JPH0634516B2 - Chromaki device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chroma key device for processing a digital color video signal to perform a composition of fitting a subject of a foreground image to a background image.

"Background Art and its Problems" In a digital chroma key device, a key signal is generated according to a distance between a reference color in a color coordinate system, for example, blue and each sample of foreground color video data. This key signal is
It contains background ground noise and has various gains depending on the subject of the foreground image, so it is shaped by clip processing and then used as a key signal for synthesis.

In the conventional digital chroma key device, predetermined values are used as the base clip level and the peak clip level. As shown in FIG. 1, when the original key signal 1 is clipped by the base clip level BC and the peak clip level PC1 having a sufficiently high value, a key signal as shown by 2A is obtained. The key signal 2A has the same rising edge as the original key signal 1. But,
Even in the case of an insufficiently illuminated object, the peak clip level must be set to a low value as shown by PC2 in FIG. 1 in order to obtain a sufficient realism in the composite image. In this case, the key signal after clipping is 2B.
The rising edge is too early for the original key signal.

As described above, if the rising edge of the key signal is too early, a blue fringe (blue edge) may occur along the contour of the subject, or a black edge may occur along the contour. Blue fringe can be solved to some extent by adjusting the edge timing of the key signal and performing an achromatization process of subtracting back color data that changes according to the adjusted key signal from the foreground color video data. However, in the case where the subject is an achromatic or transparent object, there is a problem that the contour portion is colored in blue and a complementary color when the achromat is too much inside the subject.

Further, in the case of a composite image in which a vertical red stripe is embedded in a white background image, each component signal and key signal of the edge portion changing from the background to the stripe cause a change as shown in FIG. In FIG. 2, 3Y, 3
U and 3V represent changes in the Y (luminance signal) signal, U (BY component) signal, and V (RY component) signal, respectively, and 3K represents the change in the key signal. As described above, since the key signal 3K rises too early as compared with the original key signal, a partial decrease in the level of the Y signal (referred to as a bump of the Y signal) occurs as indicated by a broken line circle 4. To do. The generation of the bumps of the Y signal is also due to the synthesis using the cross fade method. Then, the hump of the Y signal becomes a black border of the outline of the subject.

"Object of the Invention" The present invention prevents the coloring due to excessive achromatization and the bordering of the contour due to the bumps of the Y signal by changing the clip level to an appropriate level in accordance with the generated key signal, and it is natural. An object of the present invention is to provide a chroma key device capable of forming a synthetic image having a feeling.

SUMMARY OF THE INVENTION The present invention detects the average value of a key signal generated from a foreground color video signal, clips the key signal with a clip level that is varied by the average value, and then clips the clip signal. The key signal is used to combine the foreground color video signal and the background color video signal.

[Embodiment] An embodiment of the present invention will be described with reference to the drawings.
In FIG. 3 showing the overall construction of this embodiment, 1
Reference numerals 1, 12, and 13 are input terminals to which the components V _FG , U _FG , and Y _FG of the foreground color video data are supplied.
Each of the luminance signal and the color difference signal is a digital signal in which one sample is converted into, for example, 8 bits. The foreground color video data is a sampling frequency having a ratio of (14: 7: 7) for Y signals, U signals, and V signals formed by matrix calculation of outputs (R, G, B) of the color television camera. Sampled at, and A / D converted.

Reference numeral 14 is a key signal forming circuit. The key signal forming circuit 14 is provided with reference points (Y0, U0, V
0) and the foreground color video data are calculated for each corresponding sample to generate a key signal (8 bits per sample) of a predetermined level.

Here, an example of a key signal forming method will be described with reference to FIG. First, when the reference point corresponding to the back color on the (U, V) color coordinate in FIG. 4 is (U0, V0), the axis connecting the origin and this point is the X axis, and (U0, The Y axis passes through V0). Reference point (U0, V0)
, And a vector connecting an arbitrary (U, V) value, the contribution to each of the X axis and the Y axis is represented by x and y: x = (U−U0) cos θ + (V−V0) sin θ y = (V −V0) cos θ− (U−U0) sin θ θ = tan ⁻¹ (V0 / U0) Therefore, the key signal is defined by the function shown by the following equation, where (z = Y−Y0).

K = a | x | + b | y | + c | z | (a, b, c are any positive constants.) When K on the left side is set to a constant value in the above equation, it is satisfied (U , V) values are arranged on the sides of the diamond centered on the reference point on the color coordinates.

The key signal generated in this way is transmitted to the key processor 15
Guided to the clip treatment. As will be described later, the key processor 15 is an adaptive type in which the clip level changes according to the average value of the key signal. In this clip processing, when the base clip level is BC and the peak clip level is PC, the quantization levels of BC and below are all 0, and the quantization levels of PC and above are all 255.

On the color coordinates shown in FIG. 4, the base clip level BC and the peak clip level PC are represented by diamonds 5 and 6, respectively. Everything contained in the small diamond 5 is set to 0, and the outside of the large diamond 6 is set to a quantization level of 255, and the portion located between the two is an intermediate level region that determines the slope of the key signal. To be done.

Reference numeral 16 denotes a color canceller, which is a delay circuit 1
Foreground color video data is supplied via 7. The delay circuit 17 has a delay amount corresponding to the time required for signal processing in the key signal forming circuit 14 and the key processor 15. Further, the back color data DB corresponding to the screen of the foreground image is supplied to the color canceller 16, and the back color data amplitude-modulated by the key signal from the key processor 15 is subtracted from the foreground color video data.

The Y signal, the U signal, and the V signal of the foreground image that have been achromatic by the color canceller 16 are supplied to the mixers 21, 22, and 23. Components Y _BG , U _BG , and V _{BG of the} background color video data are supplied to the mixers 21, 22, and 23 from the input terminals 24, 25, and 26, respectively. The mixers 21, 22, and 23 are configured to have a cross-fade method or a combination of a cross-fade method and an additive (ADDITIVE) method. This mixer 21,2
2 and 23 are supplied with the key signal from the key processor 15, and the component signals Y _M and U of the composite image are supplied to the respective outputs.
_M and V _M appear. Then, each component of the composite image is taken out to the output terminals 31, 32, 33 via the low-pass filters 27, 28, 29, respectively.

The key processor 15 described above obtains a moving average value of the original key signal K0 (t) formed by the key signal forming circuit 14 without using a constant clip level, and a peak clip level PC (t) expressed by the following equation. And the base clip level BC (t).

However, Is a moving average value of the key signal K0 (t), and N and M are constants as adjustment terms.

In other words, at the low level of the original key signal K0 (t), P
C (t) ≈ PC0, BC (t) ≈ BC0, and by setting PC0 and BC0 to convenient values in this case, the original key signal K0 (t)
At large values, the clip levels PC (t) and BC (t) also increase accordingly.

Such a clip level variable type key processor 15
An example is shown in FIG. In FIG. 5, the original key signal K0 (t) is supplied from the input terminal 41, and the delay circuit 43
And to the low pass filter 44. With this low pass filter 44, the average value Is taken out and supplied to the arithmetic circuit 45. The key processor 15 obtains the clip level represented by the above equations (1) and (2) and outputs a key signal K ₁ (t) represented by the following equation.

However, K ₁ (t) has a lower limit value of 0 and an upper limit value of 255.

The arithmetic circuit 45 performs the operations of the expressions (1) and (2), and calculates the base clip level BC (t) and the numerator term (PC (t) -BC of the expression (3)).
(t)) is generated. The delay circuit 43 is for compensating for the time delay generated in the low-pass filter 44 and the arithmetic circuit 45, and the key signal K0 from the delay circuit 43 is used.
(t) and the base clip level BC (t) from the arithmetic circuit 45 are supplied to the subtraction circuit 46.

At the output of the subtraction circuit 46, the data of the numerator term of the equation (3) is obtained. Then, the arithmetic circuit 47 performs the multiplication represented by the equation (3), and outputs the target key signal to the output terminal 42.
K ₁ (t) is taken out. The arithmetic circuit 47 is It includes a memory in which a look-up table for generating the value is stored and a multiplication circuit for multiplying the output of this memory by the output of the subtraction circuit 46.

The key signal K ₁ (t) taken out at the output terminal 42 of the key processor 15 is used for achromatization and composition as described above. Although not shown, the key signal K ₁ (t) is applied to the output terminal 42.
A circuit for adjusting the edge timing is added. In particular, the edge timing of the key signal used for synthesizing the achromat and the Y signal needs to be adjusted.

Further, in the expressions (1) and (2), when there is a relationship of (N = M), the key signal K ₁ (t) is expressed by the following expression.

In this case, the key processor 15 has the configuration shown in FIG. Is a constant, the arithmetic circuit 47 can be composed of only a memory which receives the output of the subtraction circuit 46 as an address input.

A key signal emphasizing circuit may be used in the delay circuit 43. The key signal emphasizing circuit is to add the contour emphasizing component obtained by passing the key signal through a secondary differentiating circuit or a high pass filter to the original key signal.

FIG. 7 shows an example of the clip level changing operation according to the embodiment of the present invention. Assuming that a transparent cup and a red flower are arranged side by side as the subject of the foreground picture, the original key signal K0 (t) shown in the figure is generated with respect to the time axis of one line that crosses these. . That is, 51
The period shown by corresponds to the position of the transparent cup,
A key signal K0 (t) corresponding to the achromatic contour and the transparent central portion is generated. In this period 51, since the gain of the key signal is low, the peak clip level PC (t) shown by the broken line and the base clip level BC (t) shown by the one-dot chain line are shown.
Are both small levels. In the period indicated by 52, the gain of the key signal K0 (t) increases corresponding to the red flower. In response to this, the base clip level BC (t) and the peak clip level PC (t) both become large levels.

[Effect of the Invention] According to the present invention, by changing the clip level according to the level of the original key signal, the clip processing can be performed with an appropriate clip level corresponding to the gain of the original key signal. Therefore, it is possible to prevent the key signal after the clip processing from rising too early, and to prevent the occurrence of blue fringes or black edging of the subject in the composite image, resulting in a natural-looking composite image. Can be obtained.

[Brief description of drawings]

1 and 2 are waveform diagrams used to explain a conventional digital chroma key device, FIG. 3 is a block diagram showing the overall construction of an embodiment of the present invention, and FIG. 4 is an explanation of key signal formation. 5 and 6 are block diagrams of an example of a key processor and another example in one embodiment of the present invention, and FIG. 7 is a waveform diagram showing the operation of one embodiment of the present invention. 11, 12, 13 ... Foreground color video data input terminal, 14 ... Key signal forming circuit, 15 ... Key processor, 16 ... Color carrier, 21, 22, 23 ...
... mixer, 24, 25, 26 ... input terminal for background color video data, 31, 32, 33 ... output terminal for composite color video data, 44 ... low-pass filter for detecting average value, 45, 47 ... operation circuit.

Claims (1)

[Claims] 1. A foreground color video signal, in which a subject is positioned in front of a screen of a predetermined color, and a background color video signal, which is a background image, are supplied and combined so as to fit the subject in front of the background image. In the chroma key device configured as described above, key signal forming means for forming a key signal by comparing the foreground color video signal with a color corresponding to the predetermined color, and an average value of the key signal based on the key signal. An average value detecting means for detecting, a clipping means for changing a clip level according to the average value, and clipping a key signal by the varied clip level; and a front image of the background image based on the clipped key signal. And a synthesizing means for synthesizing the subject so that the subject is fitted into the chromakey device.