KR0138100B1 - Vertical resolution improving apparatus of television image signal - Google Patents

Abstract

The apparatus for improving the vertical resolution of a television video signal includes a converter for converting an analog video luminance signal into digital image luminance data, a frame memory for storing the output of the converter in frame size to generate one frame delayed image luminance data, and a converter and a frame. A subtractor that subtracts the output of the memory to generate a difference signal, an absolute value converter that converts the output of the subtractor to an absolute value, and an output of the absolute value converter and the reference level are judged to determine whether there is a picture or not. The moving picture discrimination unit generating one control signal and generating a second control signal, a horizontal delay unit for delaying the output of the converter by a predetermined horizontal input, and outputs of the converter and the horizontal delay unit are inputted. When the first control signal is selected, the output of the converter and the horizontal delay unit is sequentially selected and output. It consists of a multiplexer which selects and outputs the output from the ventilation.

Description

Vertical resolution improvement device for TV video signal

The present invention relates to an apparatus for improving the vertical resolution of a television video signal, and more particularly, to an apparatus capable of improving the vertical resolution by extending the number of horizontal scanning lines of a television video signal.

In general, the NTSC television video signal uses the interlace mode as shown in FIG. 1, where one frame consists of 525 horizontal lines of two fields, and one field consists of 262.5 horizontal lines. Is done. However, the video signal of one screen is composed of 525 horizontal lines, but the camcorder or video cassette recorder (VCR) that reproduces the NTSC video signal has 350 horizontal lines-400 horizontal lines among the 525 horizontal lines. Play the signal.

Currently, in a video device such as a television receiver, a method of improving horizontal resolution and vertical resolution has been studied to improve the quality of a received video signal. In this case, the horizontal resolution is determined by the number of pixels constituting the horizontal line, and a method for improving the horizontal resolution is to increase the horizontal resolution by interpolation between the pixels constituting the image screen. In addition, the vertical resolution of the video signal is determined by the horizontal frequency, that is, the number of horizontal lines, and there is a problem that the vertical resolution is relatively lowered due to the increase of the current horizontal resolution.

Accordingly, an object of the present invention is to provide an apparatus for detecting an image of an entire frame in an apparatus for reproducing a television video signal, and for improving vertical resolution by interpolating horizontal lines on a frame-by-frame basis during a moving image.

According to an embodiment of the present invention, an apparatus for improving a vertical resolution of a television video signal includes a converter for converting an analog video luminance signal into digital image luminance data, and storing the output of the converter in a frame size to delay one frame. A frame memory for generating image luminance data, a subtractor for generating a difference signal by subtracting the outputs of the converter and the frame memory, an absolute value converting unit for converting the output of the subtractor to an absolute value, and an output and reference of the absolute value converting unit. A moving picture discrimination unit for determining whether there is a moving picture by comparing the levels, generating a first control signal during the moving picture, and otherwise generating a second control signal, and a horizontal delay unit for delaying a predetermined horizontal output of the converter; Inputting the output of the transducer and the horizontal delay unit and outputting the first control signal Selecting and outputting the output of the converter and the number of flats in order to smoke is characterized in that the second control when multiplayer configured to each other and outputting the selected output of the transducer signal.

1 is a diagram for explaining an interlaced scanning method of a television video signal.

2 is a view for explaining the interlaced scanning method according to an embodiment of the present invention

3 is a diagram showing the configuration of an apparatus for improving the vertical resolution of a television video signal according to an embodiment of the present invention;

4 is a diagram showing a position of a synchronization signal between each field of a television video signal according to an embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

1: A / D converter 2: frame memory

3: subtractor 4: absolute value converter

5: moving picture discrimination unit 6: gate

7: horizontal retarder 8: multiplexer

FIG. 2 is a diagram illustrating an interlaced scanning method of a television video signal according to an embodiment of the present invention, which shows that one screen is composed of 1050 horizontal lines of four fields by increasing the number of horizontal lines according to the state of the screen.

3 illustrates a configuration in which the vertical resolution is improved by increasing the number of horizontal lines as shown in FIG. 2 according to an embodiment of the present invention.

Referring to FIG. 3, the A / D converter 1 converts the luminance signal Y of the analog image signal into digital luminance data. The frame memory 2 stores digital image data output from the A / D converter 1 in units of frames. The subtractor 3 subtracts the video data output from the A / D converter 1 and the output of the frame memory 2 delayed by one frame. The absolute value converter 4 converts the output of the subtractor 3 into an absolute value. The moving picture discrimination unit 5 determines whether there is a moving picture by inputting the output, and when it is above a predetermined level, the moving picture discriminator 5 generates a first control signal and generates a second control signal. The gate 6 inputs the output of the moving picture discriminator 5 and the frame discrimination signal to generate a first selection signal or a second selection signal. The horizontal delay unit 7 delays the horizontal position of the output of the A / D converter 1 by 1/4 horizontal frequency. The multiplexer 8 inputs the output of the horizontal delay unit 7 and the A / D converter 1, and selects the output of the A / D converter 1 or the output image data of the horizontal delay unit 7 according to the selection signal of the gate 6. Output

4 is a diagram illustrating the position of the synchronization signal of each field signal with respect to the vertical synchronization signal, and shows that the first horizontal synchronization signal is generated differently in four fields after the equalization pulse.

An embodiment of the present invention will be described based on the configuration of FIGS. 2 to 4 described above.

In general, the NTSC video signal uses the interlaced scanning method, and the horizontal synchronization signal has a difference of about 1/2 horizontal frequency (hereinafter referred to as f _H ) based on the vertical synchronization signal. That is, as shown in FIG. 1, it can be seen that the horizontal lines of the first field and the second field are scanned to have a difference of about 1 / 2f _H. In the embodiment of the present invention, horizontal line image data of the first field is delayed by 1/4 f _H period to generate horizontal line data of the third field, and horizontal line image data of the second field is delayed by 1/4 f _H period. By generating the horizontal line data of the fourth field, the vertical resolution is improved by configuring one screen signal into four fields.

It looks at the implementation process of the embodiment of the present invention as described above in detail.

First, the analog luminance signal Y is converted into digital image data through the A / D converter 1, and then simultaneously applied to the second input terminal B of the frame memory 2, the subtractor 3, the horizontal delay unit 7, and the multiplexer 8. Therefore, the frame memory 2 stores the luminance signal corresponding to the video signal of one frame, and the signal applied to the subtractor 3 output from the frame memory 2 becomes data before one frame. At this time, the subtractor 3 subtracts the data of the current frame output from the A / D converter 1 and the data of the previous frame output from the frame memory 2 to generate a video signal difference between the two frames. The absolute value converter 4 converts the difference value of the video signal output from the subtractor 3 into an absolute value and outputs it as a positive signal.

The signal output from the absolute value converting section 4 is applied to the moving picture discriminating section 5 to determine whether the video signal is a motion signal or a still signal. The moving picture discriminating unit 4 compares the output of the absolute value converting unit 4 with a predetermined reference level and determines whether there is a moving picture. If the output level of the absolute value converting unit 4 is larger than the reference level, the moving image determining unit 4 determines that the moving picture is the first control. A signal is generated, and when the output level of the absolute value converting section 4 is smaller than the reference level, it is determined as a still image to generate a second control signal.

The output of the moving picture discrimination unit 5 is applied to one input terminal of the gate 6, and a frame division signal is input to the multiple input terminal of the gate 6. Accordingly, the gate 6 generates a first selection signal or a second selection signal according to the output state of the frame division signal and the moving picture discrimination unit 6. That is, the gate 6 generates a first control signal from the moving picture discrimination unit 5 and generates a first selection signal if the frame division signal is high logic, and outputs the first selection signal to the selection terminal of the multiplexer 8. When the second control signal is generated or the frame division signal is low logic, a second selection signal is generated and output to the selection terminal of the multiplexer 8.

Second, the operation of improving the vertical resolution according to the state of the video signal will be described.

The output of the A / D converter 1 is applied to the second input terminal B of the multiplexer 8 and to the horizontal delay unit 7 at the same time. At this time, the horizontal delay unit 7 delays the output of the A / D converter 1 by a 1/4 f _H period and applies it to the first input terminal A of the multiplexer 8. In this case, the horizontal delayer 7 delays the first field video signal and the second field video signal constituting one frame video signal by 1/4 f _H periods, respectively, and the delayed signals are respectively the third field and the fourth field video. Used as a signal.

Then, the multiplexer 8 selects the output of the horizontal delay unit 7 or the output of the A / D converter 1 based on the selection signal output from the gate 6. At this time, when the selection signal output from the gate 6 is output as the second selection signal-> first selection signal-> second selection signal-> first selection signal, the multiplexer 8 is connected to the A / D converter 1 by the selection signal. Output (first field video signal) → horizontal delay delay 7 output (third field video signal) → A / D converter 1 output (second field video signal) → horizontal delay delay 7 output (fourth field video signal) To print.

Referring to the vertical synchronization signal of the video signal of one frame, as shown in FIG. 4, the first horizontal sync signal is different from the first field to the fourth field after the equalization pulse is generated. Looking at the seventh horizontal line synchronization time as a reference will have the characteristics shown in Table 1.

Accordingly, it can be seen that the first field and the fourth field each have a 1/4 f period difference, and since the number of horizontal scan lines is doubled since one frame includes four fields. Therefore, the vertical resolution of the television image is improved.

As described above, after converting the image luminance signal into digital data and storing it in the frame memory 2, comparing the current frame data with the previous frame data stored in the frame memory 2, if the difference between the data values of the two frames is large, it is determined as the same picture. do. In this case, when the video signal is determined to be a moving picture video signal, the first field and the second field video signal are output as they are, and the third field and the fourth field shifting the horizontal sync position by only 1/4 f while leaving the vertical sync position as it is. Generates a video signal of. Therefore, since a video signal of one frame is generated as a video signal of four fields, the number of horizontal lines is increased, thereby improving the vertical resolution. At this time, if the moving picture portion of the frame video signal is smaller than the set value, the corresponding picture signal is output as it is.

As described above, after detecting the presence or absence of the moving picture during the processing of the television video signal, in the case of the moving picture, the first field video signal and the second field video signal are delayed by 1/4 f period based on the vertical synchronizing signal and the third field is A video signal and a fourth field video signal are generated, and a one-frame video signal consisting of four field video signals is generated using these field video signals. Accordingly, the vertical resolution may be improved by extending the 525 horizontal line video signal of one frame to 1050 horizontal line video signals.

Claims (2)

In the device for improving the vertical resolution of a television video signal, A converter for converting an analog image luminance signal into digital image luminance data, a frame memory for storing the output of the converter in a frame size and generating image luminance data delayed by one frame; A subtractor for generating a difference signal by subtracting outputs of the converter and frame memory; An absolute value converter for converting the output of the subtractor to an absolute value; A moving picture discrimination unit comparing the output of the absolute value converting unit with a reference level to determine whether there is a moving picture, generating a first control signal when the moving picture is the same, or generating a second control signal; A horizontal delay unit for delaying a predetermined horizontal output of the transducer; The output of the transducer and the horizontal delay unit is input, and the output of the transducer and the horizontal delay unit is sequentially selected and output when the first control signal is output by the output of the moving picture discriminator, and the output of the transducer is selected when the second control signal is output. The apparatus for improving the vertical resolution of a television video signal, characterized in that it comprises a multiplexer for output. The apparatus of claim 1, wherein the horizontal delay unit delays the output of the converter by a quarter horizontal period.