KR100197591B1 - Aspect ratio detection method of image signal - Google Patents

Abstract

The aspect ratio detection method of an image signal is to automatically detect an aspect ratio of a composite image signal, and to adjust the aspect ratio of the composite image signal using the same. The method of the present invention receives digital data according to the brightness level of a luminance signal from a composite video signal encoded with a constant aspect ratio, and when a first vertical synchronous signal separated from the composite video signal is applied, A signal detection step of checking whether there is the digital data on all horizontal lines for each of a predetermined frame, and if a second vertical synchronous signal separated from the composite video signal is applied, based on the signal presence determination of the signal detection step. Determining a signal start line and a signal line width for the composite video signal, and determining an aspect ratio of the input composite video signal based on the signal start line and the signal line width determined in the determining step. Therefore, the method of the present invention can automatically detect the aspect ratio of the input composite video signal in executing the autolive function for switching the aspect ratio, so that it is possible to automatically execute the correct autoliv function. have.

Description

Aspect ratio detection method of video signal

1 is a screen state diagram showing an example of converting an aspect ratio of a composite video signal encoded with a 2: 1 aspect ratio to an aspect ratio of 16: 9.

2 is a view for explaining the input and output relationship of the signal in the microcomputer (ZILOG company Z86E08) used in accordance with a preferred embodiment of the present invention.

3 is a conceptual diagram showing the maximum value of the start line and the minimum value of the signal line width in the aspect ratio detection method of an image signal according to the present invention.

4 is a flowchart illustrating an interrupt of an odd field horizontal synchronization signal in the method of the present invention.

5 is a flowchart illustrating an interrupt of an even field vertical synchronization signal in the method of the present invention.

The present invention relates to a method for detecting an aspect ratio of an image signal, and more particularly, to a method for detecting an aspect ratio of an image signal that enables the detection of an aspect ratio of a composite image signal input to an image display device using a microcomputer (ZILOG Corporation Z86E08, etc.). It is about.

In accordance with the trend toward larger and more versatile television screens, there is a tendency to adopt a television receiver having a 16: 9 aspect ratio that can enhance the realism of the screen. However, most existing video programs are encoded with a 4: 3 aspect ratio, and a cinemascope is configured with a 2: 1 aspect ratio. Therefore, a composite video signal having an aspect ratio of 4: 3 or 2: 1 is 16: 9. In the case of displaying on a wide screen, the aspect ratio of the video signal must be switched to 16: 9 by performing predetermined data processing on the input composite video signal. Due to this necessity, an Autolive function for switching the aspect ratio of an image program to match the aspect ratio of the screen has been proposed. The autorib function converts the aspect ratio of the composite video signal encoded in the aspect ratio such as 2: 1 or 16: 9 into a full size of the corresponding screen or a corresponding screen. The above-described autorib function includes a function of detecting an aspect ratio of an input composite video signal and an ARC (Aspect Ratio Control) function for converting the detected screen value into an aspect ratio suitable for the aspect ratio of the screen.

Conventionally, in executing the autorib function, the ARC unit includes switching modes for expanding a composite video signal encoded at aspect ratios such as 2: 1, 4: 3, and 16: 9 to fit the screen size. When the user selects the switching mode to execute the ARC function, that is, when a composite video signal composed of a screen ratio different from the aspect ratio of the screen is input, when the user selects a corresponding switching mode among preset aspect ratio switching modes, The aspect ratio of the composite video signal is adjusted according to the switching mode. At this time, a method of detecting the aspect ratio of the currently input composite video signal is not presented. Therefore, when the user does not know the aspect ratio of the composite video signal currently input, accurate aspect ratio adjustment cannot be performed, and even if the aspect ratio is known, the user has to select a corresponding aspect ratio switching mode.

Accordingly, an object of the present invention to solve such a problem is to provide an aspect ratio detection method of an image signal to automatically detect the aspect ratio of the input composite video signal, and to adjust the aspect ratio of the composite video signal using the same. .

The aspect ratio detection method of a video signal according to the present invention for achieving the above object is a method for detecting the aspect ratio of a composite video signal encoded with a constant aspect ratio, the digital signal according to the brightness level of the luminance signal from the input composite video signal Receiving data; A signal detecting step of checking whether the digital data is present on all horizontal lines for each of a predetermined frame of the composite video signal when a first vertical synchronization signal separated from the composite video signal is applied; Determining a signal start line and a signal line width for the composite video signal based on a signal presence determination in the signal detection step when a second vertical synchronization signal separated from the composite video signal is applied; And determining the aspect ratio of the input composite video signal using the signal start line and the signal line width determined in the determining step.

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

FIG. 1 is a screen state diagram showing an example of converting an aspect ratio of a composite video signal encoded with a 2: 1 aspect ratio to an aspect ratio of 16: 9. As described above, the method of the present invention detects an aspect ratio of a composite video signal. A microcomputer is used for this purpose, and the microcomputer (Z86E08) shown in FIG. 2 is used here.

(Z86E08) Microcom is an 8-bit microcomputer from ZILOG, which has 2K bytes of ROM and 124 bytes of RAM. 2 is a view for explaining the input and output relationship of the signal in ZILOG company Z86E08 (hereinafter referred to as micom) used in accordance with a preferred embodiment of the present invention. As shown in FIG. 2, the microcomputer used in the present invention is horizontal and vertical separated from the auto rib request signal (hereinafter referred to as ALR 33) and the composite video signal for requesting the execution of the above-described auto rib function. A synchronization signal (H, Vsync) is input (31, 32 steps), and the aspect ratio of the corresponding composite video signal is detected using the same. In addition, the microcomputer used in the present invention also uses the high-order three-bit luminance signal data Y ₅ , Y ₆ , and Y ₇ among the luminance signals obtained by A / D conversion of the luminance signal Y separated from the composite video signal packet to detect the aspect ratio. ) Is configured to receive (21, 22, 23). The aspect ratio detected through the microcomputer is output to the ARC unit (00, 01, 02 stages). In the present invention, since only the three interrupts described above are used, a description of the other components is omitted.

A method of detecting an aspect ratio of a composite video signal using the aforementioned microcomputer will be described in detail with reference to FIGS. 2 to 5.

Since the composite video signal is reproduced in units of frames, in order to detect the aspect ratio of the input composite video signal, it is necessary to check whether a signal exists for all horizontal lines of the currently input frame. First, when the above-described auto rib request signal ARL is applied from outside, the microcomputer enables the Vsync interrupt by an external interrupt and waits for the input of the vertical synchronization signal. At this time, the microcomputer outputs a confirmation signal ACK indicating that the auto rib request signal ARL has been applied (25 stages). When the first (odd) vertical synchronization signal is applied to each frame of the composite video signal, the microcomputer enables the Hsync interrupt to receive the horizontal synchronization signal of the composite video signal, and corresponds to the horizontal section of the received horizontal synchronization signal. The luminance signal Y is sampled at an appropriate number of times to determine whether a signal is present on the current line. When the second (even) vertical synchronization signal of each frame is applied, the microcomputer disables the Hsync interrupt, stores the horizontal line first determined to be the signal as the start line of the frame, and the horizontal level judged to be the signal. Count and store the number of lines. The above-described process is shown in a flowchart in FIG.

4 is a flowchart illustrating an interrupt of an odd field horizontal synchronization signal in the method of the present invention. As shown, when the Hsync interrupt is enabled and the horizontal synchronization signal of the corresponding field is applied (step 10), the microcomputer uses the above-described luminance signal at an arbitrary time point (hereinafter, referred to as a sampling point) of the current horizontal line. Sample the data (Y ₅ , Y ₆ , Y ₇ ) (step 11). Sampling is repeated a suitable number of times within the horizontal scanning interval. Then, the microcomputer determines whether the aforementioned luminance signal data (Y ₅ , Y ₆ , Y ₇ ) has been detected according to the sampling result (step 12). For the horizontal line where the luminance signal data (Y ₅ , Y ₆ , Y ₇ ) is detected at the sampling point, it is determined as the line with the signal (hereinafter referred to as the signal line), and the luminance signal data (Y ₅ ) for all sampling points. , Y ₆ , Y ₇ ) is determined as no signal for the horizontal line. Then, the microcomputer checks whether a start line display flag is set for the aforementioned signal line (step 14). Here, the start line display flag is a signal that is determined to determine the signal line first detected in the current field as the start line of the current frame, and is set to display the same. That is, when the first signal line is applied to each frame as a result of the above-described inspection (step 14), the signal line is determined as the start line of the current frame and stored, and the above-described start line display flag is set (step 15). ), Since the start line display flag is already set for the signal lines detected after the above-described start line, the number is counted (step 16). Then, the microcomputer repeats the process of FIG. 4 until the second (even) vertical synchronization signal of the corresponding frame is applied to determine the number of signal lines in the corresponding frame, and stores it as the signal line width of the corresponding frame. do. At this time, in the present invention, in determining whether there is a signal on the horizontal line, the maximum value of the start line and the minimum value of the signal line width are set in consideration of an error in the signal presence determination due to sampling. 3 is a conceptual diagram showing the maximum value of the start line and the minimum value of the signal line width in the aspect ratio detection method of an image signal according to the present invention. As shown in FIG. 3, when a horizontal line having a line number larger than the maximum value MAX of the start line is determined as the start line, or a signal line width smaller than the minimum value MIN of the signal line width is determined. Ignores the start line and signal line widths in the frame, and detects and stores the start line and signal line widths of the next frame. This takes into account that even if a signal is present on the horizontal line, the screen brightness is very dark so that the aspect ratio may be judged incorrectly when the above-described luminance signal data Y ₅ , Y ₆ and Y ₇ are not detected.

When the widths of the start line and the signal line in the corresponding frame are detected through the operation of FIG. 4, the aspect ratio of the current frame may be detected. However, in order to detect the aspect ratio of the composite video signal, the operation of FIG. 4 should be performed on a plurality of frames, and the final aspect ratio should be determined by comparing the widths of the start line and the signal line detected from the plurality of frames. Here, an example in which the above-described operation is performed on eight frames will be described.

5 is a flowchart illustrating an interrupt of an even field vertical synchronization signal in the method of the present invention. As described above, when the second (even) vertical synchronization signal of each frame is applied (step 20), the Hsync interrupt is disabled, and the start line and signal line width of the frame are sequentially stored in eight buffers. .

That is, the microcomputer sequentially stores the start line and the signal line width in eight buffers for the eight frames, respectively (step 21). The microcomputer then compares whether the starting line values stored in the eight buffers are the same (step 22). As a result of the comparison in step 22, if the start line values stored in the eight buffers are not the same, the current Vsync interrupt is terminated and the Vsync interrupt for the next frames is executed. If the start line values stored in the eight buffers are the same as the result of the comparison in step 22, the start line value is determined as the line value of the composite video signal (step 23).

When the start line value of the composite video signal is determined, the microcomputer compares whether the signal line widths stored in the eight buffers are the same (step 24). As a result of the comparison in step 24, if the signal line widths stored in the eight buffers are not the same, the current Vsync interrupt is terminated and the Vsync interrupt for the next frames is executed.

On the other hand, as a result of the comparison in step 24, if the signal line widths stored in the eight buffers are the same, the signal line width is determined as the signal line width of the composite video signal (step 25). Then, the microcomputer can finally determine the aspect ratio of the composite video signal using the start line value determined in step 23 and the signal line width determined in step 25.

As described above, the aspect ratio detection method of the video signal according to the present invention can automatically detect the aspect ratio of the composite video signal input to the video playback device using a microcomputer. Therefore, in the method of the present invention, the aspect ratio of the input composite video signal can be automatically detected in executing the autorib function, thereby making it possible to automatically execute the correct autorib function.

Claims (4)

A method of detecting an aspect ratio of a composite video signal encoded at a constant aspect ratio, the method comprising: receiving digital data according to a brightness level of a luminance signal from an input composite video signal; A signal detecting step of checking whether the digital data is present on all horizontal lines for each of a plurality of frames of the composite video signal when a first vertical synchronization signal separated from the composite video signal is applied; Determining a signal start line and a signal line width for the composite video signal based on a signal presence determination in the signal detection step when a second vertical synchronization signal separated from the composite video signal is applied; And determining the aspect ratio of the input composite video signal based on the signal start line and the signal line width determined in the determining step. The method of claim 1, wherein the detecting of the signal comprises: receiving a vertical synchronization signal of a first field for each frame with respect to the input composite video signal; Receiving a horizontal synchronization signal in a field according to the vertical synchronization signal, and sampling the digital data at a predetermined number of times at any point on all horizontal lines according to the horizontal synchronization signal; And as a result of the sampling, it is determined that there is a signal for the horizontal line where the digital data is detected at one or more sampling points, and that there is no signal for the horizontal line where the digital data is not detected for all sampling points. Aspect ratio detection method of a video signal, characterized in that consisting of steps. The method of claim 1, wherein the determining of the signal start line and the signal line width comprises: receiving a vertical synchronization signal of a second field for each frame to the input composite video signal; In each frame, the horizontal line from which the digital data is first detected is determined as a signal start line, and the signal start line for each frame is counted by counting the horizontal lines from the signal start line to the number of horizontal lines from which the digital data was last detected. Storing the counted horizontal lines; And compare whether the stored signal start line for each frame is the same value, and if the same value is the same, determine if the signal start line for the input composite video signal is the same, and if the number of horizontal lines stored for each frame is the same value. And comparing the same value to determine the signal line width of the input composite video signal. 4. The method of claim 1 or 3, wherein the determining of the signal start line and the signal line width of the composite video signal is classified into second if the signal start line stored for each frame is not the same value. After repeating the above-described steps for the next frame and comparing each signal start line for each frame with the same value, if it is the same value, the signal start line for the input composite video signal is determined. And comparing the number of horizontal lines stored for each of the second classified frames with the same value, and repeating the above-described steps for the next next classified frame, if the same value is not the same. An aspect ratio detection method of a video signal to be performed.