JP3546021B2 - Video processing apparatus, video processing method, and video processing program - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video processing apparatus, a video processing method, and a video processing program, and more particularly to a video that does not use a full screen such as a commercial in HDTV (high-definition television) broadcasting, and other video information in a screen portion that is not used. The present invention relates to a video processing device, a video processing method, and a video processing program for effectively utilizing a screen by synthesizing a video.
[0002]
[Prior art]
In general, television broadcasting includes color television systems such as (1) NTSC system (adopted by Japan), (2) PAL system, and (3) SECAM system. In such a television system, the video is broadcast as a video having an aspect ratio of 4: 3. In the case of the Japanese EDTV-II system or the like, the aspect ratio is 16: 9.
FIGS. 7A and 7B show a vertical synchronizing signal waveform, a horizontal synchronizing signal, and a video signal waveform in a current television broadcast (NTSC system), respectively. FIGS. 8A and 8B show a vertical synchronizing signal waveform, a horizontal synchronizing signal, and a video signal waveform in digital HDTV broadcasting (1080i system), respectively. Note that “H” in the figure is a horizontal scanning period.
[0003]
[Problems to be solved by the invention]
Generally, the production cost of an HDTV commercial (CM) is high. For this reason, an up-converter converts a conventional broadcast CM from 525 or 625 scanning lines to 1125 HDTV scanning lines, and also appropriately converts signal frequency, burst, etc., as a CM material for HDTV broadcasting. Produced and broadcast. In this case, the video viewed from the viewer is for HDTV, but is viewed as a video having an angle of view of 4: 3.
[0004]
FIG. 9 shows an explanatory diagram of editing by the up-converter. As shown in FIG. 9A, the normal TV screen of the NTSC system is a screen having an aspect ratio of 4: 3. The screen excluding the synchronization signal area (black portion) is an effective screen, which is a normal TV screen. In the NTSC system, one frame has 525 scanning lines (480i). Note that “i” indicates interlaced scanning. On the other hand, as shown in FIG. 9B, in the HDTV system, the screen has an aspect ratio of 16: 9, and one frame has 1125 scanning lines (1080i). When the NTSC system is converted into the HDTV system by the up-converter, the image is displayed on the HDTV screen as a video having a view angle of 4: 3.
[0005]
FIG. 10 is a diagram illustrating the relationship between each signal system and the television screen.
In FIG. 10A, as an example, a TV-CM manufactured at an aspect ratio of 4: 3 according to the NTSC system is converted to an HDTV broadcast TV by an up-converter (a device that converts a scanning line of a video signal and a frequency of the video signal). A case where a CM is created will be described.
[0006]
As shown in the figure, an HDTV receiver broadcasts on a screen having an aspect ratio of 16: 9.
FIG. 10B shows a TV-CM video when such an HDTV broadcast is viewed on a conventional NTSC receiver, and a black screen portion is displayed around the TV-CM video as shown in the figure. FIG. 10C shows a TV-CM broadcast for HDTV viewed at an angle of view having an aspect ratio of 16: 9. Further, FIG. 10D shows a TV-CM video when a TV-CM broadcast for HDTV is viewed on a conventional NTSC receiver, and black screen portions are displayed at the top and bottom as shown in the figure.
[0007]
As described above, conventionally, when an NTSC system broadcast is converted to an HDTV system by an up-converter, the entire screen of a television or a receiver may not be effectively used. In addition, the viewer may feel uncomfortable by switching to display a black screen portion during, for example, a commercial.
[0008]
In view of the above points, the present invention takes advantage of the HDTV screen by inserting another video signal into an unused portion of a conventional video such as a commercial that does not use the entire screen, thereby reducing the discomfort of the video. The purpose is to eliminate.
[0009]
[Means for Solving the Problems]
According to a first solution of the present invention,
A first signal including a horizontal synchronizing signal and a first video signal embedded in a part of a horizontal scanning period is input, and a synchronizing separation circuit for extracting a horizontal synchronizing signal of the first signal; The second signal including the second video signal embedded in another part of the horizontal scanning period is input, and the first signal horizontal synchronization signal extracted by the synchronization separation circuit is synchronized with the second signal. And a time control circuit for outputting the second video signal, and a signal including the first signal and the second video signal from the time control circuit are supplied to the first signal including the first video signal in a partial period. Provided is a video processing apparatus including a composite video signal generation circuit that generates a composite video signal by inserting a second video signal in another partial period within a corresponding horizontal scanning period.
[0010]
According to a second solution of the present invention,
Inputting a first signal including a horizontal synchronization signal and a first video signal embedded in a part of a horizontal scanning period, and extracting a horizontal synchronization signal of the first signal;
A horizontal synchronization signal and a second signal including a second video signal embedded in another part of the horizontal scanning period are input, and the horizontal synchronization signal and the second signal of the first signal extracted by the synchronization separation circuit Outputting a second video signal in synchronization with
A first signal and a signal including the second video signal from the time control circuit are supplied. The first signal corresponds to the first signal including the first video signal in a partial period. A method of inserting a second video signal to create a composite video signal; and a video processing program for causing a computer to execute the procedures.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 shows a configuration diagram of a video processing device of the present invention.
This video processing device includes a sync separation circuit 21, a composite video signal creation circuit 22, and a video time control circuit 23. This figure shows an example in which a CM broadcast video is displayed on the left side of the screen and an additional video is displayed on the right side.
[0012]
The synchronization separation circuit 21 receives a first signal including a horizontal synchronization signal and a first video signal embedded in a part of the horizontal scanning period, and extracts a horizontal synchronization signal from the first signal. The video time control circuit 23 receives a horizontal synchronization signal and a second signal including a second video signal embedded in another part of the horizontal scanning period in which the first video signal does not exist. The second signal is a video signal for filling an empty video portion of the screen. The video time control circuit 23 also controls the time axis so that the horizontal synchronization signal of the first signal and the horizontal synchronization signal of the second signal extracted by the synchronization separation circuit 21 are synchronized. It should be noted that the second video signal is superimposed during a period other than when the first video signal does not exist, or the second video signal is inserted at a position where the level is low, a position where the color is light, or the like according to the level, color, etc. of the first video signal. You may make it.
[0013]
The composite video signal generation circuit 22 generates a composite video signal by inserting the second video signal within a horizontal scanning period corresponding to the first signal including the first video signal. The composite video signal creation circuit 22 can be configured to include, for example, an analog switch circuit. In this case, an analog switch control signal and a second video signal are output from the video time control circuit 23 and supplied to the composite video signal creation circuit 22. The first video signal is supplied to the composite video signal creation circuit 22 together with the horizontal synchronization signal. The composite video signal generation circuit 22 switches and outputs either the supplied first video signal or the first signal or the second video signal including the synchronization signal, for example, by an analog switch control signal. The output signal is a composite video signal.
[0014]
FIG. 2 shows a configuration diagram of a first embodiment of a preceding apparatus of the video processing apparatus of the present invention.
In the first embodiment, an up converter 30, a setting unit 10, a first position adjustment unit 11, and a second position adjustment unit 12 are provided. The up-converter 30 is a device that converts the frequency of a scanning line, a video signal, and the like.
[0015]
FIG. 3 shows an explanatory diagram of the upconverter. In this example, the up-converter 30 converts an NTSC (480 × i) TV-CM signal for HDTV broadcasting, and creates an HDTV broadcasting TV-CM.
Here, as an example, the TV-CM video signal is written by the up-converter 30 on the left side of the screen having the aspect ratio of 16: 9. However, it is possible to move to the center or right depending on how to use the margin of the screen by setting the up-converter 30. In addition, since the scan line conversion of the up-converter 30 is performed by the frame processing conversion of the NTSC signal, the signal of the HDTV scan line in the NTSC specific scan line video signal portion does not become the same.
[0016]
The setting unit 10 sets the position of the broadcast program image and the position of the image of the additional information inserted into all white. The additional information may be appropriate information such as a description of another commercial, a company or product of the commercial, weather, stock, news, and the like. Further, the additional information to be inserted can be a still image or a moving image.
[0017]
FIG. 4 is an explanatory diagram for setting the image position.
As shown in the figure, when the set value is “1”, the TV-CM video (A video signal in the figure) is on the left side of the television screen, and the additional information (B video signal in the figure) is on the right side. In the case of “2”, the TV-CM video is on the right side of the TV screen, and the additional information is on the left side. In the setting value “3”, the TV-CM video is on the center of the TV screen, and the additional information is on the left and right sides (in FIG. B1 and B2 video signals). Furthermore, the program video may be at the center of the television screen, and the additional information may be at the right or left side. In this case, for example, information may be transmitted to the additional information on one side.
[0018]
The first image obtained by converting the video signal of the first scanning line or the signal type into the video signal of the second scanning line or the signal type is input to the first position adjustment unit 11. The first position adjustment unit 11 is supplied with, for example, a video signal obtained by up-converting an NTSC TV-CM signal into an HDTV signal. Then, the first position adjustment unit 11 adjusts the position where the first video signal exists during the horizontal scanning period according to the setting by the setting unit 10.
[0019]
The second position adjustment unit 12 receives a second scan line or a second video signal. The second position adjustment unit 12 adjusts the position where the second video signal is embedded during the horizontal scanning period according to the value set by the setting unit 10. The second position adjustment unit 12 is provided with an upconverter for the second video signal at a stage preceding the second position adjustment unit 12, and converts the first scanning line or the video signal of the signal system into the second scanning line or the video signal of the signal system. May be input.
[0020]
FIG. 5 is a configuration diagram of a second embodiment of a preceding apparatus of the video processing apparatus of the present invention. This upstream device includes an up-converter 30 and a second position adjusting unit 13. In this example, the position of the first video signal is set at a predetermined position within a horizontal scanning period set by the up-converter 30 in advance. In this case, by inputting the predetermined position information to the second position adjustment unit 13, the position of the second image during the horizontal scanning period can be adjusted as described above.
[0021]
Hereinafter, the operation of the present invention will be described with reference to FIGS. 1 and 2 by taking as an example a case where additional information is displayed on the right side of a TV-CM video.
FIG. 6 is an explanatory diagram of the video processing according to the present invention. In the figure, the upper figure shows the waveform of the specific scanning line, and the lower figure shows the screen on the receiver.
First, the setting unit 10 presets a set value to “1” in order to display additional information on the right side of the video. The NTSC TV-CM video (FIG. 6A) is converted by the up-converter 30. The first position adjuster 11 inserts the TV-CM video (first video signal) into a part of the beginning of the horizontal scanning period, and outputs the first signal (FIG. 6B). On the other hand, the second position adjustment unit 12 inserts the additional video (second video signal) into the other part of the horizontal scanning period, and outputs the second signal.
[0022]
When the TV-CM video up-converter 30 obtains predetermined information regarding the video embedding position as shown in FIG. 5, the TV-CM signal (first signal) can be directly obtained from the output of the up-converter 30. it can. Further, the second position adjustment unit 13 inserts the additional video (second video signal) into the other part at the end of the horizontal scanning period, and outputs the second signal.
[0023]
Next, the TV-CM signal is input to the sync separation circuit 21, and a horizontal sync signal is extracted. The horizontal synchronization signal separated by the synchronization separation circuit 21 is supplied to the time control circuit 23 for adjusting the time of the video signal (processing with the frame memory). On the other hand, the second signal is input to the video time control circuit 23. The video time control circuit 23 synchronizes the additional video and the TV-CM video with a horizontal synchronization signal, and controls the position of the time axis of the additional video signal. At this time, the video time control circuit 23 extracts, for example, only the luminance signal and color signal portions of the input horizontal synchronization signal as analog switch control signals. The video time control circuit 23 outputs the additional video signal and the analog switch control signal to the composite video signal creation circuit 22. The composite video signal generation circuit 22 switches between the TV-CM video signal and the additional video signal by an analog switch control signal to generate a composite video signal (FIG. 6C).
[0024]
When the additional information is inserted with the TV-CM video as the center, the additional information may be inserted into the front and / or rear of the horizontal scanning period by the second position adjustment units 12 and 13. At that time, the composite video signal generation circuit 22 may perform switching control or the like at both or any of these timings to generate a composite video signal.
[0025]
In the above description, the case where the additional information is inserted into the TV-CM video has been described as an example, but an appropriate video can be used as the first video signal. Also, as the second video signal, an appropriate video such as another commercial can be used. Further, the broadcasting method is not limited to the conversion from the NTSC to the HDTV method, but can be applied to an appropriate method. In addition, even if the signal is inserted by an up-converter, an effective screen can be used in real time using the broadcasting equipment of a broadcasting station.
[0026]
A video processing method according to the present invention includes a computer-readable recording medium storing a video processing program, a program including a video processing program, which can be loaded into an internal memory of a computer, a computer such as a server including the program, a video processing apparatus, and a video. The program may be provided by a program including a processing program and stored in a computer-usable recording medium.
[0027]
【The invention's effect】
According to the present invention, as described above, by inserting another video signal into an unused portion of a conventional CM or other video that does not use the entire screen, the HDTV screen is effectively used to reduce the sense of discomfort of the video. Can be eliminated.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a video processing device of the present invention.
FIG. 2 is a configuration diagram of a first embodiment of a pre-stage apparatus of the video processing apparatus of the present invention.
FIG. 3 is an explanatory diagram of an up converter.
FIG. 4 is an explanatory diagram of setting of a video position.
FIG. 5 is a configuration diagram of a second embodiment of a pre-stage apparatus of the video processing apparatus of the present invention.
FIG. 6 is an explanatory diagram of video processing according to the present invention.
FIGS. 7A and 7B are respectively a vertical synchronizing signal waveform, a horizontal synchronizing signal, and a video signal waveform in a current television broadcast (NTSC system).
FIGS. 8A and 8B are a vertical synchronizing signal waveform, a horizontal synchronizing signal, and a video signal waveform in digital HDTV broadcasting (1080i system), respectively.
FIG. 9 is an explanatory diagram of editing by an up-converter.
FIG. 10 is an explanatory diagram illustrating a relationship between each signal system and a television screen.
[Explanation of symbols]
Reference Signs List 10 setting unit 11 first position adjustment unit 12 second position adjustment unit 13 second position adjustment unit 21 sync separation circuit 22 composite video signal creation circuit 23 video time control circuit 30 upconverter

Claims (8)

A setting unit for setting the positional relationship between the video of the broadcast information and the video of the additional information displayed on the receiver,
An HDTV first video signal obtained by up-converting an NTSC broadcast information video signal is input, and the position of the first video signal within the horizontal scanning period is adjusted according to the setting by the setting unit, thereby adjusting the HDTV system video signal . A first position adjustment unit that outputs a first signal;
The second video signal of the additional information of the HDTV system is input, and the second position adjustment for outputting the second signal of the HDTV system by adjusting the embedding position of the second video signal in the horizontal scanning period according to the setting by the setting unit and parts,
A first signal including a horizontal synchronization signal and a first video signal embedded in a part of a horizontal scanning period is input from the first position adjustment unit, and synchronization for extracting a horizontal synchronization signal of the first signal is input. A separation circuit;
From the second position adjusting unit, and the horizontal synchronizing signal, the second signal is input including a second image signal embedded in other partial period of a horizontal scanning period, first extracted by the sync separation circuit A time control circuit for synchronizing the horizontal synchronizing signal of the signal and the second signal and outputting a second video signal;
A signal including a first signal from the first position adjustment unit and a second video signal from the time control circuit is supplied, and in a horizontal scanning period corresponding to the first signal including the first video signal in a partial period. And a composite video signal creating circuit for creating a composite video signal for HDTV broadcasting by inserting a second video signal in other partial periods. The video processing device according to claim 1, further comprising an upconverter that converts an NTSC video signal into an HDTV video signal before the first position adjustment unit. Video signal of the broadcast information of the NTSC system is input, converts the video signal of the NTSC system to the first video signal of the HDTV system, the first video signal during a portion of the predetermined horizontal scanning period An upconverter for outputting an existing first signal ;
The second video signal of the HDTV system is input, and the position where the second video signal is embedded is adjusted in another part of the horizontal scanning period other than the part of the horizontal scanning period determined by the up-converter, and the second signal is adjusted. A second position adjustment unit for outputting ,
A synchronization separation circuit for receiving a first signal including a horizontal synchronization signal and a first video signal embedded in a part of a horizontal scanning period from the up-converter, and extracting a horizontal synchronization signal of the first signal; ,
From the second position adjusting unit, and the horizontal synchronizing signal, the second signal is input including a second image signal embedded in other partial period of a horizontal scanning period, first extracted by the sync separation circuit A time control circuit for synchronizing the horizontal synchronizing signal of the signal and the second signal and outputting a second video signal;
A signal including a first signal from the up-converter and a second video signal from the time control circuit is supplied. In a horizontal scanning period corresponding to the first signal including the first video signal in a partial period, other signals are provided. A video processing apparatus comprising: a synthesized video signal generation circuit that generates a synthesized video signal for HDTV broadcasting by inserting a second video signal in a partial period. The first signal is a video processing device according to any one of claims 1 to 3, characterized in that a commercial video. A setting procedure for setting the positional relationship between the video of the broadcast information and the video of the additional information displayed on the receiver,
The first video signal of HDTV system that up-converts the video signal of the broadcast information of the NTSC system is inputted, according to the setting by the setting procedure, HDTV system to adjust the present position of the first video signal in the horizontal scanning period A first position adjustment procedure for outputting a first signal of
A second video signal of additional information of the HDTV system is input, and a second position adjustment for outputting a second signal of the HDTV system by adjusting a position where the second video signal is embedded in the horizontal scanning period in accordance with the setting by the setting procedure. and procedures,
A first signal including a horizontal synchronizing signal and a first video signal embedded in a part of a horizontal scanning period output by the first position adjustment procedure is input, and a horizontal synchronizing signal of the first signal is input. Synchronous separation procedure to extract,
The second output by the position adjustment procedure, a horizontal synchronizing signal, a second signal including a second image signal embedded in other partial period of a horizontal scanning period is input, it is extracted by the sync separation procedures A time control procedure for synchronizing the horizontal synchronization signal of the first signal and the second signal and outputting a second video signal;
A signal including a first signal output by the first position adjustment procedure and a second video signal output by the time control procedure is supplied, and a horizontal period corresponding to the first signal including the first video signal in a partial period is supplied. A composite video signal creating procedure for creating a composite video signal for HDTV broadcasting by inserting a second video signal in other partial periods within a scanning period. Video signal of the broadcast information of the NTSC system is input, converts the video signal of the NTSC system to the first video signal of the HDTV system, the first video signal during a portion of the predetermined horizontal scanning period An up-conversion procedure for outputting an existing first signal ;
The second video signal of the HDTV system is input, and the position of embedding the second video signal in another part of the horizontal scanning period other than the part of the horizontal scanning period determined by the up-conversion procedure is adjusted. a second position adjustment procedure for outputting,
A first signal including a horizontal synchronization signal and a first video signal embedded in a part of a horizontal scanning period, which is output by the up-conversion procedure, is input, and a horizontal synchronization signal of the first signal is extracted. Sync separation procedure,
The second output by the position adjustment procedure, a horizontal synchronizing signal, a second signal including a second image signal embedded in other partial period of a horizontal scanning period is input, it is extracted by the sync separation procedures A time control procedure for synchronizing the horizontal synchronization signal of the first signal and the second signal and outputting a second video signal;
A horizontal scanning period corresponding to the first signal including the first video signal is supplied in a partial period when a signal including the first signal output by the up-conversion procedure and the second video signal output by the time control procedure is supplied. A composite video signal creating procedure for creating a composite video signal for HDTV broadcasting by inserting a second video signal in other partial periods. A setting procedure for setting the positional relationship between the video of the broadcast information and the video of the additional information displayed on the receiver,
An HDTV first video signal obtained by up-converting an NTSC broadcast information video signal is input, and the position where the first video signal is present within the horizontal scanning period is adjusted according to the setting by the above-described setting procedure . A first position adjustment procedure for outputting a first signal;
A second video signal of additional information of the HDTV system is input, and a second position adjustment for outputting a second signal of the HDTV system by adjusting a position where the second video signal is embedded in the horizontal scanning period in accordance with the setting by the setting procedure. and procedures,
A first signal including a horizontal synchronizing signal and a first video signal embedded in a part of a horizontal scanning period output by the first position adjustment procedure is input, and a horizontal synchronizing signal of the first signal is input. Synchronous separation procedure to extract,
The second output by the position adjustment procedure, a horizontal synchronizing signal, a second signal including a second image signal embedded in other partial period of a horizontal scanning period is input, it is extracted by the sync separation procedures A time control procedure for synchronizing the horizontal synchronization signal of the first signal and the second signal and outputting a second video signal;
A signal including a first signal output by the first position adjustment procedure and a second video signal output by the time control procedure is supplied, and a horizontal period corresponding to the first signal including the first video signal in a partial period is supplied. A video processing program for causing a computer to execute a composite video signal creating procedure of creating a composite video signal for HDTV broadcasting by inserting a second video signal in other partial periods within a scanning period. Video signal of the broadcast information of the NTSC system is input, converts the video signal of the NTSC system to the first video signal of the HDTV system, the first video signal during a portion of the predetermined horizontal scanning period An up-conversion procedure for outputting an existing first signal ;
The second video signal of the HDTV system is input, and the position of embedding the second video signal in another part of the horizontal scanning period other than the part of the horizontal scanning period determined by the up-conversion procedure is adjusted. a second position adjustment procedure for outputting,
A first signal including a horizontal synchronization signal and a first video signal embedded in a part of a horizontal scanning period, which is output by the up-conversion procedure, is input, and a horizontal synchronization signal of the first signal is extracted. Sync separation procedure,
The second output by the position adjustment procedure, a horizontal synchronizing signal, a second signal including a second image signal embedded in other partial period of a horizontal scanning period is input, it is extracted by the sync separation procedures A time control procedure for synchronizing the horizontal synchronization signal of the first signal and the second signal and outputting a second video signal;
A horizontal scanning period corresponding to the first signal including the first video signal is supplied in a partial period when a signal including the first signal output by the up-conversion procedure and the second video signal output by the time control procedure is supplied. A video processing program for causing a computer to execute a composite video signal creating procedure of creating a composite video signal for HDTV broadcasting by inserting a second video signal in another partial period.

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