大きいという性質から、例えば鮮
やかな黄色の果物などが極端に赤く着色するといった不
自然なことが生じていた。These adjustments make the screen brighter, darker, or reddish, and do not serve the purpose here of adjusting only the color of a specific area. Taking color adjustment on a television as an example, if you turn the hue knob to add a reddish tinge to a yellowish skin tone, the skin tone will certainly be improved, but at the same time the hue of the entire screen will change uniformly. At this time, due to the fact that the absolute amount of change in high-chroma colors is large when the hue angle is changed, unnatural things occur, such as bright yellow fruits becoming extremely red.
本発明は以上のような課題に鑑み、再現画像上の自然な
階調性を維持しながら、マスキングとは独立に決定され
た記憶色再現対象領域の色が自動的に判定され、その色
に近い色領域のみを利Ft1者が自由な色調に簡便に調
整でき、結果的に各利用者ごとに好ましい記憶色の色再
現を可能とするものである。In view of the above-mentioned problems, the present invention automatically determines the color of the memory color reproduction target area, which is determined independently of masking, while maintaining the natural gradation of the reproduced image. The user can easily adjust only the close color areas to any color tone, and as a result, it is possible to reproduce the memory color preferred by each user.
課題を解決するための手段
上記課題を達成するため、本発明の技術的解決手段は、
スキャナの3色分解信号に接続して、顕色系変換ユニッ
ト、記憶色調整ユニット、顕色系逆変換ユニットを新設
し、その後段に、既存のマスキングユニットを設置して
、ハードコピー装置へ信号を送る構成とするもので、顕
色系変換ユニットは、スキャナから得られる3色分解反
射率信号R(レッド)、G(グリーン)、B(プル−)
、あるいはそれを対数変換した3色濃度信号Dr(赤濃
度)、Dg (緑濃度)、Db (青濃度)を色相、明
度、彩度という色調整に便利な顕色系の3量に変換する
ためのテーブルから構成される。Means for Solving the Problems In order to achieve the above problems, the technical solution of the present invention is as follows:
A color development system conversion unit, a memory color adjustment unit, and a color development system inverse conversion unit are newly installed by connecting to the three-color separation signal of the scanner, and the existing masking unit is installed at the subsequent stage to send signals to the hard copy device. The color developing system conversion unit is configured to send three color separation reflectance signals R (red), G (green), and B (pull) obtained from the scanner.
, or logarithmically converted three color density signals Dr (red density), Dg (green density), and Db (blue density) into three color developer quantities convenient for color adjustment: hue, brightness, and saturation. Consists of tables for.
また、記憶色調整ユニットは、記憶色再現対象領域の指
定を行うための探度と色相用のテーブル、および乗算器
、加算器と人間が色調整用に用いる記憶色調整信号発生
器よりなる。The memory color adjustment unit includes a search power and hue table for specifying a memory color reproduction target area, a multiplier, an adder, and a memory color adjustment signal generator used by humans for color adjustment.
また、顕色系逆変換ユニットは、色相、明度、彩度の3
量からマスキングユニット−・人力する3信号(通常は
3色濃友信号)への変換を行うテーブルからなる。In addition, the color developer system inverse conversion unit has three functions: hue, brightness, and saturation.
It consists of a table that converts the amount into a masking unit and 3 human-powered signals (usually 3-color deep signals).
マスキングユニットは入力された3色濃度信号から八−
ドコピー装置の駆動信号C,M、゛Yあるいは、C,M
、Y、Kを発生するテーブルからなる0
作 用
本発明の要点は上記構成によシ、肌色領域など記憶色再
現対象領域付近のみを他の色へ移動させることにより、
色調整するもので、再現画像上の自然な階調性を維持し
ながら、マスキングとは独立に決定された記憶色再現対
象領域の色が自動的に判定され、その色に近い色領域の
みを利用者が自由な色調に簡便に調整でき、結果的に各
利用者ごとに好ましい記憶色の色再現を可能とするもの
である。The masking unit extracts eight signals from the input three color density signals.
Drive signals C, M, ゛Y or C, M of the copying device
, Y, and K. The key point of the present invention is that in addition to the above configuration, by moving only the vicinity of the memory color reproduction target area, such as the skin color area, to another color,
This is a color adjustment that automatically determines the color of the memory color reproduction target area, which is determined independently of masking, while maintaining the natural gradation of the reproduced image, and only selects the color area that is close to that color. The user can easily adjust the color tone freely, and as a result, it is possible to reproduce the memory color preferred by each user.
実施例
以下、本発明の色調整方法における概念について説明す
る。EXAMPLES Below, the concept of the color adjustment method of the present invention will be explained.
スキャナで3色分解されたカラー信号は、顕色系変換回
路で色相(H)、明度(L)、彩度(S)の3量に変換
される。ここで、変換に用いるモデルは、r(OBから
の変換が簡単なI(LS双6角錐モデルを想定したが特
に規定しない。例えば、Lは他にも、YIQ座標のY、
L本a*b*空間のL*などを使用することもでき、H
,Sは色度を表すIQ平面やa*b*平面上で極座標を
考え、色相を指定・する角度をH11量からの距離をS
とすればよい。A color signal separated into three colors by a scanner is converted into three quantities: hue (H), lightness (L), and saturation (S) by a color developer conversion circuit. Here, the model used for the conversion is r(I(LS), which is easy to convert from OB. Although we assumed the bihexagonal pyramid model, it is not particularly specified. For example, L can also be Y of YIQ coordinates,
You can also use L * of L book a * b * space, etc., and H
, S consider polar coordinates on the IQ plane or a*b* plane that represents chromaticity, and the distance from the H11 quantity to the angle for specifying the hue is S.
And it is sufficient.
本発明は肌色領域など記憶色再現対象領域付近のみを他
の色へ移動させることにより、色調整するものなので、
まず記憶色再現対象領域(以下、対象領域と呼ぶ)を指
定する必要がある。The present invention adjusts the color by moving only the vicinity of the memory color reproduction target area, such as the skin color area, to another color.
First, it is necessary to specify a memory color reproduction target area (hereinafter referred to as a target area).
この対象領域の指定方法について第2図を用いて説明す
る。対象領域は、色度で指定され、明度には無関係であ
るのでこの指定には■]とSのみを使えばよい。また色
調整の際、他の色との境界での不連続性をなくすため対
象領域の重心(トtt 、 s t )では色調整の移
動量を大きく、重心から離れるに従い、次第に移動量を
少なくする。この色調整量の大小をO〜1で表し、H,
Sの関数としてW(1−I、S) (0≦W≦
1)とする。さらにこの量をH軸とS軸に分解し、W(
H,S) =Wh(H) x Ws (S) ・(第
1式)%式%)
として、H,S別個の対象領域指定テーブルに、Wh
(H) 、 Ws (S) を記憶させておき、両者
の積を計算してW(H,S)を求める。尚、W(H,S
)が対象領域の重心(Ht、st) で1をとり、対
象領域外で0となり、その間で滑らかに減少するように
するため、第3図(a)、(b)に示すようにwh(H
) 、 Ws(S) はそれぞれHt 、 Stで1
をとシ、滑らかに減少する関数形をとる。This method of specifying the target area will be explained using FIG. 2. The target area is specified by chromaticity and is unrelated to brightness, so only ■] and S may be used for this specification. Also, when adjusting colors, in order to eliminate discontinuities at boundaries with other colors, the amount of movement for color adjustment is increased at the center of gravity (tt, st) of the target area, and the amount of movement is gradually decreased as you move away from the center of gravity. do. The size of this color adjustment amount is expressed as O~1, H,
As a function of S, W(1-I,S) (0≦W≦
1). Furthermore, this quantity is decomposed into the H axis and the S axis, and W(
H, S) = Wh(H) x Ws (S) ・(Formula 1)
(H) and Ws (S) are stored, and the product of both is calculated to obtain W(H,S). Furthermore, W(H,S
) takes 1 at the center of gravity of the target area (Ht, st), becomes 0 outside the target area, and decreases smoothly between them, so wh( H
) and Ws(S) are 1 for Ht and St, respectively.
, takes the form of a smoothly decreasing function.
次に、対象領域の重心の色をどのように色調整するかに
つき第4図を用いて説明する。色調整は顕色系の座標を
用いて行うため、色を色相(H)方向へ回転移動して、
色あいを変化させる色相調整、彩度(8)方向へ移動し
て、色を鮮やかに、あるいは色みを落とす彩度調整、明
度(L)方向へ移動し、色を明るく、あるいは暗くする
明度調整、およびこれらの組合わせ調整を行う。H,S
方向には、おのおのΔH2ΔSを増減し、L方向にはL
に比例定数KLを乗する方法で調整する。ここで色相や
彩度の変化は連続性を保てば加法的な増減を行っても再
現画像にそれほど不自然さは生じないが、明度に関して
は単純な増減は再現画像の明るさのグイナミソクレンジ
を減らすので不自然になりやすい。そこで暗い部分では
明度調整量を少なく明るい部分で多くするため比例定数
を乗する調整を採用し、さらに、対象領域外ではLが保
存され、対象領域の重心でKLxLの調整が行われるよ
うにしながら、その間で連続性を保つように比例定数を
W(H,S)を使って変化させる。Next, how to adjust the color of the center of gravity of the target area will be explained using FIG. 4. Since color adjustment is performed using the coordinates of the color development system, the color is rotated in the hue (H) direction,
Hue adjustment to change the color tone, saturation adjustment to make colors more vivid or less tint by moving towards saturation (8), and brightness adjustment to make colors brighter or darker by moving towards lightness (L). , and adjust these combinations. H,S
In the direction, increase or decrease ΔH2ΔS, and in the L direction, increase or decrease ΔH2ΔS.
Adjust by multiplying by the proportionality constant KL. As long as changes in hue and saturation are maintained, additive increases and decreases will not cause much unnaturalness in the reproduced image, but when it comes to brightness, simple increases and decreases will significantly affect the brightness of the reproduced image. It tends to look unnatural because it reduces the range. Therefore, we adopted an adjustment method that multiplies the brightness adjustment amount by a proportionality constant in order to reduce the amount of brightness adjustment in dark areas and increase it in bright areas.Furthermore, we conserved L outside the target area and adjusted KLxL at the center of gravity of the target area. , the proportionality constant is changed using W(H,S) so as to maintain continuity between them.
以上を式であられすと、
H=H十(DH) xW(H,S) ・・ (第2
式)S−8+(DS)XW(i(、S) 、、、、
、、(第3式)L = ((KL−1) xW(H,S
)+11xL(KL−1) xW(H,S) x L+
L・・(第4式)となる。ここで)−f 、 L 、
Sは調整前の色のP[LS空間での座標値、H,L、S
は調整後の座標値、DH、DS 、 KL は対象
領域の重心に対する調整の量として指定するパラメータ
であり、それぞれ色相の回転角(十〇〜360)、彩度
の変化量、および明度の変化比例定数を示している。よ
ってこの調整により記憶色再現領域の重心(Ht、St
)においてはW(H,5)−1なのでH,S[DH。If the above is expressed as a formula, H=H0(DH) xW(H,S)...(Second
Formula) S-8+(DS)XW(i(,S) ,,,
,, (3rd equation) L = ((KL-1) xW(H,S
)+11xL(KL-1) xW(H,S) x L+
L...(4th formula). where) −f, L,
S is the color P [coordinate values in LS space, H, L, S
is the coordinate value after adjustment, DH, DS, and KL are parameters specified as the amount of adjustment to the center of gravity of the target area, and are the rotation angle of hue (10 to 360), amount of change in saturation, and change in brightness, respectively. It shows the constant of proportionality. Therefore, with this adjustment, the center of gravity (Ht, St
) is W(H,5)-1, so H,S[DH.
DSだけの変化が生じ、LにはKL倍される変化が起き
る。この変化は、記憶色再現領域の重心から外れた位置
では、W(H,S)の減少に伴って少なくなり、記憶色
再現領域外では、W (H、S )oナノテl1=H、
L’−L 、 S’=8トナッC調整が全く行われなく
なることになる。A change of only DS occurs, and a change of L times KL occurs. This change decreases as W (H, S) decreases at positions away from the center of gravity of the memory color reproduction area, and outside the memory color reproduction area, W (H, S ) o nanote l1 = H,
L'-L, S'=8 Toner C adjustment will not be performed at all.
ここで肌色の調整を例にとって実際の色調整の行ない方
を説明する。肌色の領域のI(LS空間での重心はあら
かじめ計算されWh (H) 、 Ws (S )にセ
ットされているものとする。入力されたカラー原稿の肌
色が非常に暗くしかも黄色がかっていた場合には、DH
−−10(’) 、 KL= 1.5 、 DS=0
などを指定することで、肌色を光方向へ変化させ、同時
に明るくすることができ、しかも画像内のその他の色に
は影響を与えることはないという調整を行うことができ
る。Here, we will explain how to actually perform color adjustment using skin color adjustment as an example. The I (center of gravity in the LS space) of the skin color area is calculated in advance and set to Wh (H) and Ws (S). If the skin color of the input color original is very dark and yellowish. DH
--10('), KL=1.5, DS=0
By specifying things like this, you can make adjustments that change the skin color in the direction of the light and brighten it at the same time, without affecting other colors in the image.
以上の過程でまず、記憶色再現対象領域が)−H,S空
間内で好ましい方向へ調整でき、つぎにx−(、r、’
。In the above process, first, the memory color reproduction target area can be adjusted in a preferable direction in )-H,S space, and then x-(,r,'
.
Sが顕色系逆変換ユニットによりマスキングユニットへ
人力される3色分解濃度Dr 、 Dg 、 DI)
へと変換されマスキング操作によりハードコピー装置
を駆動するC 、 M 、 Y 、 K容量となり、こ
のようにして、■孔S空間での記憶色調整がノ1−Fコ
ピーの再現画像上に反映されることになる。Three color separation densities (Dr, Dg, DI) where S is manually inputted to the masking unit by the color developer inverse conversion unit
It becomes the C, M, Y, K capacity that drives the hard copy device by the masking operation, and in this way, the memory color adjustment in the hole S space is reflected on the reproduced image of the 1-F copy. That will happen.
本発明は、以上の方法により再現画像上の自然さを維持
しながら、肌色領域などを局所的に色調整できるもので
あり、その際に色は色相、彩度、明度のパラメータで扱
うことができる。まだ、記憶色調整ユニットは、マスキ
ングユニットの前に設置されるのでハードコピー装置の
特性が変わったためにマスキングユニットを変更する際
にも特に影響は受けず、全く独立に構成できる。The present invention enables local color adjustment of skin tone areas, etc., while maintaining the naturalness of the reproduced image using the above method. can. Still, since the memory color adjustment unit is installed before the masking unit, it is not particularly affected when changing the masking unit due to changes in the characteristics of the hard copy device, and can be configured completely independently.
以下、第1図を参照しながら本発明の色調整方法を実現
する具体的装置の実施例について説明する。カラースキ
ャナで3色分解された反射率または濃度信号lが顕色系
変換ユニット2においてIf。Hereinafter, an embodiment of a specific apparatus for realizing the color adjustment method of the present invention will be described with reference to FIG. The reflectance or density signal l separated into three colors by the color scanner is converted to If in the color developer conversion unit 2.
L、S信号3に変換され、H、S信号は各々対象領域指
定用[]テーブル4、対象領域指定用Sテーブル5へ入
力される。各テーブル4,5にはあらかじめ肌色など対
象領域の1−(L8空間での重心座標値(l(t 、
St )を基にして第3図で示したようなWh (H)
、 Ws (S) が記憶させであるものとする。The L and S signals are converted into L and S signals 3, and the H and S signals are input to a target area designation table 4 and a target area designation S table 5, respectively. Tables 4 and 5 are pre-filled with 1-(barycentric coordinates in L8 space (l(t,
Wh (H) as shown in Figure 3 based on St)
, Ws (S) are stored.
そねらWh (H) 、 Ws (S)の信号が乗算器
6で乗じられ第2式の計算が行われ、W(H,S)信号
7となる。記憶色調整信号発生器8は対象領域1(心で
のH、L 、 S各方向への色調整値、すなわち第2式
〜第4式のDH、DSの(正負を含めた)大きさを指定
するものであり、DH信号9、DS信号10、KL信号
11を発生する。W(H,S)信号7とDH信号9とH
信号は、乗算器12と加算器15により第2式の計算が
行われ1(信号となる。The signals Wh (H) and Ws (S) are multiplied by a multiplier 6 to calculate the second equation, resulting in a W(H,S) signal 7. The memory color adjustment signal generator 8 calculates the magnitude (including positive and negative) of DH and DS in the target area 1 (mental color adjustment values in H, L, and S directions, that is, the DH and DS of the second to fourth equations). It generates DH signal 9, DS signal 10, and KL signal 11.W(H,S) signal 7, DH signal 9, and H
The signal is calculated by the second equation by the multiplier 12 and the adder 15 and becomes 1 (signal).
W(H,S)信号7とDS信号】0とS信号は、乗算器
13 と加算器16により第3式の計算が行われS信号
となる。W(H,8)信号7とKL信号11 とL信号
は、乗算器14 と加算器17により第・1式の計算が
行われL信号となる。調整後の)(’L’S’信号18
は、顕色系逆変換ユニット19で調整後の3色分解濃度
信号20に変換され、マスキングユニット21 におい
てハードコピー装置駆動用C,M、Y信号、またはC,
M、Y、に信号に変換することができる。W(H,S) signal 7 and DS signal]0 and S signals are subjected to calculation according to the third equation by a multiplier 13 and an adder 16 to become an S signal. The W(H,8) signal 7, the KL signal 11, and the L signal are subjected to calculation according to equation 1 by the multiplier 14 and the adder 17, and become the L signal. After adjustment) ('L'S' signal 18
is converted into an adjusted three-color separation density signal 20 in the color developer system inverse conversion unit 19, and then converted into a C, M, Y signal for driving a hard copy device or a C, M, Y signal for driving a hard copy device in a masking unit 21.
M, Y, can be converted into signals.
発明の効果
以上のように本発明は、再現画像上の自然さを維持しな
がら、肌色領域など記憶色再現したい色の領域を局所的
に色調整できるものであり、その際に色は色相、彩度、
明度のパラメータで扱うことができる。また、記憶色調
整ユニットは、マスキングユニットの前に設置されるの
でハードコピー装置の特性が変わったためにマスキング
ユニットを変更する際にも特に影響は受けず、全く独立
に構成できる等の効果を有する。Effects of the Invention As described above, the present invention is capable of locally adjusting the color area of a color that is desired to be reproduced as a memory color, such as a skin tone area, while maintaining the naturalness of the reproduced image. saturation,
It can be handled with the brightness parameter. In addition, since the memory color adjustment unit is installed before the masking unit, it is not particularly affected when changing the masking unit due to changes in the characteristics of the hard copy device, and has the advantage that it can be configured completely independently. .
第1図は本発明の色調整方法を実現する記憶色調整装置
の一実施例におけるブロック結線図、第2図は顕色系)
II、8空間において本発明における記憶色再現領域の
指定方法を示す概念図、第3図は本発明の記憶色再現対
象領域の指定を行なうための色相と彩度用のテーブルの
内容を示す概念図、第4図は本発明の顕色系I(LS空
間での色調整方法を示す概念図である。
2・・・顕色系変換ユニット、4・・・H(色相)用記
憶色再現対象領域指定テーブル、5・・・S(彩度)用
記憶色再現対象領域指定テーブル、6・・・乗算器、8
・・・記憶色調整信号発生器、12〜14・・・乗算器
、15〜17・・加算器、19・・・顕色系逆変換ユニ
ット、21・・マスキングユニット。
代理人の氏名 弁理士 粟 野 重 孝 ほか1名1
図
4列欄19填駐旨疋チー刀し
第 2 図
中−一一記*色謂隻ユニット一一一一
第
図
第
「
(clL)Fig. 1 is a block diagram of an embodiment of a memory color adjustment device that implements the color adjustment method of the present invention, and Fig. 2 is a color developing system).
II.A conceptual diagram showing a method for specifying a memory color reproduction area in the present invention in 8 space. Fig. 3 is a conceptual diagram showing the contents of a table for hue and saturation for specifying a memory color reproduction target area in the present invention. 4 are conceptual diagrams showing a color adjustment method in the color developer system I (LS space) of the present invention. 2... Color developer system conversion unit, 4... Memory color reproduction for H (hue) Target area specification table, 5... Memory color reproduction target area specification table for S (saturation), 6... Multiplier, 8
. . . Memory color adjustment signal generator, 12 to 14 . . . Multiplier, 15 to 17 . . . Adder, 19 . Name of agent: Patent attorney Shigetaka Awano and 1 other person1
Figure 4 Column 19 Filling in Figure 2 - 11 *Colored ship unit 1111 Figure 2 (clL)
Claims (5)
系変換ユニット、記憶色調整ユニット、顕色系逆変換ユ
ニットを有し、その後段に、既存のマスキングユニット
を設置して、ハードコピー装置へ色信号を送るとともに
、色空間内で人間の記憶色に相当する領域だけを局所的
に色調整する色調整方法。(1) Connected to the three color separation signals of the color scanner, it has a color development system conversion unit, memory color adjustment unit, and color development system inverse conversion unit, and an existing masking unit is installed at the subsequent stage, and the hardware A color adjustment method that sends a color signal to a copying device and locally adjusts the color only in the area corresponding to the color that humans remember in color space.
れる3色分解反射率信号R(レッド)、G(グリーン)
、B(プル−)、あるいはそれを対数変換した3色濃度
信号Dr(赤濃度)、Dg(緑濃度)、 Db(青濃度
)を色相、明度、彩度の顕色系の3量に変換するテーブ
ルから構成されることを特徴とする請求項1記載の色調
整方法。(2) The color developing system conversion unit is a three-color separated reflectance signal R (red) and G (green) obtained from a color scanner.
, B (pull-), or the three color density signals Dr (red density), Dg (green density), and Db (blue density) obtained by logarithmically converting it, are converted into three quantities of color development system: hue, brightness, and saturation. 2. The color adjustment method according to claim 1, wherein the color adjustment method comprises a table.
定を行う彩度と色相用のテーブル、および乗算器、加算
器と人間が色調整用に用いる調整信号発生器よりなり、
記憶色として再現したい色領域の重心では調整量が大き
く、重心から離れるに従って連続的に調整量が小さくな
るとともに、この色領域の重心を顕色系の色相、明度、
彩度のパラメータを用いて調整することを特徴とする請
求項1記載の色調整装置。(3) The memory color adjustment unit consists of a saturation and hue table for specifying the memory color reproduction target area, a multiplier, an adder, and an adjustment signal generator used by humans for color adjustment.
The amount of adjustment is large at the center of gravity of the color area that you want to reproduce as a memory color, and the amount of adjustment becomes smaller continuously as you move away from the center of gravity.
2. The color adjustment device according to claim 1, wherein the adjustment is performed using a saturation parameter.
量からマスキングユニットへ入力する3色濃度信号への
変換を行うテーブルからなることを特徴とする請求項1
記載の色調整方法。(4) The color developer system inverse conversion unit has three components: hue, brightness, and saturation.
Claim 1 comprising a table for converting the amount into three color density signals input to the masking unit.
Color adjustment method described.
らハードコピー装置の、駆動信号C(シアン)、M(マ
ゼンタ)、Y(イエロ−)あるいは、C、M、Y、K(
ブラック)を発生するテーブルからなる請求項1記載の
色調整方法。(5) The masking unit generates drive signals C (cyan), M (magenta), Y (yellow) or C, M, Y, K (
2. The color adjustment method according to claim 1, further comprising a table for generating a color (black).
Priority Applications (1)
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JP63248148A JP2537997B2 (en) | 1988-09-30 | 1988-09-30 | Color adjustment device |
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Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP63248148A JP2537997B2 (en) | 1988-09-30 | 1988-09-30 | Color adjustment device |
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JPH0296477A true JPH0296477A (en) | 1990-04-09 |
JP2537997B2 JP2537997B2 (en) | 1996-09-25 |
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ID=17173933
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JPH06311353A (en) * | 1993-04-19 | 1994-11-04 | Brother Ind Ltd | Color image forming device |
US5987168A (en) * | 1997-03-25 | 1999-11-16 | International Business Machines Corporation | System, method, and program for converting three dimensional colorants to more than three dimensional colorants |
WO2003001791A1 (en) * | 2001-06-26 | 2003-01-03 | Seiko Epson Corporation | Image-processing device and method, program, and recording medium |
WO2005057908A1 (en) * | 2003-12-11 | 2005-06-23 | Fujitsu Limited | Image processing method, program, and device |
WO2006059573A1 (en) * | 2004-12-02 | 2006-06-08 | Matsushita Electric Industrial Co., Ltd. | Color adjusting device and method |
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US7580169B2 (en) | 2004-07-15 | 2009-08-25 | Canon Kabushiki Kaisha | Image processing apparatus and its method |
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US7595920B2 (en) | 2005-02-23 | 2009-09-29 | Brother Kogyo Kabushiki Kaisha | Processing apparatus and processing method of color image information |
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