JP2000050200A - Device and method for detecting copy prohibition signal and computer readable storage medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely detect a copy prohibition signal by a pseudo-horizontal synchronizing signal from an inputted video signal. SOLUTION: A composite synchronizing signal of a video signal to which synchronizing tip clamp is performed is separated by a synchronizing signal separating circuit 102, vertical and horizontal synchronizing signals of the video signal are simultaneously detected by vertical and horizontal synchronizing signal detecting circuits 103, 104. A pulse is generated in a horizontal synchronizing period in a vertical blanking period based on these synchronizing signals by a timing generating circuit 106. The composite synchronizing signal is integrated for a period of the pulse by an integration circuit 107. Since this integrated output becomes larger when the pseudo-horizontal synchronizing signal exists in the period of the pulse than when no pseudo-horizontal synchronizing signal exists in the period of the pulse, presence/absense of the pseudo-horizontal synchronizing signal is judged based on the integrated output by a judging circuit 108.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for detecting a copy inhibition signal comprising a pseudo horizontal synchronizing signal inserted in a video signal, and a computer-readable storage medium used in the apparatus and method. Things.

[0002]

2. Description of the Related Art Conventionally, in order to prohibit a video signal from being copied by a VTR or the like, a copy prohibition signal (macro vision signal) is inserted into the video signal. In a VTR, when a copy prohibition signal is detected during recording, the recording operation is automatically restricted to protect the copyright or the like of the video.

[0003] As a copy prohibition signal, a signal in which a pseudo horizontal synchronizing signal is inserted into a video signal is known. As a general feature of the copy prohibition signal based on the pseudo horizontal synchronizing signal, a pseudo horizontal synchronizing signal is inserted in addition to the normal horizontal synchronizing signal in a predetermined period of the horizontal synchronizing period during the vertical blanking period of the video signal. That is.

[0004]

However, in a conventional VTR or the like for inputting an analog video signal, recording is performed on the video signal into which the pseudo horizontal synchronizing signal is inserted without detecting the pseudo synchronizing signal. There is something that
For this reason, it was difficult to perform more advanced copy management.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and has as its object to reliably detect a copy inhibition signal based on a pseudo horizontal synchronizing signal.

[0006]

In order to achieve the above object, in a copy inhibition signal detecting apparatus according to the present invention, a separating means for separating a composite synchronizing signal from a video signal, and a vertical blanking period of the video signal are provided. Integral means for integrating the composite synchronizing signal during the horizontal synchronizing period, and judging means for judging the presence or absence of a copy prohibition signal by the pseudo horizontal synchronizing signal in the horizontal synchronizing period based on the integrated output of the integrating means. .

In another copy inhibition signal detecting apparatus according to the present invention, a count means for counting data smaller than a predetermined value of a digital video signal during a horizontal synchronization period of a vertical blanking period, and a count value of the count means. Determining means for determining the presence or absence of a copy inhibition signal based on the pseudo horizontal synchronization signal in the horizontal synchronization period based on the above.

In the method for detecting a copy inhibition signal according to the present invention, a procedure for separating a composite synchronization signal from a video signal, a procedure for integrating the composite synchronization signal during a horizontal synchronization period of a vertical blanking period of the video signal, and Determining the presence or absence of a copy prohibition signal based on the pseudo horizontal synchronization signal in the horizontal synchronization period based on the integration output.

In another copy inhibition signal detection method according to the present invention, a procedure for counting data smaller than a predetermined value of a digital video signal in a horizontal synchronization period of a vertical blanking period, and the method of counting horizontal data based on the count value. Determining whether or not there is a copy inhibition signal based on the pseudo horizontal synchronization signal in the synchronization period.

In the storage medium according to the present invention, a process for separating a composite synchronization signal from a video signal, a process for integrating the composite synchronization signal during a horizontal synchronization period of a vertical blanking period of the video signal, A program for executing a process of determining the presence or absence of a copy inhibition signal based on the pseudo horizontal synchronization signal in the horizontal synchronization period based on the integrated output.

In another storage medium according to the present invention, data smaller than a predetermined value of a digital video signal is counted in a horizontal synchronization period of a vertical blanking period, and pseudo data in the horizontal synchronization period is calculated based on the count value. And a program for executing a process of determining the presence / absence of a copy inhibition signal based on the horizontal synchronization signal.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a copy inhibition signal detecting device according to the first embodiment of the present invention. In FIG. 1, an input video signal is supplied to a clamp circuit 101.
Is sync tip clamped. The sync-clamp-clamped video signal is compared with a predetermined voltage by the sync separation circuit 102 to become a binary composite sync signal. In this case, if a pseudo horizontal synchronizing signal is inserted for copy protection processing, a composite synchronizing signal including the pseudo horizontal synchronizing signal is obtained.

In FIG. 2, J is a composite synchronizing signal, A to E are a part of J enlarged, A is a waveform when a pseudo horizontal synchronizing signal is not inserted, and B is a pseudo horizontal synchronizing signal inserted. FIG.

Next, a vertical synchronizing signal is detected by the vertical synchronizing signal detecting circuit 103 from the composite synchronizing signal.
The horizontal synchronization signal is detected by the horizontal synchronization signal detection circuit 104. At this time, the horizontal synchronizing signal detecting circuit 104 is prohibited from detecting the horizontal synchronizing period in the vertical retrace including the pseudo horizontal synchronizing signal by the window signal from the window signal generating circuit 105. The window signal generation circuit 105 generates a window signal from the detected horizontal synchronization signal. In FIG. 2, D is a horizontal synchronizing signal detected excluding the pseudo horizontal synchronizing signal, and C is a window signal.

The timing generation circuit 106 generates an integration reset signal from the vertical synchronization signal. In FIG. 2, K is an integration reset signal. Further, in the case of the NTSC system, the timing generation circuit 106 determines, from the vertical synchronization signal and the horizontal synchronization signal excluding the pseudo horizontal synchronization signal,
In each of the horizontal synchronization periods 12H to 19H and 275H to 282H during the vertical retrace, a plurality of detection pulses excluding the horizontal synchronization signal portion are generated. E and L in FIG. 2 are detection pulses. The timing generation circuit 106 further generates a determination pulse after the detection pulse. M in FIG. 2 is a determination pulse.

The integration circuit 107 is reset by the integration reset signal, and integrates the composite synchronization signal during the valid period of the detection pulse. The integrated output when the pseudo horizontal synchronizing signal is inserted during the valid period of the detection pulse is different from the integrated output when the pseudo horizontal synchronizing signal is not inserted. The solid line of F in FIG. 2 indicates the integrated output when the pseudo horizontal synchronizing signal is inserted, and the broken line indicates the integrated output when the pseudo horizontal synchronizing signal is not inserted.

Next, the decision circuit 108 makes a decision by comparing the integrated output with a predetermined voltage, and latches the decision result with the decision pulse. When the latched determination result indicates that the pseudo horizontal synchronizing signal has been inserted, the control circuit 109 stops or inhibits the recording operation of the VTR.

FIG. 3 shows a copy inhibition signal detecting device according to a second embodiment of the present invention. In FIG. 3, the input video signal is sync-chip clamped by a clamp circuit 201. The sync tip clamped video signal is compared with a predetermined voltage by a sync separation circuit 209 to become a binarized composite sync signal.
In this case, if a pseudo horizontal synchronizing signal is inserted for copy protection processing, a composite synchronizing signal including the pseudo horizontal synchronizing signal is obtained.

In FIG. 4, J is a composite synchronizing signal, A to E are a part of J, and A is a waveform when no pseudo horizontal synchronizing signal is inserted, and B is a pseudo horizontal synchronizing signal inserted. FIG.

Next, a vertical synchronizing signal is detected from the composite synchronizing signal by the vertical synchronizing signal detecting circuit 210,
The horizontal synchronization signal is detected by the horizontal synchronization signal detection circuit 211. At this time, the horizontal synchronizing signal detecting circuit 211 is prohibited from detecting the horizontal synchronizing period including the pseudo horizontal synchronizing signal during the vertical retrace by the window signal from the window signal generating circuit 212. The window signal generation circuit 212 generates a window signal from the detected horizontal synchronization signal. In FIG. 4, D is a horizontal synchronizing signal detected excluding the pseudo horizontal synchronizing signal, and C is a window signal.

On the other hand, the Y / C separation circuit 202 separates the sync tip clamped video signal into a luminance signal Y and a chrominance signal C. The clock generation circuit 207 has the function of 3.37
A 5 MHz clock is generated and supplied to the A / D conversion circuit 203 and the counter circuit 204.

The timing generation circuit 208 generates an integration reset signal from the vertical synchronization signal. In FIG. 4, K is an integration reset signal. In the case of the NTSC system, the timing generation circuit 208 removes the horizontal synchronizing signal portion from the vertical synchronizing signal and the horizontal synchronizing signal excluding the pseudo horizontal synchronizing signal in the period of 12H to 19H and 275H to 282H in the case of the NTSC system. Generate multiple detection pulses.
E and L in FIG. 4 are detection pulses. The timing generation circuit 208 further generates a determination pulse after the detection pulse. M in FIG. 4 is a determination pulse.

The A / D conversion circuit 203 A / D converts the video signal from the Y / C separation circuit 202 using the clock to generate video data. The counter circuit 204
When the video data is initialized by a vertical synchronization signal and the video data is smaller than a predetermined value, the clock is counted during the valid period of the detection pulse. In this case, when the pseudo horizontal synchronizing signal is inserted, the value of the data in the pseudo horizontal synchronizing signal portion of the video data becomes smaller than a predetermined value, so that the counting is performed more than when no pseudo horizontal synchronizing signal is inserted.

In FIG. 4, the solid line F indicates the count value when the pseudo horizontal synchronizing signal is inserted, and the count value when the broken line is not inserted.

Next, the judgment circuit 205 makes a judgment by comparing the count value with a predetermined value, and latches the judgment result with the judgment pulse. When the latched determination result indicates that the pseudo horizontal synchronizing signal has been inserted, the control circuit 209 stops or prohibits the recording operation of the VTR.

Next, a storage medium according to the present invention will be described. An object of the present invention can be realized by a computer system including a storage medium and a CPU. That is, a storage medium storing a program code of software for realizing each of the above-described embodiments is used in a system or an apparatus,
The present invention can also be achieved by reading and executing the program code stored in the storage medium by a CPU of the system or the device. In that case, the program code itself read from the storage medium implements the functions of the above-described embodiments, and the storage medium storing the program code constitutes the present invention.

As the storage medium, ROM, R
Semiconductor memory such as AM, optical disk, magneto-optical disk,
A magnetic medium or the like may be used, and these may be configured and used in a CD-ROM, a floppy disk, a magnetic medium, a magnetic card, a nonvolatile memory card, or the like.

Therefore, this storage medium is used in a system or apparatus other than the system or apparatus shown in FIGS. 1 and 3, and the system or computer reads out and executes the program code stored in this storage medium. Accordingly, the same functions as those of the above-described embodiments can be realized, the same effects can be obtained, and the object of the present invention can be achieved.

An OS running on a computer
When performing part or all of the processing, or after the program code read from the storage medium is written to a memory provided in an extended function board or an extended function unit connected to the computer, Even when the CPU or the like provided in the above-mentioned extended function board or extended function unit performs a part or all of the processing based on the instruction of the program code, the same functions as those of the embodiments can be realized and the same effects can be obtained. Can be obtained, and the object of the present invention can be achieved.

[0030]

As described above, according to the present invention,
By integrating the composite synchronizing signal during the period in which the pseudo horizontal synchronizing signal is inserted, or by counting a value smaller than a predetermined value of the digital video signal, a copy inhibition signal due to the pseudo horizontal synchronizing signal can be reliably detected. . By controlling the recording operation of the VTR based on this detection, the copy management of the video signal can be performed more sophisticatedly.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of a copy inhibition signal detection device according to the present invention.

FIG. 2 is a timing chart showing the operation of the first embodiment.

FIG. 3 is a block diagram illustrating a copy inhibition signal detection apparatus according to a second embodiment of the present invention.

FIG. 4 is a timing chart showing the operation of the second embodiment.

[Explanation of symbols]

 101, 201 Clamp circuit 102, 209 Sync separation circuit 103, 210 Vertical synchronization signal detection circuit 104, 211 Horizontal synchronization signal detection circuit 105, 212 Window signal generation circuit 106, 208 Timing generation circuit 107 Integration circuit 108, 205 Judgment circuit 203 A / D conversion circuit 204 Counter circuit 207 Clock generation circuit

Claims (12)

[Claims] A separating means for separating a composite synchronizing signal from a video signal; an integrating means for integrating the composite synchronizing signal during a horizontal synchronizing period of a vertical retrace period of the video signal; and an integrating output of the integrating means. A copy prohibition signal detecting device for determining whether there is a copy prohibition signal based on the pseudo horizontal synchronization signal in the horizontal synchronization period. 2. The integration means according to claim 1, wherein said integration means integrates during a period of said horizontal synchronization period pulse generated based on a vertical synchronization signal separated from said composite synchronization signal and a horizontal synchronization signal not including said pseudo horizontal synchronization signal. 2. The copy inhibition signal detection device according to claim 1, wherein the detection is performed. 3. A counting means for counting data smaller than a predetermined value of the digital video signal in a horizontal synchronization period of a vertical blanking period, and a pseudo horizontal synchronization signal in the horizontal synchronization period based on the count value of the counting means. And a determination unit for determining the presence or absence of a copy inhibition signal. 4. The horizontal synchronization period pulse generated based on a vertical synchronization signal separated from a composite synchronization signal of the video signal and a horizontal synchronization signal not including the pseudo horizontal synchronization signal. 4. The copy inhibition signal detecting device according to claim 3, wherein the counting is performed. 5. A procedure for separating a composite synchronization signal from a video signal, a procedure for integrating the composite synchronization signal during a horizontal synchronization period of a vertical blanking period of the video signal, and a procedure for integrating the horizontal synchronization period based on the integrated output. Determining the presence or absence of a copy prohibition signal based on the pseudo horizontal synchronizing signal. 6. The integration step includes performing integration during a horizontal synchronization period pulse generated based on a vertical synchronization signal separated from the composite synchronization signal and a horizontal synchronization signal not including the pseudo horizontal synchronization signal. 6. The method according to claim 5, wherein the method is performed. 7. A procedure for counting data smaller than a predetermined value of a digital video signal in a horizontal synchronization period of a vertical blanking period, and a copy inhibition signal based on a pseudo horizontal synchronization signal in the horizontal synchronization period based on the count value. A copy prohibition signal detecting method comprising the steps of: 8. The method according to claim 7, wherein the counting step includes a period of the horizontal synchronization period pulse generated based on a vertical synchronization signal separated from the composite synchronization signal of the video signal and a horizontal synchronization signal not including the pseudo horizontal synchronization signal. 8. The method according to claim 7, wherein counting is performed. 9. A process for separating a composite synchronization signal from a video signal, a process for integrating the composite synchronization signal in a horizontal synchronization period of a vertical retrace period of the video signal, and a process for integrating the horizontal synchronization period based on the integrated output. And a computer-readable storage medium storing a program for executing a process of determining whether or not there is a copy inhibition signal based on a pseudo horizontal synchronization signal in the computer 10. The integration process includes integrating during a period of the horizontal synchronization period pulse generated based on a vertical synchronization signal separated from the composite synchronization signal and a horizontal synchronization signal not including the pseudo horizontal synchronization signal. 10. The computer-readable storage medium according to claim 9, wherein the storage medium is executed. 11. A process for counting data smaller than a predetermined value of a digital video signal in a horizontal synchronization period of a vertical blanking period, and a copy inhibition signal based on a pseudo horizontal synchronization signal in the horizontal synchronization period based on the count value. And a computer-readable storage medium storing a program for executing the steps of: 12. The method according to claim 1, wherein the counting is performed during a period of the horizontal synchronization period pulse generated based on a vertical synchronization signal separated from a composite synchronization signal of the video signal and a horizontal synchronization signal not including the pseudo horizontal synchronization signal. 12. The computer-readable storage medium according to claim 11, wherein the counting is performed.