JP2591020B2 - Image signal delay detection device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for detecting a delay amount of an image signal from a movement amount of a screen.

[Conventional technology]

When receiving and digitizing a broadcast television signal and performing various processing, the digital processing is mainly performed on a video signal, and an audio signal is often processed by analog processing as in the related art.

However, when digitally processing a video signal, for example,
In Y / C separation, etc., pixels are compared between frames, between fields, between lines, and the like, and the motion of the screen is detected based on the magnitude of the luminance signal of the pixel, and which pixel is used to perform separation processing. In such a case, it takes a considerable amount of time to process the image signal, and may be significantly delayed from the audio signal.

[Problems to be solved by the invention]

Therefore, it is necessary to delay the audio signal in correspondence with the video signal, but as described above, the comparison pixels for Y / C separation vary according to the degree of movement, and therefore the delay of the image signal also varies. It is difficult to set the time for performing the delay processing of the audio signal.

The present invention has been made in view of such a point,
An object of the present invention is to enable a signal for delaying an audio signal to be easily obtained.

[Means for solving the problem]

For this purpose, the present invention provides a thinning processing unit that inputs working amount data indicating a difference between luminance signals in units of pixels compared between frames, between fields, between lines, and the like, and thins out the data. An accumulator circuit that accumulates the motion data after the thinning out and outputs a carry output for each predetermined accumulation and is reset, and counts the carry output of the accumulator circuit and resets it for each predetermined time to obtain the total motion amount. And a counter that outputs the quantified data as an image signal delay amount.

〔Example〕

Hereinafter, examples of the present invention will be described. FIG. 1 is a diagram showing one embodiment.

Reference numeral ₁ denotes the input of digital data k ₁ (including a still signal as, for example, “0000”) indicating the amount of motion in units of pixels as compared with each other between frames, between fields, between lines, and the like. And a motion signal thinning circuit for thinning out every predetermined pixel and every predetermined line. Clock [Phi _M is the pixel clock, the clock [Phi _L is the line (scanning line) count clock, m, n is the decimation factor. For example, if both m and n are 4, one pixel is sampled for three adjacent pixels in the line direction, two pixels are thinned out, and three pixels adjacent in the vertical direction are sampled.
One line is sampled and two lines are thinned out.

2 is a accumulation circuit for accumulating the motion data k ₁ after being punctured by the thinning circuit 1. The data k ₁ from one said thinning circuit 1 to the two addition input of the accumulator circuit 2 addition circuit, also constituted by inputting the sum output to the other input, the carry C "1" Output. The addition circuit is reset when a carry is output.

A counter 3 counts the carry output from the accumulation circuit 2. This count is the same as the thinning clock Φ _M / n of the thinning circuit 1 and the timing is adjusted. This count is calculated for each field (525/2 × Φ _L )
Is reset to obtain a count value for each field.

Therefore, data corresponding to the total amount of motion pixels per field, that is, data k ₂ quantifying the degree of motion of the field is obtained from the counter 3.

Therefore, if the delay time of the audio signal corresponding to the image signal being processed is set according to the signal from the counter 3,
The difference between the image and the sound can be eliminated. For example, if the data from the counter 3 is large, the image signal is delayed, so the audio signal is also delayed. Conversely, if the data is small, the image signal is small, so the delay of the audio signal is reduced. Is performed.

FIG. 2 is an explanatory diagram of the above-described thinning. Clock Φ
With four times the frequency f _sc of the color subcarrier of the _M, the pixel number of dots per line can be 910 dots. If the thinning coefficient is n = m = 3 as described above, the data to be collected will be the black circles in FIG. 2 and the white circles will be thinned out.

 The following table shows an example of quantification of actual thinning.

Here, the amount of movement from the counter 3 is
The fourth and fifth digits from the lower part of are extracted. The adoption criterion for this digit is determined based on the consideration of complete still images and complete moving images.

〔The invention's effect〕

As described above, according to the present invention, the amount of motion per field can be quantified to be the amount of delay of the image signal, so that the delay processing of the audio signal can be performed according to the delay of the image signal. become.

[Brief description of the drawings]

FIG. 1 is a block diagram for quantifying the amount of image motion according to one embodiment of the present invention, and FIG. 2 is an explanatory diagram of thinning.

Claims (1)

(57) [Claims] 1. A thinning-out processing unit for inputting motion amount data indicating a difference of a luminance signal of a pixel unit compared between frames, between fields, between lines, and the like, and thinning out the thinning-out data obtained by the thinning-out processing unit An accumulator circuit that accumulates the subsequent motion data and outputs a carry output every predetermined accumulation, and is reset. The carry output of the accumulator circuit is counted and reset every predetermined time to quantify the total motion amount. A counter for outputting the obtained data as an image signal delay amount, and an image signal delay detection device.