KR101637193B1 - The layer is set as distributed processing type multi channel image composite system and the control method - Google Patents

Abstract

The present invention relates to a distributed processing-type multi-channel image synthesis system capable of setting layers and a method for controlling the same. For this purpose, the distributed processing-type multi-channel image synthesis system according to the present invention comprises: a multi-channel image synthesizer (500) which includes a plurality of input devices, and enables high-resolution image signals to be monitored on a single monitor in a split form; a back plane (513) which is connected to the multi-channel image synthesizer, and provides a transmission line transmitting a high-speed serial signal; a high-speed parallel converter (514) which converts the high-speed serial signal transmitted by the input devices into original parallel synthesis image signals; a graphic generator (516) which generates a graphic signal for title text to be inserted into a synthesis image or edges of a split screen; and a graphic inserter (515) which inserts the graphic signal for the title text, transmitted by the graphic generator, into the synthesis image. According to the distributed processing-type multi-channel image synthesis system configured as described above, in the case of constructing an image synthesis apparatus required to implement a high-resolution multi-view system capable of being employed in a broadcasting company or a monitoring center requiring simultaneous monitoring of a plurality of UHDTV images or high-resolution PC outputs, image synthesizers are installed for respective outputs of a plurality of input scalers, synthesizes an image by sequentially connecting the outputs, and then transmits only a single signal to an output device. In this case, a layer sequence of the synthesized image can be set as desired, and a serial signal suitable for high-speed signal transmission is transmitted, thereby enabling construction of the multi-view system for monitoring high-speed high-resolution multi-channel signals by using a split screen.

Description

[0001] The present invention relates to a multi-channel image synthesis system and a control method thereof,

The present invention relates to a distributed processing type multi-channel image synthesis system and a control method thereof capable of layer setting, and more particularly, to a multi-channel image synthesis system and a control method thereof, In constructing a video synthesizer required for system implementation, video synthesizers are separately installed at a plurality of input scaler outputs, and the video synthesizers are sequentially connected to each other to synthesize images, and then only one signal is sent to the output device. Layer sequence of a high-resolution signal can be freely set, and a serial-converted signal suitable for high-speed signal transmission is transmitted, thereby enabling a multi-viewer system to monitor a high-speed and high-resolution multi-channel signal on a divided screen.

1 is a conceptual diagram of a multi-viewer system according to the prior art.

That is, a plurality of image input signals (1 to 4 in the drawing) are composed of a single screen in a form of scaled and divided into appropriate sizes in the multi viewer system. At this time, each divided screen may be overlapped or set as a background screen as in " video output " in Fig. 1, and a border line graphic or title character for distinguishing each divided screen is inserted to form an output screen.

2 is a block diagram of a multi-channel multi-viewer implemented in a conventional manner.

That is, the plurality of image input signals 1,2,3, ..., n are scaled to a desired size in the image scalers 201, 202, 203, and 204, and then transmitted to the multi-channel image synthesizer 206 through the backplane 205, . In the multi-channel image synthesizer 206, the signals sent from the respective image scalers 201, 202, 203, and 204 are combined with a desired order layer to form a single split screen and sent to the graphic inserter 208. The graphic generator 207 generates a split screen boundary or title character to be inserted into the synthesized split screen image and sends it to the graphic inserter 208. In the graphic inserter 208, the synthesized split A graphic signal generated by the graphic generator 207 is inserted into a screen image to produce a video output of the multi viewer.

In the conventional multi-channel multi-viewer, the output signals of all the image scalers 201, 202, 203 and 204 are concentrated in the multi-channel image synthesizer 206. In this case, each image signal transmitted by the image scaler is composed of a plurality of signal lines. In the case of a low-resolution image, 10 to 20 signal lines are required for each image signal. However, in the case of a high-resolution image, It costs a lot, so you have to process the signal in parallel. In this case, however, the problem arises that the number of signal lines to be transmitted by a multiple of processing in parallel also doubles. For example, if it has ten input channels and requires four times of parallel processing, the number of signal lines to be transmitted to the multi-channel image synthesizer 206 is required to be 400 to 800. This configuration is very difficult and costly to implement.

FIG. 3 is a block diagram illustrating a multi-viewer using a distributed multi-channel image synthesizer implemented in a conventional manner.

3 includes a plurality of image scalers 301, 302, 302, and 303 for making image input signals 1,2,3, ..., n suitable for screen display, 303, an image scaler n 304, an image synthesizer 2 305 for synthesizing the image signal transmitted through the backplane 308 and the image signal scaled by the image scaler, And a graphic inserter 310 for inserting a graphic of the graphic generator 309 into a final composite image transmitted from the final image synthesizer n 307. The graphic insertor 310 inserts a title character And a graphic generator 309 for generating a split screen boundary line graphic.

3, the image input 1 is adjusted to a desired size to be displayed on the screen by the image scaler 301 so that the backplane 308, which is a signal transmission path, And the image input 2 is adjusted to a desired size by the image scaler 2 302 and then sent to the image synthesizer 2 (305). The video synthesizer 2 305 synthesizes the scaled video signal of the video scaler 2 302 with the video signal of the video scaler 301 transmitted through the backplane 308 and transmits the scaled video signal to the next video synthesizer through the backplane 308 send. The final image input n is adjusted to a desired size by the image scaler n 304 and sent to the image synthesizer n 307 and the image synthesizer n 307 transmits the previous image synthesizer output 307 transmitted through the backplane 308, And transmits the scaled image signal of the image scaler n 304 to the graphic inserter 310 through the backplane 308. The graphic generator 309 generates a title character or a split screen boundary graphic signal to be inserted into the final synthesized image and sends the synthesized title character or the divided screen boundary graphic signal to the graphic inserter 310. In the graphic inserter 310, A graphic signal generated by the graphic generator 309 is inserted into the image to generate a final multi-viewer image output signal.

And FIG. 4 is a conceptual diagram illustrating the operation of the multi-viewer using the distributed multi-channel image synthesizer of FIG.

That is, the image input (1, 2, 3, 4) is adjusted to an appropriate size in the multiviewer, synthesized into one image, and the border graphic and title character of the divided screen are inserted and output.

However, the problem of the multi-viewer using the distributed multi-channel image synthesizer of FIG. 3 is that the order in which the video signals are synthesized is fixed as shown in the video output screen of FIG. 4, There is a phenomenon that the user always goes up. Such an apparatus is limited in use for applications in which the divided screens do not need to be overlapped with each other, and this problem needs to be improved.

In order to solve the above-mentioned problems, the following prior art documents have been registered in the prior art, but the problems of the above-described conventional techniques can not be solved at all.

Korean Patent Registration No. 0459376 (Nov. 22, 2004) has been registered. Korean Patent Registration No. 0897006 (2009.05.04) has been registered. Korean Patent Registration No. 1392406 (Apr. 24, 2014) was registered.

It is an object of the present invention to provide a multi-channel image synthesizer having a video scaler, a layer video synthesizer, a high-speed serial-to-parallel converter, a graphic inserter and a graphic generator in order to solve all of the above- The second object of the present invention is to provide a multi-viewer system that monitors a plurality of high-resolution video signals in a divided form on a single monitor. The third object of the present invention is to provide a multi- The image synthesizing apparatus is separately distributed to the input unit and sent to the output apparatus in a sequential manner so as to prevent the signal line from being concentrated on the output apparatus and to synthesize the image signal sequentially High resolution by allowing you to set the layer position at will In particular, the fourth object is to provide a video synthesizer necessary for realizing a high-resolution multi-viewer system that can be used in a broadcasting station or a surveillance center that needs to simultaneously monitor a plurality of UHDTV images or high-resolution PC outputs The image synthesizer is separately installed in a plurality of input scaler outputs, and the synthesized images are sequentially connected to each other, and then only one signal is sent to the output device. At this time, the layer sequence of the synthesized image can be arbitrarily set, A multi-viewer system for monitoring a multi-channel signal of a high-speed and high-resolution multi-channel signal in a split screen by constructing a multi-viewer system capable of transmitting a serially converted signal suitable for transmission, and the fifth object is to greatly improve the quality and reliability of a product, (Needs) To the dispersion treatment is a layer configurable to instill a good image type meet provides a channel image synthesizing system, and a control method.

In order to achieve the above object, the present invention provides a multi-channel image synthesizer (500) having a plurality of input devices and monitoring a high-resolution image signal in one monitor in a divided form; A backplane 513 connected to the multi-channel image synthesizer and providing a transmission line for transmitting a high-speed serial signal; A high-speed parallel converter 514 for converting the high-speed serial signal transmitted from the input device back to the original parallel synthesized video signal; A graphic generator 516 for generating a title character or a split screen frame graphic signal to be inserted into the composite image; And a graphic inserter 515 for inserting a title graphic signal sent from the graphic generator into the synthesized image.

Also, the multi-channel image synthesizer 500 applied to the present invention includes an image scaler 517 for adjusting the image input signal to a desired divided screen size; A layer video synthesizer 512 for synthesizing the composite video signal sent from another input device and the output of the video scaler to a position matched to the layer data; A high-speed parallel converter 509 for converting a high-speed serial signal received from the backplane into an original parallel signal; An input device 502 configured by a high-speed serializer 510 for converting a composite video signal output from the layer video synthesizer into a high-speed serial signal; And a plurality of input devices (501, 503, ..., 504) having the same structure are provided.

In addition, the layer video synthesizer applied to the present invention includes a signal separator 701 for separating a backplane input signal into a video signal and a layer signal; An image synthesizer 702 for synthesizing the backplane input image signal and the scaler image input signal by a key signal; A layer signal generator 705 for generating a layer signal adapted to the scaler video signal; A key signal generator 704 for generating a key signal necessary for image synthesis in the backplane layer signal and the scaler layer signal; A layer synthesizer 706 for synthesizing a backplane layer signal and a scaler layer signal with each other; And a signal combiner 703 for combining the output video signal of the video synthesizer and the layer signal of the layer synthesizer.

According to another aspect of the present invention, there is provided a method of monitoring a high-resolution video signal, the method comprising the steps of: controlling an image input by a video scaler to a size suitable for displaying on a divided screen; Converting the serial output signal of the input device passed through the backplane to the original parallel signal and sending it to the layer video synthesizer; Layer video synthesizer synthesizes the signals of the image scaler to the backplane input sent from the high-speed parallel converter to each other according to the value of the layer, and sends them to the high-speed serializer; And the output of the high-speed serializer of the last input device is a synthesized video signal synthesized with all the input signals. The signal is transmitted to the high-speed parallel converter through the backplane. In the high-speed parallel converter, The graphic generator generates a title character or a screen border graphic signal to be inserted into the divided image and sends it to the graphic inserter. In the graphic inserter, the graphics signal generated by the graphic generator is added to the synthesized video signal sent from the fast parallel converter, And generating a final multi-viewer output image signal by inserting the multi-view image synthesizing system into a multi-channel image synthesizing system.

Also, before the step of adjusting the image input to a size suitable for displaying on the divided screen by the image scaler and sending it to the layer video synthesizer, since the first input device has no input from the backplane, the backplane input of the layer video synthesizer is & 0 ", the same operation as that of the other input devices is performed. In this case, the present invention provides a control method of a distributed processing type multi-channel image synthesis system capable of layer setting.

In the layer video synthesizer of the present invention, the backplane input signal sent from the FEC converter is separated into a backplane input video signal and a backplane input layer signal by a signal separator. In the layer signal generator, A scaler layer signal having a layer data value is generated and sent to a key signal generator and a layer synthesizer. In a key signal generator, a key signal is generated by comparing a backplane layer signal with a scaler layer signal. The image synthesizer outputs the backplane input video signal to the black area according to the contents of the key signal, and outputs the white backplane input video signal to the black area according to the contents of the key signal. And a layer synthesizer synthesizes a backplane input layer signal and a scaler layer signal by selecting a signal having a large number among the two signals to synthesize And the backplane output image signal and the backplane output layer signal are combined by a signal combiner to form a backplane output signal. The present invention provides a control method of a multi-channel image synthesis system of a distributed processing type capable of layer setting.

As described in detail above, according to the present invention, a plurality of image scaler output signals are not all sent to one multi-channel image synthesizer, but an image synthesizer is installed independently for each image scaler output, and the scaled images are sequentially accumulated And a layer setting and synthesizing unit capable of arbitrarily setting a layer layer in which images are synthesized even if the signals are sequentially synthesized at this time, A plurality of video signal lines are converted into serial signals by using a high-speed serializer and are transmitted by a small number of stable signal lines.

Particularly, the present invention solves the problem that the signal lines are concentrated by allowing the image synthesis to be distributed in each input portion, and at the same time, since the layer setting function is provided, the position of the layer can be set freely when superimposing the divided image screen. And it is possible to construct a system with improved cost and quality by transmitting a high-speed serial-converted signal so as to solve problems such as skew phenomenon and signal interference caused when a video signal is transmitted to a plurality of parallel signal lines .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram of a conventional multi-viewer system;
2 is a block diagram of a multi-channel multi-viewer implemented in a conventional manner.
FIG. 3 shows an embodiment of a multi-channel multi-viewer using a conventional distributed image synthesizer
Fig.
4 is a conceptual diagram illustrating the operation of the multi-viewer of FIG.
5 is a block diagram of a distributed image synthesizer having a layer setting function applied to the present invention.
Channel multiviewer according to an embodiment of the present invention.
6 is a block diagram of an input / output signal of the layer video synthesizer according to the present invention.
7 is a block diagram of an internal structure of a layer video synthesizer according to the present invention.
8 is a block diagram for explaining the operation of the layer video synthesizer of the present invention.

The distributed processing type multi-channel image synthesis system and its control method applicable to the present invention are configured as shown in FIGS. 5 to 8.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention includes an image scaler 1 505 for adjusting the image input 1 to an appropriate size, a layer image synthesizer 1 507 for converting the output of the image scaler 1 505 to have a value of the layer 506, And a high-speed serializer 1 508 that converts the output of the video synthesizer 1 507 into a serial signal and transmits the serial signal to the input device 502 through a backplane 513, which is a signal transmission path.

The present invention also includes an image scaler 2 517 for adjusting the image input 2 to an appropriate size and an image scaler 517 for controlling the image and layer signals transmitted through the backplane 513 and the fast parallel converter 2 509, 2 layer image synthesizer 2 512 and the layer video synthesizer 2 512, which combine the scaled video signals of the second layer video signal 517 with the values of the layer 511 to produce a new video signal and a layer signal, And a high-speed serializer 510 that converts the signal to a next input device 503 through a backplane 513.

The present invention also includes an input device 503 configured to process the image input 3, an input device 504 configured to process the final image input n, and a signal output from the high-speed serializer n 518, A high speed parallel converter g 514 for converting the parallel signal into a parallel signal transmitted through the backplane and a graphic generator 516 and a fast parallel converter g 514 for generating a title character or a split screen boundary line graphic signal to be inserted into the composite video signal And a graphic inserter 515 for inserting and outputting a graphic signal of the graphic generator 516 to the composite video signal sent thereto.

In the present invention, the layer video synthesizer in each of the input devices 501, 502, 503, and 504 synthesizes the scaler video input signal with the backplane input signal based on the layer data as shown in FIG. 6 to output a backplane. A signal separator 701 for separating the backplane input signal into a video signal and a layer signal and a backplane video signal 711 and a scaler video input signal 717 by a key signal 714 to generate a backplane output video signal 713 A layer signal generator 705 for generating a scaler layer signal 715 using the scaler image input signal 717 and the layer data, a backplane input layer signal 712, A key signal generator 704 for generating a key signal using the layer signal 715, a backplane input layer signal 712 and a scaler layer signal 715, And a signal combiner 703 that combines the backplane output video signal 713 and the backplane output layer signal 716 to form a backplane output signal. do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

An operation and effect of the distributed processing type multi-channel image synthesis system and its control method capable of setting the present invention layer as described above will be described below.

First, according to the present invention, a video synthesizer is distributed to a video scaler output portion of an input unit without synthesizing video synthesizers, and a synthesized video sequence is sequentially synthesized one by one and transmitted to an output unit. It is possible to set the image synthesis layer at will, and the transmission method using a plurality of video signal lines can be transmitted to a small number of signal lines by using a high-speed serial converter, thereby constructing a high-quality, high- .

The operation of the distributed image synthesizer having the layer setting function according to an embodiment of the present invention will be described with reference to FIG.

First, the image input 2 of the present invention is adjusted to an appropriate size to be displayed on the divided screen by the image scaler 2 517, and is sent to the layer video synthesizer 2 512. The high-speed parallel converter 2 509 receives the backplane 513 Converts the serial output signal of the input device 501, which has been transmitted through the input unit 501, back to the original parallel signal, and sends it to the layer video synthesizer 2 (512).

The layer video synthesizer 2 512 synthesizes the signals of the video scaler 2 517 with the output of the input device 501 sent from the fast parallel converter 2 509 according to the value of the layer 511, And the detailed operation inside the layer video synthesizer 2 (512) will be described with reference to FIG. 7 and FIG.

First, the backplane input signal sent from the fast parallel converter 2 509 is separated into a backplane input video signal 711 and a backplane input layer signal 712 by a signal separator 701. 8, the backplane input video signal 711 includes three divided images A, B, and C, and the backplane input layer signal 712 includes three divided video signals A, B, and C image layers.

Assuming that the image A has a value of "1", the image B has a value of "4" and the image C has a value of "3" We can see why A is going down to the bottom and Image C and Image B are on top of it.

7, a scaler layer signal 715 having a layer data value is generated in accordance with the signal position and size of the scaler image input 717, and is supplied to the key signal generator 704 and the layer synthesizer 706 In the block diagram of FIG. 8, the shape of the scaler layer signal 715 generated when the layer data is " 2 " can be confirmed.

That is, a signal having data "2" in the "D" region of the scaler video input signal 717 and "0" in the other portions is generated.

The key signal generator 704 compares the backplane layer signal 712 with the scaler layer signal 715 to generate the key signal 714. The key signal generator 704 generates the key signal 714 by using the scaler layer signal 715 ) Is a white signal and the remaining area is a black signal. The signal 714 is sent to the image synthesizer 702. The image synthesizer 702 outputs the backplane input image signal 711 in the black region and the scaler image input 717 in the white region according to the contents of the key signal 714 So that a video signal similar to that of the backplane output video signal 713 of FIG. 8 is produced.

That is, the images are synthesized such that the divided screen "D" of the scaler video input 717 is positioned after the divided screens "B" and "C" of the backplane input video signal 711. The layer synthesizer 706 synthesizes the backplane A signal having a large number among the two signals is selected and synthesized to synthesize the input layer signal 712 and the scaler layer signal 715 so that the scaler layer signal 715 as in the backplane output layer signal 716 of FIG. 4 " and " 3 " of backplane layer signal 712. Backplane output video signal 713 and backplane output layer signal 716, Combiner 703 combines them into a backplane output signal.

5, the output signal of the layer video synthesizer 2 (512) is transferred to the high-speed serializer 2 510. Here, the parallel data signal, which is the output of the layer video synthesizer 510, And transmits it to the third input device 503 through the backplane 513.

The third input device 503 has the same configuration and operation as the second input device 502, and the image obtained by scaling the image input 3 is synthesized into a desired layer and transmitted to the next input device. The same structure and operation are performed.

Since the first input device 501 has no input from the backplane 513, the same operation as the other input devices except that the backplane input of the layer video synthesizer 1 507 is set to "0" .

That is, since the backplane input of the layer video synthesizer 1 (507) is fixed to "0", the output of the video scaler 1 (505) is outputted as it is and a layer signal having the value of the layer 506 is produced only in the video region adjusted by the scaler And then converted into a serial signal by the high-speed serializer 1 508 and transmitted to the input device 502 through the backplane 513.

The output of the S / P converter 518 of the last input device 504 is a composite video signal in which all the input signals are synthesized. The signal is transmitted to the fast parallel converter g 514 through the backplane 513, (514) converts the original parallel data into the original parallel data and sends the final composite video signal to the graphic inserter (515).

The graphic generator 516 generates a title character or a screen border graphic signal to be inserted into the divided image and sends the title character or the screen border graphic signal to the graphic inserter 515. The graphic inserter 515 performs a synthesis The graphics signal generated by the graphics generator is inserted into the video signal to produce a final multi-viewer output video signal.

With this configuration, it is possible to arbitrarily set a layer to be synthesized while performing distributed processing without the problem that a large number of high-speed divided video signals are simultaneously pushed into a video synthesizer of an output unit, and a high-speed serial conversion signal is used for high- So that a highly reliable multi-viewer system can be constructed.

The technical idea of the distributed processing type multi-channel image synthesis system and the control method thereof capable of setting the layer of the present invention is that the same result can be repeatedly practiced. Particularly, by implementing the present invention as described above, It is worth protecting.

Description of the Related Art
500: Multi-channel image synthesizer
505: image scaler
507: Layer video synthesizer
515: Graphic inserter
516: Graphics generator

Claims (6)

A multi-channel image synthesizer (500) having a plurality of input devices and monitoring a high-resolution image signal in a form of a single monitor;
A backplane 513 connected to the multi-channel image synthesizer and providing a transmission line for transmitting a high-speed serial signal;
A high-speed parallel converter 514 for converting the high-speed serial signal transmitted from the input device back to the original parallel synthesized video signal;
A graphic generator 516 for generating a title character or a split screen frame graphic signal to be inserted into the composite image; And
And a graphic inserter 515 for inserting the title graphic signal sent by the graphic generator into the composite image,
The multi-channel image synthesizer (500)
An image scaler 517 for adjusting the image input signal to a desired split screen size;
A layer video synthesizer 512 for synthesizing the composite video signal sent from another input device and the output of the video scaler to a position matched to the layer data;
A high-speed parallel converter 509 for converting a high-speed serial signal received from the backplane into an original parallel signal;
An input device 502 configured by a high-speed serializer 510 for converting a composite video signal output from the layer video synthesizer into a high-speed serial signal; And
A plurality of input devices 501, 503, ..., 504 having the same structure,
The layer video synthesizer includes:
A signal separator 701 for separating the backplane input signal into a video signal and a layer signal;
An image synthesizer 702 for synthesizing the backplane input image signal and the scaler image input signal by a key signal;
A layer signal generator 705 for generating a layer signal adapted to the scaler video signal;
A key signal generator 704 for generating a key signal necessary for image synthesis in the backplane layer signal and the scaler layer signal;
A layer synthesizer 706 for synthesizing a backplane layer signal and a scaler layer signal with each other; And
And a signal combiner (703) for combining the output image signal of the image synthesizer and the layer signal of the layer synthesizer.
delete delete In order to allow a high-resolution video signal to be monitored in a divided form on one monitor,
Adjusting an image input to a size suitable for displaying on a divided screen by an image scaler and sending the image input to a layer video synthesizer;
Converting the serial output signal of the input device passed through the backplane to the original parallel signal and sending it to the layer video synthesizer;
A layer video synthesizer synthesizing the signals of the image scaler with the output of the input device sent from the fast parallel converter to each other according to the value of the layer, and sending the combined signals to the high-speed serializer; And
The output of the high-speed serializer of the input device is a synthesized video signal synthesized with all the input signals. The signal is transmitted to the high-speed parallel converter through the backplane. The high-speed parallel converter then converts the original parallel data into the original parallel data, The graphic generator generates a title character or a screen border graphic signal to be inserted into the divided image and sends it to the graphic inserter. In the graphic inserter, the graphics signal generated by the graphic generator is inserted into the synthesized video signal sent from the high- And generating a final multi-viewer output video signal based on the multi-channel video signal.
The method of claim 4,
Before the step of transmitting the image input to the layer video synthesizer after the image input is adjusted to a size suitable for display on the divided screen by the image scaler,
The first input device does not have an input from the backplane, so that the same operation as other input devices is performed except that the backplane input of the layer video synthesizer is set to "0 " Control Method of Multi - Channel Image Synthesis System.
The method of claim 4,
The operation of the layer video synthesizer includes:
The backplane input signal from the high-speed parallel converter is separated into a backplane input video signal and a backplane input layer signal by a signal separator,
In the layer signal generator, a scaler layer signal having a layer data value is generated according to the signal position and size of the scaler image input, and the scaler layer signal is sent to the key signal generator and the layer synthesizer,
In the key signal generator, a key signal is generated by comparing the backplane layer signal and the scaler layer signal. The area where the number of the scaler layer signal is larger than the number of backplane layer signals in the screen area is a white signal and the remaining area is a black signal This signal is sent to a video synthesizer. The video synthesizer outputs a backplane input video signal in a black region and a scaler video input in a white region according to the contents of a key signal, thereby generating a video signal such as a backplane output video signal ,
The layer composer synthesizes the backplane input layer signal and the scaler layer signal to select and combine signals of a larger number among the two signals,
Wherein the backplane output image signal and the backplane output layer signal are combined by a signal combiner to form a backplane output signal.

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