JP3794201B2 - Recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention limits the recording of generation-managed video information. Ru Recording apparatus.
[0002]
[Prior art]
For a technology relating to a video signal processing apparatus, a video signal processing method, and a recording medium that prevent duplication of a high-quality video signal obtained by a video disk, a digital VTR, a digital broadcast receiving apparatus, etc. It is described in 1-178656 gazette.
[0003]
[Problems to be solved by the invention]
The publication discloses a technique for preventing duplication when reproducing a video signal with copy restrictions. However, there is no mention of how to apply a recording restriction when recording a generation-managed video signal or a recording apparatus that records a generation-managed video signal.
[0004]
In a recording device such as a DVD-RAM recorder capable of recording video information on a storage medium with high image quality, copyright protection is an important issue. This is because video information with almost no deterioration in image quality compared to the original video can be easily duplicated.
[0005]
In order to protect copyright, a technique for attaching generation management information to video information is known. The generation management information is bit information indicating that copying is impossible or copying is possible once. The one-time duplication is a setting that permits one-time duplication for the purpose of broadcast recording as a time shift, but prohibits further duplication. In the recording apparatus, it is necessary to perform certain recording restrictions based on this generation management information to reliably protect the copyright.
[0006]
The generation management information is attached to the video information by being superimposed on the blanking period of the analog video signal or time-division multiplexed on the digital video data. In addition, so-called digital watermarking technology that directly superimposes on video information in a form that cannot be detected even when viewed is being studied. In a recording apparatus considering copyright protection, the generation management information is detected. If it indicates that copying is impossible, the recording should be stopped. This ensures that the copyright of video information that cannot be copied is protected. However, there is a problem in protecting the copyright of video information that can be copied once.
[0007]
If the generation management information indicates that copying is possible once, recording may be performed once, but there is some restriction on the act of reproducing it and recording it again, ensuring that the copyright does not exist. Must be protected. However, in a recording device such as a DVD-RAM recorder for recording on a removable storage medium, the recorded storage medium can be played back by a completely different playback device, so it cannot be guaranteed what kind of playback will be performed. In other words, it is difficult to reliably stop the act of reproducing and re-recording whatever contrivance is made during recording. Therefore, if video information that can be copied once is recorded with almost no image quality deterioration, there is a possibility that the video information with almost no image quality deterioration is illegally copied from the recorded storage medium.
[0008]
It is an object of the present invention to show technologies that prevent illegally copying video information with almost no image quality degradation from a storage medium that records video information that can be copied once. Note It is to provide a recording device.
[0009]
[Means for Solving the Problems]
The above object is achieved by the invention described in the claims. .
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0019]
<Description of the first embodiment>
FIG. 1 is a block diagram showing a signal flow of an embodiment of an encoding apparatus according to the present invention. In FIG. 1, reference numeral 10 denotes a video data input terminal, 20 resolution reduction circuit, 50 selection circuit, and 60 encoding circuit, which constitute encoding means having a low image quality mode for encoding at low image quality, 30 A generation management information detection circuit that is generation management information detection means, 40 is a resolution selection circuit that is encoding control means, 70 is an output limiting circuit, 80 is an encoded data output terminal, and 190 is an output determination circuit.
[0020]
The present embodiment is a so-called encoder board that compresses and encodes moving image data by the MPEG2 system. The encoded data output from the encoded data output terminal 80 is recorded on a storage medium such as a DVD-RAM connected to a personal computer.
[0021]
The generation management information detection circuit 30 detects generation management information associated with moving image data input from the video data input terminal 10. The generation management information identifies at least that copying is not possible and copying is possible once, thereby limiting the encoding operation. The resolution selection circuit 40 selects the resolution of the moving image data to be encoded according to the detected generation management information. FIG. 2 is a diagram showing operating conditions for encoding.
[0022]
As generation management information, for example, a method of discriminating four generation management states with 2-bit information is used. For example, bit 11 is a state in which duplication is prohibited, bit 10 is a state in which only one generation of duplication is permitted, and bit 01 is a copy of a video in which only one generation of duplication is permitted. Bit 00 indicates a state in which no further copying is permitted in the state, and a state where copying is not restricted. In the description of the embodiment of the present invention, the bit 10 can be copied once, and the bit 00 is expressed as no copy restriction. Bit 11 and bit 01 are both expressed as non-replicatable and are not distinguished.
[0023]
When the generation management information detection circuit 30 does not detect generation management information or when generation management information without duplication restriction is detected, the resolution selection circuit 40 outputs a signal indicating the resolution of horizontal 704 pixels and vertical 480 pixels. Output. The selection circuit 50 selects the moving image data input to the video data input terminal 10 and supplies it to the encoding circuit 60. The encoding circuit 60 performs encoding processing of horizontal 704 pixels and vertical 480 pixels based on the MPEG2 system. The output determination circuit 190 outputs a signal for instructing output, and the output limiting circuit 70 supplies the encoded data output from the encoding circuit 60 to the encoded data output terminal 80. As a result, when moving image data that is not restricted for copying is input, encoding is performed with a high-quality resolution.
[0024]
When the generation management information detection circuit 30 detects generation management information that can be copied once, the resolution selection circuit 40 outputs a signal indicating the resolution of horizontal 352 pixels and vertical 480 pixels. The resolution reduction circuit 20 generates moving image data having a resolution of 352 pixels in the horizontal direction and 480 pixels in the vertical direction from the moving image data input to the video data input terminal 10. The selection circuit 50 selects the moving image data output from the resolution reduction circuit 20 and supplies it to the encoding circuit 60. The encoding circuit 60 performs encoding processing of horizontal 352 pixels and vertical 480 pixels based on the MPEG2 system. The output determination circuit 190 outputs a signal for instructing output, and the output limiting circuit 70 supplies the encoded data output from the encoding circuit 60 to the encoded data output terminal 80. Thus, when moving image data that can be copied once is input, encoding is performed with a low-quality resolution.
[0025]
When the generation management information detection circuit 30 detects non-replicatable generation management information, the output determination circuit 190 outputs a signal indicating that no output is performed, and the output restriction circuit 70 outputs to the encoded data output terminal 80. No signal is supplied. Accordingly, when moving image data that cannot be copied is input, the output of the encoded data is stopped.
[0026]
According to the present embodiment, once-replicatable moving image data is encoded with a low-resolution image quality comparable to that of an analog VTR. Therefore, when the encoded data is recorded on a storage medium such as a DVD-RAM, even if it is illegally duplicated, only the moving picture data with a clearly deteriorated image quality compared with the original moving picture data is copied. Can be.
[0027]
In the embodiment described above, the resolution when encoding moving image data that can be replicated once is set to horizontal 352 pixels. However, if the image deterioration can be obtained, the resolution may not be horizontal 352 pixels.
[0028]
FIG. 3 is a diagram showing the encoding operation conditions of this embodiment when the resolution at the time of encoding moving image data that can be copied once is 480 pixels horizontally. The signal flow is the same as the block diagram shown in FIG. The resolution reduction circuit 20 generates moving image data having a reduced resolution of 480 pixels in the horizontal direction and 480 pixels in the vertical direction from the moving image data input to the video data input terminal 10. When the generation management information detection circuit 30 detects generation management information that can be copied once, the encoding circuit 60 performs encoding processing of horizontal 480 pixels and vertical 480 pixels based on the MPEG2 system.
[0029]
Even in this case, once-replicatable moving image data is encoded with low resolution image quality. Therefore, when the encoded data is recorded on a storage medium such as a DVD-RAM, even if it is illegally copied, only the moving image data having a deteriorated image quality compared to the original moving image data is copied. be able to.
[0030]
FIG. 4 is a diagram showing the encoding operation conditions of this embodiment when the resolution at the time of encoding moving image data that can be replicated once is set to horizontal 544 pixels. The signal flow in this case is also the same as the block diagram shown in FIG. The resolution reduction circuit 20 generates moving image data with a resolution of 544 pixels in the horizontal direction and 480 pixels in the vertical direction from the moving image data input to the video data input terminal 10. When the generation management information detection circuit 30 detects generation management information that can be copied once, the encoding circuit 60 performs encoding processing of horizontal 544 pixels and vertical 480 pixels based on the MPEG2 system.
[0031]
Even in this case, once-replicatable moving image data is encoded with low resolution image quality. Therefore, when the encoded data is recorded on a storage medium such as a DVD-RAM, even if it is illegally copied, only the moving image data having a deteriorated image quality compared to the original moving image data is copied. be able to.
[0032]
In the operating conditions of the present embodiment shown in FIGS. 2, 3, and 4, the resolution when encoding moving image data for which generation management information has not been detected is set to horizontal 704 pixels, which is horizontal 720 pixels. It is also good. The horizontal 704 pixels and the horizontal 720 pixels only change the length of the horizontal blanking, and the pixel interval, that is, the resolution is the same. In this case, in FIG. 1, when the generation management information detection circuit 30 does not detect generation management information or when generation management information without duplication restriction is detected, the encoding circuit 60 uses the horizontal 720 based on the MPEG2 system. Encoding processing of pixels and vertical 480 pixels is performed.
[0033]
In the operating conditions of the present embodiment shown in FIGS. 2, 3, and 4, all the resolutions are vertical 480 pixels, but this is a number corresponding to a television system with 525 scanning lines. In the case of an encoding apparatus compatible with a television system with 625 scanning lines, the resolution may be all 576 pixels. In this case, in FIG. 1, the encoding circuit 60 performs encoding processing of vertical 576 pixels based on the MPEG2 system.
[0034]
The above-described resolutions of horizontal 720 pixels, horizontal 704 pixels, horizontal 544 pixels, horizontal 480 pixels, horizontal 352 pixels, vertical 480 pixels, and vertical 576 pixels are standard recording formats. Therefore, by selecting the resolution setting as these values, it is possible to record the encoded data on the DVD-RAM and make a standard disc.
[0035]
In the embodiment described above, the encoded image quality of the video data that can be copied once is reduced by reducing the resolution. However, in the encoding circuit 60 shown in FIG. When data is encoded, the encoded image quality may be reduced by selecting only a mode with a low bit rate after encoding.
[0036]
Alternatively, in the encoding circuit 60 shown in FIG. 1, when encoding video data that can be copied once, the quantization roughness used for rate control cannot be made finer than a predetermined threshold value. The encoded image quality may be reduced.
[0037]
In short, when encoding moving image data that can be copied once, the original moving image data can be selected by selecting only a low-quality encoding mode with sufficient image quality deterioration compared to the original moving image data. Only moving image data with degraded image quality can be copied.
[0038]
<Description of the second embodiment>
FIG. 5 is a block diagram showing the signal flow of the embodiment of the recording apparatus according to the present invention. In FIG. 5, reference numeral 10 denotes a video data input terminal, 20 resolution reduction circuit, 50 selection circuit, 60 encoding circuit, and 90 writing circuit, which constitute recording means having a low image quality mode for recording with low image quality. 30 is a generation management information detection circuit as generation management information detection means, 40 is a resolution selection circuit as recording control means, 100 is a recording restriction circuit, 110 is a storage medium, and 180 is a recording determination circuit.
[0039]
The present embodiment is a so-called recorder that records moving image data by compressing and encoding it according to the MPEG2 system. The encoded data is recorded on a storage medium 110 such as a DVD-RAM.
[0040]
The generation management information detection circuit 30 detects generation management information associated with moving image data input from the video data input terminal 10. The generation management information identifies at least copying impossible and copying once, thereby limiting the recording operation. The resolution selection circuit 40 selects the resolution of moving image data to be recorded according to the detected generation management information. FIG. 6 is a diagram showing recording operation conditions.
[0041]
When the generation management information detection circuit 30 does not detect generation management information or when generation management information without duplication restriction is detected, the resolution selection circuit 40 outputs a signal indicating the resolution of horizontal 704 pixels and vertical 480 pixels. Output. The selection circuit 50 selects the moving image data input to the video data input terminal 10 and supplies it to the encoding circuit 60. The encoding circuit 60 performs encoding processing of horizontal 704 pixels and vertical 480 pixels based on the MPEG2 system. The writing circuit 90 converts the encoded data output from the encoding circuit 60 into a signal format to be recorded on the storage medium 110. The recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110 to perform recording. As a result, when moving image data that is not restricted for copying is input, recording is performed with a high-quality resolution.
[0042]
When the generation management information detection circuit 30 detects generation management information that can be copied once, the resolution selection circuit 40 outputs a signal indicating the resolution of horizontal 352 pixels and vertical 480 pixels. The resolution reduction circuit 20 generates moving image data with horizontal 352 pixels and vertical 480 pixels with reduced resolution from moving image data with horizontal 704 pixels and vertical 480 pixels input to the video data input terminal 10. . The selection circuit 50 selects the moving image data output from the resolution reduction circuit 20 and supplies it to the encoding circuit 60. The encoding circuit 60 performs encoding processing of horizontal 352 pixels and vertical 480 pixels based on the MPEG2 system. The writing circuit 90 converts the encoded data output from the encoding circuit 60 into a signal format to be recorded on the storage medium 110. The recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110 to perform recording. As a result, when moving image data that can be copied once is input, recording is performed with a resolution of low image quality.
[0043]
When the generation management information detection circuit 30 detects generation management information that cannot be copied, the recording determination circuit 180 outputs a signal instructing not to perform recording, and the recording restriction circuit 100 records a recording signal to the storage medium 110. Stop supplying. As a result, when moving image data that cannot be copied is input, recording is not performed.
[0044]
According to the present embodiment, the moving image data that can be copied once is recorded with an image quality as low as that of an analog VTR. Therefore, even if the recorded storage medium is illegally copied, it is possible to copy only moving image data whose image quality is clearly deteriorated compared to the original moving image data.
[0045]
In this embodiment, the resolution when recording moving image data that can be replicated once is set to 352 pixels in the horizontal direction. However, it is not necessary to have 352 pixels in the horizontal direction as long as image degradation can be obtained. This is the same as in the case of the first embodiment, and may be, for example, horizontal 480 pixels or horizontal 544 pixels. If it is horizontal 352 pixels, horizontal 480 pixels, or horizontal 544 pixels, a standard disc can be made.
[0046]
Further, in this embodiment, the recording quality of moving image data that can be copied once is reduced by reducing the resolution. However, the encoding circuit 60 shown in FIG. In the case of conversion, the recording image quality may be reduced by selecting only a mode with a low bit rate after encoding.
[0047]
Alternatively, in the encoding circuit 60 shown in FIG. 5, when encoding video data that can be replicated once, the quantization roughness used for rate control cannot be made finer than a predetermined threshold value. The recording image quality may be reduced.
[0048]
In short, when recording moving image data that can be copied once, only a low-quality recording mode with sufficient image quality deterioration compared to the original moving image data can be selected, so that it can be compared with the original moving image data. Thus, only moving image data with degraded image quality can be copied.
[0049]
<Description of the third embodiment>
FIG. 7 is a block diagram showing the signal flow of the embodiment of the recording apparatus according to the present invention. 7, 120 is an encoded data input terminal, 130 is a code thinning circuit, 140 is a generation management information detection circuit, 150 is a thinning selection circuit, 160 is a selection circuit, 90 is a writing circuit, 100 is a recording limiting circuit, and 110 is A storage medium 180 is a recording determination circuit.
[0050]
The present embodiment is a so-called stream recorder that records encoded data that has been compression-encoded in the MPEG2 system. The encoded data is recorded on a storage medium 110 such as a DVD-RAM.
[0051]
The generation management information detection circuit 140 detects generation management information associated with the encoded data input from the encoded data input terminal 120. The generation management information identifies at least copying impossible and copying once, thereby limiting the recording operation. The thinning selection circuit 150 selects whether to perform thinning of the encoded data to be recorded according to the detected generation management information. FIG. 8 is a diagram showing recording operation conditions.
[0052]
When the generation management information detection circuit 140 does not detect generation management information or when generation management information without duplication restriction is detected, the thinning selection circuit 150 outputs a signal instructing not to perform thinning. The selection circuit 160 selects the encoded data input to the encoded data input terminal 120 and supplies it to the writing circuit 90. The writing circuit 90 converts the encoded data output from the selection circuit 160 into a signal format to be recorded on the storage medium 110. The recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110 to perform recording. As a result, when encoded data that is not restricted to be copied is input, recording is performed with the encoded image quality.
[0053]
When the generation management information detection circuit 140 detects generation management information that can be copied once, the thinning selection circuit 150 outputs a signal instructing to perform thinning. The code decimation circuit 130 analyzes the encoded data input to the encoded data input terminal 120 and decimates the code so that appropriate image quality degradation occurs. The selection circuit 160 selects the coded data after decimation output from the code decimation circuit 130 and supplies it to the writing circuit 90. The bit rate is reduced by thinning out. The writing circuit 90 converts the encoded data output from the selection circuit 160 into a signal format to be recorded on the storage medium 110. The recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110 to perform recording. Thus, when moving image data that can be copied once is input, low-quality recording with thinned codes is performed.
[0054]
When the generation management information detection circuit 140 detects generation management information that cannot be copied, the recording determination circuit 180 outputs a signal instructing not to perform recording, and the recording restriction circuit 100 records a recording signal to the storage medium 110. Stop supplying. As a result, when moving image data that cannot be copied is input, recording is not performed.
[0055]
A specific method for code thinning will be described below. The encoded data compressed and encoded by the MPEG2 method is subjected to two-dimensional frequency conversion for each small block of an image, quantized, and then arranged in order from a low-order frequency component to a high-order frequency component in a variable-length code. Run-length encoded. The code decimation circuit 130 analyzes the run-length code for each small block of the image. For example, when the order of the frequency component exceeds a predetermined value, the code after that is discarded. Alternatively, when the number of run-length codes exceeds a predetermined value for each small block of the image, the subsequent codes are discarded. Alternatively, the total number of run-length codes is counted for each small block of the image, and when the number exceeds a predetermined ratio with respect to the total number, the subsequent codes are discarded. By thinning the code in this way, image quality degradation such as mosquito noise can be caused on the decoded image.
[0056]
According to the present embodiment, the moving image data that can be copied once is recorded with appropriate image quality degradation. Therefore, even if the recorded storage medium is illegally copied, it is possible to copy only moving image data whose image quality is clearly deteriorated compared to the original moving image data.
[0057]
Further, in this embodiment, the recording quality of the moving image data that can be copied once is reduced by thinning out the code. However, when the moving image data that can be copied once is recorded, the code thinning circuit shown in FIG. Instead of 130, it is also possible to decode the encoded data once, reduce the resolution, and then re-encode it to reduce the recording image quality.
[0058]
Alternatively, when moving image data that can be copied once is recorded, instead of the code thinning circuit 130 shown in FIG. 7, the encoded data is once decoded and re-encoded in a mode with a low bit rate, so May be reduced.
[0059]
In short, when recording moving image data that can be copied once, the original moving image data can be reduced by reducing the resolution or causing some kind of image quality degradation such as mosquito noise or block noise. Only moving image data with degraded image quality can be copied.
[0060]
<Description of the fourth embodiment>
FIG. 9 is a block diagram showing the signal flow of the embodiment of the recording apparatus according to the present invention. FIG. 9 is a block diagram of the embodiment in which the encoded data is once decoded and the resolution is reduced and then re-encoded. In FIG. 9, 120 is an encoded data input terminal, 140 is a generation management information detection circuit, 160 is a selection circuit, 90 is a writing circuit, 100 is a recording restriction circuit, 110 is a storage medium, 180 is a recording determination circuit, and 200 is decoding. A circuit, 20 is a resolution reduction circuit, 60 is an encoding circuit, and 40 is a resolution selection circuit.
[0061]
The present embodiment is a so-called stream recorder that records encoded data of a high-definition (HD) television. The encoded data is recorded on a storage medium 110 such as a DVD-RAM.
[0062]
The generation management information detection circuit 140 detects generation management information associated with the encoded data input from the encoded data input terminal 120. The generation management information identifies at least copying impossible and copying once, thereby limiting the recording operation. The resolution selection circuit 40 selects whether or not to reduce the resolution of the encoded data to be recorded according to the detected generation management information. FIG. 10 is a diagram showing recording operation conditions.
[0063]
When the generation management information detection circuit 140 does not detect generation management information or when it detects generation management information without duplication restriction, the resolution selection circuit 40 outputs a signal instructing not to perform resolution reduction. The selection circuit 160 selects the encoded data input to the encoded data input terminal 120 and supplies it to the writing circuit 90. The writing circuit 90 converts the encoded data output from the selection circuit 160 into a signal format to be recorded on the storage medium 110. The recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110 to perform recording. As a result, when encoded data that is not restricted to be copied is input, recording is performed with high-resolution image quality that remains encoded.
[0064]
When the generation management information detection circuit 140 detects generation management information that can be copied once, the resolution selection circuit 40 outputs a signal instructing to reduce the resolution. The decoding circuit 200 decodes the encoded data input to the encoded data input terminal 120, and outputs high-resolution moving image data of horizontal 1920 pixels and vertical 1080 pixels. The resolution reduction circuit 20 generates, from the moving image data output from the decoding circuit 200, moving image data with standard resolution (SD) of 704 pixels horizontal and 480 pixels with reduced resolution. The encoding circuit 60 re-encodes the moving image data output from the resolution reduction circuit 20. The selection circuit 160 selects the encoded data of the standard resolution output from the encoding circuit 60 and supplies it to the writing circuit 90. The writing circuit 90 converts the encoded data output from the selection circuit 160 into a signal format to be recorded on the storage medium 110. The recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110 to perform recording. Thus, when high-resolution moving image data that can be copied once is input, recording is performed with image quality of standard resolution.
[0065]
When the generation management information detection circuit 30 detects generation management information that cannot be copied, the recording determination circuit 180 outputs a signal instructing not to perform recording, and the recording restriction circuit 100 records a recording signal to the storage medium 110. Stop supplying. As a result, when moving image data that cannot be copied is input, recording is not performed.
[0066]
According to this embodiment, high-resolution moving image data that can be copied once is recorded with standard-definition image quality. Therefore, even if the recorded storage medium is illegally copied, it is possible to copy only moving image data whose image quality is clearly deteriorated compared to the original moving image data.
[0067]
<Description of the fifth embodiment>
FIG. 11 is a block diagram showing the signal flow of the embodiment of the recording apparatus according to the present invention. In FIG. 11, 120 is an encoded data input terminal, 140 is a generation management information detection circuit, 170 is a resolution detection circuit, 180 is a recording determination circuit, 90 is a writing circuit, 100 is a recording limiting circuit, and 110 is a storage medium.
[0068]
The present embodiment is a so-called stream recorder that records encoded data that has been compression-encoded in the MPEG2 system. The encoded data is recorded on a storage medium 110 such as a DVD-RAM.
[0069]
The writing circuit 90 converts the encoded data output from the encoded data input terminal 120 into a signal format to be recorded on the storage medium 110. The generation management information detection circuit 140 detects generation management information associated with the encoded data input from the encoded data input terminal 120. The generation management information identifies at least copying impossible and copying once, thereby limiting the recording operation. The resolution detection circuit 170 analyzes header information of the encoded data input from the encoded data input terminal 120, and detects the resolution of the encoded moving image data. The recording determination circuit 180 determines whether to perform recording according to the detected generation management information and resolution. FIG. 12 is a diagram showing recording conditions.
[0070]
When the generation management information detection circuit 140 does not detect generation management information or when generation management information without duplication restriction is detected, the recording determination circuit 180 outputs a signal instructing to perform recording, and the recording restriction The circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110. As a result, when encoded data that is not restricted to be copied is input, recording is performed.
[0071]
When the generation management information detection circuit 140 detects generation management information that can be replicated once and the resolution is 704 pixels in the horizontal direction and 480 pixels in the vertical direction, the recording determination circuit 180 instructs the recording not to be performed. The recording limiting circuit 100 does not supply a recording signal to the storage medium 110. When the generation management information detection circuit 140 detects generation management information that can be replicated once, and the resolution is 352 pixels in the horizontal direction and 480 pixels in the vertical direction, the recording determination circuit 180 outputs a signal instructing to perform recording. The recording restriction circuit 100 supplies the recording signal output from the writing circuit 90 onto the storage medium 110. Thus, when moving image data that can be copied once is input, only the encoded data that has been encoded at a low-quality resolution is recorded.
[0072]
When the generation management information detection circuit 140 detects generation management information that cannot be copied, the recording determination circuit 180 outputs a signal instructing not to perform recording, and the recording restriction circuit 100 records a recording signal to the storage medium 110. Stop supplying. As a result, when moving image data that cannot be copied is input, recording is not performed.
[0073]
According to the present embodiment, moving image data that can be copied once is only recorded as encoded data that is encoded with a low-resolution image quality equivalent to that of an analog VTR. Therefore, even if the recorded storage medium is illegally copied, it is possible to copy only moving image data whose image quality is clearly deteriorated compared to the original moving image data.
[0074]
In this embodiment, the resolution for permitting the recording of moving image data that can be copied once is set to 352 pixels in the horizontal direction. However, if the image deterioration can be obtained, the resolution may not be 352 pixels in the horizontal direction. This is the same as in the case of the first embodiment, and may be, for example, horizontal 480 pixels or horizontal 544 pixels. If it is horizontal 352 pixels, horizontal 480 pixels, or horizontal 544 pixels, a standard disc can be made.
[0075]
【The invention's effect】
According to the present invention, once-replicatable moving image data is always encoded or recorded with low image quality, so that only video information with a degraded image quality compared to the original image can be copied.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a signal flow of an encoding apparatus according to a first embodiment of the present invention.
FIG. 2 is a diagram showing coding operating conditions of the coding apparatus according to the first embodiment of the present invention.
FIG. 3 is a diagram showing another operating condition of encoding of the encoding apparatus according to the first embodiment of the present invention.
FIG. 4 is a diagram showing still another operating condition of encoding of the encoding apparatus according to the first embodiment of the present invention.
FIG. 5 is a block diagram showing a signal flow of a recording apparatus according to a second embodiment of the present invention.
FIG. 6 is a diagram showing recording operation conditions of a recording apparatus according to a second embodiment of the present invention.
FIG. 7 is a block diagram showing a signal flow of a recording apparatus according to a third embodiment of the present invention.
FIG. 8 is a diagram showing recording operation conditions of a recording apparatus according to a third embodiment of the present invention.
FIG. 9 is a block diagram showing a signal flow of a recording apparatus according to a fourth embodiment of the present invention.
FIG. 10 is a diagram showing recording operation conditions of a recording apparatus according to a fourth embodiment of the present invention.
FIG. 11 is a block diagram showing a signal flow of a recording apparatus according to a fifth embodiment of the present invention.
FIG. 12 is a diagram showing recording operation conditions of a recording apparatus according to a fifth embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Video data input terminal, 20 ... Resolution reduction circuit, 30 ... Generation management information detection circuit, 40 ... Resolution selection circuit, 50 ... Selection circuit, 60 ... Encoding circuit, 70 ... Output limiting circuit, 80 ... Output of encoded data Terminals 90, write circuit, 100, recording limit circuit, 110, storage medium, 120, encoded data input terminal, 130, code thinning circuit, 140, generation management information detection circuit, 150, thinning selection circuit, 160, selection circuit , 170 ... resolution detection circuit, 180 ... recording judgment circuit, 190 ... output judgment circuit, 200 ... decoding circuit.

Claims (3)

In a recording device for recording video information on a storage medium,
Resolution detection means for detecting the resolution of the input encoded video information;
Generation management information detecting means for detecting replication generation management information accompanying the input encoded video information;
Recording control means for controlling so that recording is not performed when the generation management information that can be replicated once is detected by the generation management information detecting means and the input encoded video information has a high resolution
A recording apparatus comprising: In claim 1,
A recording apparatus, wherein when the generation management information without duplication restriction is detected by the generation management information detection means, the recording control means controls to record video information. In claim 1,
When the generation management information detecting means detects copy generation management information that can be copied once and the input encoded video information has a low resolution, the recording control means records the video information. A recording apparatus, characterized by being controlled.

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