DE1422724B - Color correction system for photographic color copiers - Google Patents

Description

log E ₁ = ö, +

(D ₂ + D ₃ )

- 1 - b - log E ₂ = a ₂ + b ₂ D ₂ + --γ + (D ₁ + D ₃ )

log JS ₃ = fl ₃ + ^ ₃ D ₃ + I ^ (D ₁ + D ₂ )

The invention relates to a method for producing color copies from transparent or opaque Color negatives or positives with object-related color deviations, with through over or Color deviations caused by underexposure or with normal color distribution, in which everyone Basic color amount of light thrown on the copy material continuously from the integral of the density or the reflectivity of the negative or the positive in the relevant base color is determined.

It is already known in automatic color copiers the amounts of light that are applied to the respective color-sensitive layers of the copying material act through an electronic-electromechanical To determine control device. This control device includes, inter alia, a photoelectric Cell that integrates the blue, green and red permeabilities of the negative to be copied, as well as one Device that, based on these integrals, the exposure times and / or the intensities of the Light source (s) regulates. Accordingly, the integrated densities of the negative constitute the only information about the negative on which the exposure process is based.

It is also known that the control device that controls the amount of light for the respective layers, to be designed in such a way that for negatives of "normal" objects, i. H. of objects in which the three Main colors are present in equal amounts (so-called "average gray" objects) that are above the exposure time and the area of the copy material integrated red, green and blue exposures independent of the negative, a well-defined gray density of the finished copier material result. In this way, deviations in the negative will be corrected for by abnormal ones Conditions caused, for example, overexposure and underexposure, are unsuitable Lighting quality, incorrect storage and fluctuations in the development process.

However, the correction method described above fails completely when used for Copying correctly exposed negatives of anomalous objects is used, for example objects that show a preponderance of one or more of the primary colors compared to the other (object-related color deviation). A classic example of such an anomalous object is, for example the negative of a person dressed in red standing in front of a red background.

It is also known that a large number of usable copies of such correctly exposed negatives can be obtained of anomalous objects if an incomplete color correction is carried out, the so-called "under-correction". This can be done according to the well-known copying equation

log £, - = log /, ί, = k, + c, D,

~ <

achieve in which means

/, - = intensity of the light source in area 1 of the Spectrum,

r, = the corresponding exposure time,

kj = a constant depending on the sensitometric properties of the copy material, D ₁ - = the effective density value, which corresponds to the integrated density of the negative for color i,

Ci = the correction coefficient,

the blue, green or red color,

by taking the coefficient c _; given a value less than 1.

It goes without saying, of course, that negatives that are overexposed or underexposed are not of normal objects

• can be copied correctly in this way, so that the values of c, may only be a little less than 1 if the number of unusable copies of underexposed or overexposed negatives is to be kept within reasonable limits. The values of C ₁ - can therefore not be chosen as low as would actually be necessary in order to reduce the number of unusable copies of negatives with color deviations.

Using this method leads to a relatively large number of unusable copies of negatives of abnormal objects.

U.S. Patent 2,518,948 relates to the measurement of the intensity of the three primary colors of light, which forms the colored object. This is followed by an improved measurement of the true intensities of the three primary colors achieved, which is unimportant in other known devices. The improved measurement is that each measured color intensity corresponds to at least one other measured color intensity improved, d. H. a more accurate measurement is obtained.

The object of the invention is to enable the copying of correctly exposed negatives of anomalous objects and when copying overexposed or underexposed negatives from normal objects, the number of keep unusable copies within reasonable limits, d. H. solve the task as measured Intensities have to be taken into account in order to

desired exposure of the color print material.

It has now been found that negatives of abnormal objects and negatives that of normal Object were received, but due to incorrect exposure, incorrect storage, etc. deviations show and from negatives obtained from normal objects and no deviations show, can produce a larger number of usable copies by using the blue, green or red Partial exposure of the copy material not only from the total integrated density of the corresponding The color layer of the negative can be determined, but also at least from the total integrated density one of the other two color layers on the negative.

Therefore, the stated object is achieved according to the invention by a method for producing color copies from transparent or opaque color negatives or positives with object-related color deviations, with color deviations caused by over- or under-exposure or with normal color distribution, which is characterized by the fact that each primary color The amount of light (E ₁ ) thrown onto the copy material is also determined by the integral of the density (D ₁ ) or the corresponding values of the other primary colors derived from the reflectivity in the following way:

log E ₁ = G ₁ + ^ ₁ D ₁ + ^ A φ _{2 +} ö _{3) (11)}

log E ₂ = U ₁ + b ₂ D ₂ +

log E ₃ = a ₃ + ^ ₃ D ₃ +

(D ₁ + D ₃ ) (2.2)

(D ₁ + D ₂ ) (2.3)

35

These equations can be derived from a general formula of the copying equation with the following equations derive:

1OgE ₁ = Z ₁ (D ₁₉ D ^ D ₃ ) log E ₂ = Z ₂ (D ₁ , D ₂ , D ₃ )

log £ 3 = / 3 (E ₁₁ E ₂₁ E ₃ )

(3.1) (3.2) (3.3)

45

In these equations, the functions J ₁ , f _2, and f _{3 can be} any continuous functions of the effective density values. The most suitable size of the constants depends on the type of color materials used, both the negative and the copy material, as well as the statistical composition of the negatives to be copied with regard to their object content, for example in the event that one wishes to work with a certain setting of the copier.

For technical reasons it is desirable to choose the functions of the general copying equation / (D ₁ , D ₂ , D ₃ ) linear, so that the equations (3.1), (3.2) and (3.3) can be formulated as follows:

log E ₁ = O ₁ + ^ ₁ D ₁ + C ₁ -D ₂ + d _l D ₃ (4.1)
log E ₂ = a ₂ + b ₂ D _x + C ₂ -D ₂ + Cl ₁ D ₃ (4.2)
log E ₃ = a ₃ + O ₃ D ₁ + C ₃ -U ₂ -I- d ₃ D ₃ (4.3)

65 In these formulas, a _v - a ₂ and a _{3 represent} constants which are the same as the constant k _{of the formula (1); ^ ₁ -C ₂ and d ₃ correction coefficients that correspond to the constants c _; of formula (1) are the same, and C ₁ - Ci ₁ - b ₂ - d ₂ - b ₃ and c ₃ transverse correction coefficients.

The advantage of the method according to the invention is that a more precise correction of the exposure time of the negative can be achieved in addition to an undercorrection of the corresponding partial exposure can.

As can be seen from the above equations (2.1) to (2.3), in the case of a normal, i.e. H. average gray object, for that

D ₁ -H ₂ - D ₃

is, a full exposure correction regardless of the respective values of the constants Jj ₁ ; consequently these constants can be chosen considerably less than 1, for example b _l - 0.6. For anomalous objects, For example

D ^> D ₂ ~ D ₃

significant undercorrection is caused.

The density values of the blue, green or red absorbing layers can be determined either from the beginning of the first partial exposure, for example on a separate device (so-called »precoding System «), or automatically during exposure; in the latter case one only needs to take care that the time door the determination of the three density values is shorter than. the time required for the shortest partial exposure.

In the above, a transparent color negative was used, and when copying, the Light quantities of the partial exposures due to the integrated densities of the respective color layers of this Controlled negatively. It is understood, however, that transparent color positives as well as opaque ones Color negatives or positives can be used. In the latter case, it takes its place the density is a value derived from the reflectivity.

The application of the method according to the invention is shown below with reference to the drawing of a copier for example explained and illustrated.

In the color copier of this example, the three density values are measured during exposure.

The drawing is a schematic representation of an automatic copier used for making color copies more transparent color negatives.

A color negative 2 becomes white by means of the beam emanating from the light source 1 Projected light onto the copy material. Part of the light beam is generated by means of the beam splitter 3 a red-sensitive, a green-sensitive and a blue-sensitive photoelectric cell 5 deflected.

Between the negative 2 and the copy material 4 are the different color filters (in the drawing not shown) (primary color filter if the additive copying method is used, and Complementary color filter if the subtractive copying process is used) to the respective part ensure exposures. A logarithmic amplifier 6 follows each photoelectric cell The respective density values are obtained at the output of these amplifiers. An analog computer 7 supplies ai

its output the values log E ₁ . calculated according to formulas 4.1, 4.2 and 4.3. These values are converted by the anti-logarithmic amplifier 8 into the values £, which determine the respective partial exposures of the copying process.

The anti-logarithmic amplifier 8 is followed by suitable control loops that control the respective color filters between negative 2 and copy material 4 push or remove and / or the light sources and turn off.

The copy photographic material 4 fed in rolls shifts after completion of the exposure process automatically, so that the device is ready for the next copying process. When the entire roll of copy material has been exposed, this copy material is continuously in a of the commonly used equipment developed, dried and cut.

For the sake of simplicity, the foregoing description related solely to copying Color negatives. It is clear, however, that the system according to the invention also works with success on color slides can be applied, as well as to opaque color positives or color negatives that pass through Reflection are to be copied.

It will also be understood that any color copying and color correction system in which any of the individual partial exposures to a certain extent on the values of the integrated density or the Reflectivity of the object to be copied depends on the three primary colors, according to the door system according to the invention can be carried out.

1 sheet of drawings

Claims (1)

Claim: Process for the production of color copies from transparent or opaque color negatives or positives with object-related color deviations, with color deviations caused by over- or underexposure or with normal color distribution, in which the amount of light thrown from each base color on the copy material continuously depends on the integral of the density or the The reflectivity of the negative or the positive in the relevant base color is determined, characterized in that the amount of light (£, ·) thrown from each base color on the copy material is also derived from the integral of the densities (D ₁ -) or the corresponding from the reflectivity Values of the other primary colors are determined in the following way: