JP3788953B2 - Copy protection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is applied to an apparatus such as a television receiver that handles information transmitted via any medium such as wired communication, wireless communication, or a recording medium, and prevents random copying of the information. The present invention relates to a copy protection apparatus.
[0002]
[Prior art]
As is well known, systems for transmitting moving images and sounds, such as television broadcasting, video conferencing systems, and videophones, and recording / reproducing signals such as moving images and sounds on magnetic disks, optical disks, magnetic tapes, etc. In such a system, in order to effectively use a transmission path and a recording medium, a method of performing high-efficiency encoding and increasing transmission efficiency is generally used.
[0003]
MPEG (Moving Picture Experts Group) 2 is a typical system for this high-efficiency encoding. MPEG2 is standardized as ISO / IEC 13818 by the JTC (Joint Technical Committee) of ISO (International Organization for Standardization) and IEC (International Electrotechnical Commision).
[0004]
In MPEG2, not only the encoding standard, but also a standard for a method of multiplexing data streams such as video and audio so that the encoded video and audio data streams can be used for a wide range of purposes. . This standard is called MPEG2 Systems. Depending on the intended use of the data stream, a transport stream (TS) that is assumed to be applied to broadcasting and communication, and a program stream that is assumed to be applied to storage and recording (TS) There are two data stream standards: PS (Program Stream).
[0005]
The transport stream is considered to transmit a plurality of programs in one stream, and a plurality of reference times can be used for each program, and it is expected to be adopted for many broadcasting and communication applications in the future. ing. Further, the program stream is expected to be widely used in the future as a standard recording format for storage media such as magnetic disks, optical disks and magnetic tapes. Note that these standards are input signal standards to the decoder, and no signal encoding method is defined.
[0006]
When recording a program transmitted by digital broadcasting, digital communication or the like, the following procedure is used. For example, the received digital broadcast wave is demodulated into a baseband transport stream. A demodulated transport stream includes a plurality of programs. A PES (Packetized Elementary Stream) of a specific program is extracted from the plurality of programs by transport processing. The PES is decoded and converted into Y, RY, and BY signals and reproduced as an image on a CRT. The Y, RY, and BY signals are encoded to produce an NTSC signal or S signal, which is recorded by a recording device such as a VTR (Video Tape Recorder). The recording device may not be a tape, but may be a disk medium such as a hard disk or an optical disk.
[0007]
The above is the case of analog recording, but digital recording can also be performed by the following procedure. The received digital broadcast wave is demodulated into a baseband transport stream. A demodulated transport stream includes a plurality of programs. A PES of a specific program is extracted from the plurality of programs by transport processing. The extracted PES is converted into a program stream and recorded by a recording device such as a VTR or a disk medium.
[0008]
The data read (reproduced) by the recording device is converted into a transport stream, and is selectively subjected to transport processing as a reception output (demodulation output). As a result, the image is reproduced in the same manner as when receiving.
[0009]
However, in an apparatus that performs recording with the above-described configuration, the transmitted image and sound, or the image and sound recorded on the recording medium can be freely recorded on another recording medium. It becomes. For this reason, there is a possibility that the image and the sound are copied against the intention of the author. In particular, when images and sounds are represented by digital data, even if copying is repeated, there is little deterioration of the images and sounds, and there is a risk that a large amount of copies will be made.
[0010]
[Problems to be solved by the invention]
As described above, conventionally, since the transmitted information can be freely recorded on another recording medium, the information is copied against the author's intention and distributed randomly. There was a problem of fear.
[0011]
Accordingly, the present invention has been made in consideration of the above circumstances, and provides a copy protection device capable of restricting unlawful copying by an information user according to the intention of an information supply source such as an author. Objective.
[0012]
[Means for Solving the Problems]
  In the copy protection device according to the present invention, a digital signal having a copy flag in which copy permission is arbitrarily indicated is input, and a copy permission determination means for determining whether the digital signal can be copied based on the copy flag; When it is determined by the determination means that copying is possible, a signal enabling reproduction of predetermined information from the digital signal is output as a recording signal,AlsoWhen it is determined that copying is impossible by the copy permission / inhibition determining meansRecording signal correction means for outputting a signal corresponding to information obtained by synthesizing extra image information displayed on the screen in addition to predetermined information as a recording signal, and restricts recording of digital signals on a recording medium It is what you do.
[0016]
  According to the above configuration,For digital signals that are determined to be incapable of copying based on the copy flag, a signal corresponding to information obtained by synthesizing extra image information displayed in the screen in addition to predetermined information is output as a recording signal. I did soEven if this recording signal is recorded, normal information cannot be reproduced from the recording signal. As a result, it is possible to restrict random copying by information users according to the intention of a supplier of information such as copyright.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to this embodiment is applied. As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, a switch 6, an NTSC encoder 7, and an OSD signal generation circuit 8. Have.
[0018]
The antenna 1 receives incoming broadcast radio waves and converts them into high-frequency electrical signals. The antenna 1 gives the generated high frequency signal to the demodulation circuit 2.
[0019]
The demodulation circuit 2 demodulates the baseband transport stream from the high frequency signal given from the antenna 1. The demodulation circuit 2 gives the demodulated transport stream to the transport processing circuit 3.
[0020]
The transport processing circuit 3 is composed of, for example, a microprocessor, and performs transport processing for extracting a PES (Packetized Elementary Stream) of a specific program from a plurality of programs included in the transport stream. The transport processing circuit 3 gives the extracted PES to the MPEG decoder 4.
[0021]
The transport processing circuit 3 includes copy flag state detection means 3a. The copy flag state detection means 3a detects the state of the copy flag (copyright flag and original copy flag) included in the PES to be extracted, and outputs a detection result signal corresponding to the state of the copy flag.
[0022]
The MPEG decoder 4 decodes the PES supplied from the transport processing circuit 3 and converts it into Y, RY, and BY signals. The MPEG decoder 4 supplies the generated Y, RY, and BY signals to the adder circuit 5 and also to the NTSC encoder 7 via the switch 6.
[0023]
The adder circuit 5 superimposes the OSD signal output from the OSD signal generation circuit 8 on the signal supplied from the MPEG decoder 4 and outputs the signal to the CRT.
[0024]
The switch 6 is turned on / off in accordance with the detection result signal output from the transport processing circuit 3, and provides the output signal of the MPEG decoder 4 to the NTSC encoder 7 when the switch 6 is in the ON state.
[0025]
The NTSC encoder 7 creates an NTSC signal or S signal from the output signal of the MPEG decoder 4 and outputs it as a VTR recording signal.
[0026]
The OSD signal generation circuit 8 has the same configuration as a general one used to display channel numbers and the like in an existing television receiver, but the detection result output from the transport processing circuit 3 Based on the signal, an OSD (On Screen Display) signal for generating an image indicating that copying is prohibited on the image being received is generated as necessary. The OSD signal generation circuit 8 gives the generated OSD signal to the addition circuit 5.
[0027]
Next, the operation of the television receiver configured as described above will be described.
[0028]
The incoming digital broadcast wave is received by the antenna 1 and demodulated into a baseband transport stream by the demodulation circuit 2. Since the transport stream output from the demodulation circuit 2 includes a plurality of programs, the transport processing circuit 3 extracts a PES of a specific program. The extracted PES is converted into Y, RY, and BY signals by the MPEG decoder 4 and sent to a CRT (not shown). Thus, in the CRT, an image is reproduced and displayed based on the Y, RY, and BY signals.
[0029]
Incidentally, the transport stream, the program stream, and the PES are all defined by ISO / IEC13818. FIG. 2 is a diagram showing the relationship between the transport stream, the program stream, and the PES. (A) shows the transport stream, (b) shows the PES, and (c) shows the configuration of the program stream.
[0030]
The transport stream is composed of 188-byte fixed-length packets including a 4-byte header. A plurality of programs are multiplexed in this transport stream, and program components (video data, audio data, and other digital data) are allocated to different packets. The PES is obtained by extracting and arranging data of a specific program in the transport stream. In the program stream, PES is multiplexed into an arbitrary unit size to form pack data (Packdata), and a pack header is added thereto.
[0031]
As described above, PES is defined as a stream used for conversion between a transport stream and a program stream.
[0032]
FIG. 3 is a diagram showing in detail the packet format (particularly the header format) of the transport stream. As shown in this figure, the transport stream header is composed of an 8-bit sync byte, a 1-bit error indication (transport error indicator), a 1-bit unit start indicator, and a 1-bit unit. It consists of priority (transport priority), 13-bit PID (packet identification), 2-bit scrambling control (transport scrambling control), 2-bit adaptation field control, and 4-bit continuity counter. The header is followed by an adaptation field and a payload, thereby forming a transport stream packet. Note that the constituent elements of the program carried in the payload of the packet are indicated by numerical values assigned to the PID.
[0033]
FIG. 4 is a diagram showing in detail the format of the first 7 bytes of the PES. As shown in this figure, the PES has a 24-bit start start code (packet start code prefix), an 8-bit stream ID (stream id), a 16-bit packet length (PES packet length), and a 2-bit “10”. Fixed bit, 2 bit scrambling control (PES scrambling control), 1 bit priority (PES priority), 1 bit data alignment indicator (data allengiment indicator), 1 bit copyright flag (copylight) and 1 bit original copy Flags (original or copy) are set in order.
[0034]
In this embodiment, the broadcast station sets the copyright flag to “1” for a program that permits copying, and sets the copyright flag to “0” for a program that restricts copying. Also, when restricting copying in a broadcasting station, when copying is completely prohibited, the original copy flag is set to a state indicating “copy” (for example, “0”), and only one copy is permitted. Sets the original copy flag to a state indicating “original” (for example, “1”).
[0035]
By the way, the demodulating circuit 2 supplies the transport processing circuit 3 with a header timing pulse as shown in FIG. 5B synchronized with the head of the transport stream simultaneously with the transport stream.
[0036]
In addition to the PES extraction process described above, the transport processing circuit 3 uses the copy flag state detection means 3a to detect the copy flag state while taking the timing with the header timing pulse as follows. That is, as shown in FIG. 6, when the transport processing circuit 3 first detects a header timing pulse (step ST1), it reads 4 bytes of data from that point, that is, the header portion of the transport stream (step ST2).
[0037]
Next, the transport processing circuit 3 determines whether there is an adaptation field by identifying adaptation control data in the fetched header (step ST3). If there is an adaptation field, the transport processing circuit 3 The part is skipped (step ST4).
[0038]
If there is a PES after that, the transport processing circuit 3 reads the first 7 bytes (step ST5). Then, in the seventh byte, there are a copyright flag and an original copy flag. The transport processing circuit 3 detects the states of the copyright flag and the original copy flag (step ST6), and outputs a detection result signal indicating the detection result (step ST7).
[0039]
When the detection result signal output from the transport processing circuit 3 indicates that copying is possible, that is, the copyright flag is “1” or the copyright flag is “0” but the original When the copy flag is “1” and the detection result signal indicates that, the switch 6 is turned on. As a result, the output signal of the MPEG decoder 4 is given to the NTSC encoder 7.
[0040]
At this time, the NTSC encoder 7 creates an NTSC signal or S signal from the applied signal and outputs it as a signal for VTR recording. Therefore, if a VHS such as a VHS system is connected to receive the output of the NTSC encoder 7, recording can be performed with this VTR.
[0041]
On the other hand, when the detection result signal output from the transport processing circuit 3 indicates that copying is impossible, that is, the copyright flag is “0” and the original copy flag is “0”. When the detection result signal indicates that, the switch 6 is turned off. As a result, the output signal of the MPEG decoder 4 is not given to the NTSC encoder 7. Accordingly, even if a VHS VTR or the like is connected to receive the output of the NTSC encoder 7, a recording signal is not output to the VTR and cannot be recorded.
[0042]
At this time, the OSD signal generation circuit 8 displays an image indicating that copying of the image currently displayed on the CRT is prohibited, such as “cannot copy”, for example, as shown in FIG. Thus, an OSD signal for display on the CRT is generated. The OSD signal is superimposed on the output signal from the MPEG decoder 4 by the adder circuit 5 and displayed on the CRT as shown in FIG. 7A, for example.
[0043]
The OSD signal generation circuit 8 is permitted to record only once when the copyright flag is "0" but the original copy flag is "1" and the detection result signal indicates that. In this case, an OSD signal for displaying an image such as “This video can be copied once”, for example, on a CRT as shown in FIG. 7B may be generated.
[0044]
According to the present embodiment as described above, a program for which copy prohibition is designated on the broadcast station side is not output as a VTR recording signal, and cannot be recorded on the VTR. Therefore, random copying is surely prevented.
[0045]
In this embodiment, since the program for which copy prohibition is designated is not output as a signal for VTR recording, the user feels uneasy about whether the device is malfunctioning or recognizes that it is a device malfunction. However, in the present embodiment, the fact that copying is prohibited is displayed on the CRT, so that the above problem can be avoided.
[0046]
(Second Embodiment)
Next explained is the second embodiment of the invention.
[0047]
FIG. 8 is a functional block diagram showing a main configuration of a television receiver to which the copy protection system according to this embodiment is applied. In addition, the same code | symbol is attached | subjected to FIG. 1 and an identical part, and the detailed description is abbreviate | omitted.
[0048]
As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an adding circuit 5, an NTSC encoder 7, an OSD signal generating circuit 8, and an adding circuit 9. , A copy guard signal generation circuit 10 and a switch 11.
[0049]
That is, in this embodiment, the output signal of the MPEG decoder 4 is supplied to the NTSC encoder 7 via the adder circuit 9 instead of the switch 6 in the first embodiment. Further, a copy guard signal generation circuit 10 and a switch 11 are added, and an output signal of the copy guard signal generation circuit 10 is supplied to the adder circuit 9 via the switch 11. Other configurations are the same as those in the first embodiment.
[0050]
When the switch 11 is ON and the output signal of the copy guard signal generation circuit 10 is given, the adder circuit 9 superimposes the output signal of the MPEG decoder 4 on the output signal of the copy guard signal generation circuit 10. This is given to the NTSC encoder 7.
[0051]
The copy guard signal generation circuit 10 is a special signal (for example, a high luminance level and a low luminance level are alternately generated every predetermined time (for example, every 1 second) during the vertical blanking period of the output signal of the MPEG decoder 4. A copy guard signal) is generated.
[0052]
The switch 11 is turned on / off in accordance with the detection result signal output from the transport processing circuit 3, and applies a copy guard signal generated by the copy guard signal generation circuit 10 to the adder circuit 9 in the ON state.
[0053]
Next, the operation of the television receiver configured as described above will be described.
[0054]
First, the antenna 1, the demodulation circuit 2, the transport processing circuit 3, the MPEG decoder 4, the addition circuit 5 and the OSD signal generation circuit 8 operate in the same manner as in the first embodiment.
[0055]
When the detection result signal output from the transport processing circuit 3 indicates that copying is possible, that is, the copyright flag is “1” or the copyright flag is “0” but the original When the copy flag is “1” and the detection result signal indicates that, the switch 11 is turned off. As a result, the copy guard signal generated by the copy guard signal generation circuit 10 is blocked by the switch 11 and is not supplied to the addition circuit 9.
[0056]
At this time, the adder circuit 9 supplies the output signal of the MPEG decoder 4 to the NTSC encoder 7 as it is. The NTSC encoder 7 creates an NTSC signal or S signal from the given signal and outputs it as a VTR recording signal. Therefore, if a VTR such as a VHS system is connected to receive the output of the NTSC encoder 7, a normal NTSC signal or S signal is given to this VTR, and normal recording can be performed.
[0057]
On the other hand, when the detection result signal output from the transport processing circuit 3 indicates that copying is impossible, that is, the copyright flag is “0” and the original copy flag is “0”. When the detection result signal indicates that, the switch 11 is turned on. As a result, the copy guard signal generated by the copy guard signal generation circuit 10 is supplied to the adder circuit 9 via the switch 11. At this time, the adder circuit 9 provides the output signal of the MPEG decoder 4 to the NTSC encoder 7 after superimposing the copy guard signal. The NTSC encoder 7 creates an NTSC signal or S signal from the applied signal and outputs it as a signal for VTR recording. A copy guard signal is superimposed on the vertical blanking period of the signal. Therefore, even if a VHS VTR or the like is connected to receive the output of the NTSC encoder 7, the AGC (Auto Gain Control) circuit of this VTR malfunctions due to the copy guard signal, and the recorded image is Image quality is significantly degraded. The image recorded in the VTR in this way becomes difficult to see because the luminance level of the screen fluctuates every time dubbing is repeated.
[0058]
According to the present embodiment as described above, the copy guard signal is superimposed on the vertical blanking period of the VTR recording signal for the program for which copy prohibition is designated on the broadcasting station side. Can only record images with significantly degraded image quality. Therefore, random copying is surely prevented.
[0059]
In this embodiment, since an abnormal signal is output as a signal for VTR recording for a program for which copy prohibition is specified, the user feels anxiety that the device is malfunctioning or that the device is malfunctioning. Although there is a risk of recognizing it, the fact that copying is prohibited in this embodiment is also displayed on the CRT, so that the above problem can be avoided.
[0060]
(Third embodiment)
Next, a third embodiment of the present invention will be described.
[0061]
FIG. 9 is a functional block diagram showing a main configuration of a television receiver to which the copy protection system according to this embodiment is applied. 1 and 8 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0062]
As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, an NTSC encoder 7, an OSD signal generation circuit 8, and an addition circuit 9. , A switch 11 and an OSD signal generation circuit 12.
[0063]
That is, in this embodiment, an OSD signal generation circuit 12 is provided instead of the copy guard signal generation circuit 10 in the second embodiment. Other configurations are the same as those in the second embodiment.
[0064]
The OSD signal generation circuit 12 has the same configuration as a general one used for displaying a channel number or the like in an existing television receiver, but indicates an image copyright holder or a broadcast right holder. An OSD (On Screen Display) signal for displaying an image on a recorded image is generated. The OSD signal generation circuit 12 gives the generated OSD signal to the addition circuit 9.
[0065]
Next, the operation of the television receiver configured as described above will be described.
[0066]
First, the antenna 1, the demodulation circuit 2, the transport processing circuit 3, the MPEG decoder 4, the addition circuit 5 and the OSD signal generation circuit 8 operate in the same manner as in the first embodiment.
[0067]
When the detection result signal output from the transport processing circuit 3 indicates that copying is possible, that is, the copyright flag is “1” or the copyright flag is “0” but the original When the copy flag is “1” and the detection result signal indicates that, the switch 11 is turned off. As a result, the OSD signal generated by the OSD signal generation circuit 12 is blocked by the switch 11 and is not supplied to the addition circuit 9.
[0068]
At this time, the adder circuit 9 supplies the output signal of the MPEG decoder 4 to the NTSC encoder 7 as it is. The NTSC encoder 7 creates an NTSC signal or S signal from the given signal and outputs it as a VTR recording signal. Therefore, if a VTR such as a VHS system is connected to receive the output of the NTSC encoder 7, a normal NTSC signal or S signal is given to this VTR, and normal recording can be performed.
[0069]
On the other hand, when the detection result signal output from the transport processing circuit 3 indicates that copying is impossible, that is, the copyright flag is “0” and the original copy flag is “0”. When the detection result signal indicates that, the switch 11 is turned on. As a result, the OSD signal generated by the OSD signal generation circuit 12 is supplied to the addition circuit 9 via the switch 11. At this time, the adder circuit 9 gives the output signal of the MPEG decoder 4 to the NTSC encoder 7 after superimposing the OSD signal. The NTSC encoder 7 creates an NTSC signal or S signal from the given signal and outputs it as a VTR recording signal. The image indicated by the signal contains an image indicating the copyright owner or the broadcast right holder of the image. It is synthesized. Accordingly, a VHS VTR or the like is connected to receive the output of the NTSC encoder 7, and even if recording is performed with this VTR, an image showing the copyright owner or the broadcast right holder is synthesized with the recorded image. Is done.
[0070]
According to the present embodiment as described above, with respect to a program for which copy prohibition is designated on the broadcast station side, the OSD signal corresponding to the image indicating the copyright owner or broadcaster of the image is included in the VTR recording signal. Therefore, the VTR can only record an image in which an image showing the copyright owner or the broadcast right holder is synthesized. Accordingly, it is possible to clearly recognize that a person without distribution right has distributed the works or broadcasts of the person with distribution right in a disorderly manner, and it is possible to prevent random copying.
[0071]
Further, in this embodiment, since a program for which copy prohibition is specified is output as a VTR recording signal corresponding to an image synthesized by an image unnecessary for the user, it is uncomfortable for a user who does not grasp the situation. However, in the present embodiment, the fact that copying is prohibited is displayed on the CRT, so that the above problem can be avoided.
[0072]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described.
[0073]
FIG. 10 is a functional block diagram showing a main configuration of a television receiver to which the copy protection system according to this embodiment is applied. In addition, the same code | symbol is attached | subjected to FIG. 1 and an identical part, and the detailed description is abbreviate | omitted.
[0074]
As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, an NTSC encoder 7, an OSD signal generation circuit 8, and a selection switch 13. And a low-pass filter (LPF).
[0075]
That is, in this embodiment, the output signal of the MPEG decoder 4 is supplied to the NTSC encoder 7 via the selection switch 13 instead of the switch 6 in the first embodiment. Further, by switching the selection switch 13, the output signal of the MPEG decoder 4 can be supplied to the NTSC encoder 7 via the LPF 14 and the selection switch 13. Other configurations are the same as those in the first embodiment.
[0076]
The selection switch 13 is switched according to the detection result signal output from the transport processing circuit 3 and applies the output signal of the MPEG decoder 4 to the NTSC encoder 7 directly or via the LPF 14.
[0077]
The LPF 14 extracts and outputs only the low frequency component of the output signal of the MPEG decoder 4.
[0078]
Next, the operation of the television receiver configured as described above will be described.
[0079]
First, the antenna 1, the demodulation circuit 2, the transport processing circuit 3, the MPEG decoder 4, the addition circuit 5 and the OSD signal generation circuit 8 operate in the same manner as in the first embodiment.
[0080]
When the detection result signal output from the transport processing circuit 3 indicates that copying is possible, that is, the copyright flag is “1” or the copyright flag is “0” but the original When the copy flag is “1” and the detection result signal indicates that, the selection switch 13 is in a state of directly giving the output signal of the MPEG decoder 4 to the NTSC encoder 7. At this time, the NTSC encoder 7 creates an NTSC signal or S signal from the output signal of the MPEG decoder 4 and outputs it as a signal for VTR recording. Therefore, if a VTR such as a VHS system is connected to receive the output of the NTSC encoder 7, a normal NTSC signal or S signal is given to this VTR, and normal recording can be performed.
[0081]
On the other hand, when the detection result signal output from the transport processing circuit 3 indicates that copying is impossible, that is, the copyright flag is “0” and the original copy flag is “0”. When the detection result signal indicates that, the selection switch 13 is in a state of selecting the output of the LPF 14. Thereby, only the low frequency component of the output signal of the MPEG decoder 4 extracted by the LPF 14 is given to the NTSC encoder 7. The NTSC encoder 7 creates an NTSC signal or S signal from a given signal and outputs it as a VTR recording signal. The signal is generated only from the low frequency component of the output signal of the MPEG decoder 4. Therefore, it has only a small amount of information for displaying the original image. Therefore, even if a VHS VTR or the like is connected to receive the output of the NTSC encoder 7, the image recorded by this VTR is significantly deteriorated in image quality.
[0082]
According to the present embodiment as described above, the program for which copy prohibition is specified on the broadcast station side is generated from only the low frequency component of the output signal of the MPEG decoder 4 as a VTR recording signal. Since a signal is output, the VTR can only record an image with significantly deteriorated image quality. Therefore, random copying is surely prevented.
[0083]
In this embodiment, since an abnormal signal is output as a signal for VTR recording for a program for which copy prohibition is specified, the user feels anxiety that the device is malfunctioning or that the device is malfunctioning. Although there is a risk of recognizing it, the fact that copying is prohibited in this embodiment is also displayed on the CRT, so that the above problem can be avoided.
[0084]
(Fifth embodiment)
In each of the embodiments described so far, an output for VTR recording is an analog signal such as an NTSC signal or an S signal, and a television receiver that supports analog recording by a VHS VTR is exemplified. The present invention can also be applied to a television receiver that supports digital recording using a VTR, an optical disk, or the like.
[0085]
Hereinafter, a fifth embodiment of the present invention in which the copy protection system of the present invention is applied to a television receiver compatible with digital recording will be described.
[0086]
FIG. 11 is a functional block diagram showing a main configuration of the television receiver according to the present embodiment. In addition, the same code | symbol is attached | subjected to FIG. 1 and an identical part, and the detailed description is abbreviate | omitted.
[0087]
As shown in this figure, the television receiver of this embodiment has an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, an OSD signal generation circuit 8, and a signal correction circuit 15. It becomes.
[0088]
That is, in this embodiment, the switch 6 and the NTSC encoder 7 in the first embodiment are excluded, and the PES output from the transport processing circuit 3 is output as a signal for VTR recording via the signal correction circuit 15. ing. Other configurations are the same as those in the first embodiment.
[0089]
The signal correction circuit 15 changes its operating state according to the detection result signal output from the transport processing circuit 3, and implements or disconnects the output of the PES.
[0090]
Next, the operation of the television receiver configured as described above will be described.
[0091]
First, the antenna 1, the demodulation circuit 2, the transport processing circuit 3, the MPEG decoder 4, the addition circuit 5 and the OSD signal generation circuit 8 operate in the same manner as in the first embodiment.
[0092]
In this state, the signal correction circuit 15 performs processing as shown in FIG. That is, the signal correction circuit 15 first takes in the detection result signal output from the transport processing circuit 3 (step ST11), and determines whether or not copying is possible based on this signal (step ST12).
[0093]
Here, when the detection result signal output from the transport processing circuit 3 indicates that copying is possible, that is, the copyright flag is “1” or the copyright flag is “0”. When the original copy flag is “1” and the detection result signal indicates that, the signal correction circuit 15 performs PES output (step ST13). As a result, the PES is output as a signal for VTR recording. Therefore, if a digital VTR is connected to receive the PES output from the signal correction circuit 15, recording can be performed with this digital VTR.
[0094]
On the other hand, when the detection result signal output from the transport processing circuit 3 indicates that copying is impossible, that is, the copyright flag is “0” and the original copy flag is “0”. When the detection result signal indicates that, the signal correction circuit 15 cuts the PES output (step ST14). As a result, PES is not output as a signal for VTR recording. Therefore, even if a digital VTR is connected to receive the PES output from the signal correction circuit 15, a recording signal is not output to the digital VTR and cannot be recorded.
[0095]
According to the present embodiment as described above, PES is not output as a VTR recording signal for a program for which copy prohibition is specified on the broadcast station side, and recording to a digital VTR cannot be performed. Therefore, random copying is surely prevented.
[0096]
In this embodiment, since the PES is not output as a VTR recording signal for a program for which copy prohibition is specified, the user feels anxiety that the device is malfunctioning or recognizes that it is a device malfunction. However, in the present embodiment, the fact that copying is prohibited is displayed on the CRT, so that the above problem can be avoided.
[0097]
(Sixth embodiment)
Next, a sixth embodiment of the present invention to which the copy protection system of the present invention is applied will be described.
[0098]
FIG. 13 is a functional block diagram showing the main configuration of the television receiver according to the present embodiment. 1 and 11 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0099]
As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, an OSD signal generation circuit 8, a signal correction circuit 15, and a PES / A PS conversion circuit 16 is provided.
[0100]
That is, in the present embodiment, the PES / PS conversion circuit 16 is interposed between the transport processing circuit 3 and the signal correction circuit 15 in the fifth embodiment. Other configurations are the same as those in the fifth embodiment.
[0101]
The PES / PS conversion circuit 16 converts the PES output from the transport processing circuit 3 into a program stream. The PES / PS conversion circuit 16 gives the generated program stream to the signal correction circuit 15.
[0102]
Thus, the present embodiment can achieve the same effects as those of the fifth embodiment.
[0103]
(Seventh embodiment)
Next, a seventh embodiment of the present invention to which the copy protection system of the present invention is applied will be described.
[0104]
FIG. 14 is a functional block diagram showing the main configuration of the television receiver according to the present embodiment. The same parts as those in FIGS. 1, 11, and 13 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0105]
As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, an OSD signal generation circuit 8, a signal correction circuit 15, and a PES / A PS conversion circuit 16 is provided.
[0106]
That is, in this embodiment, the order of the signal correction circuit 15 and the PES / PS conversion circuit 16 in the sixth embodiment is reversed. Other configurations are the same as those in the sixth embodiment.
[0107]
With this configuration, in this embodiment, a VTR recording signal is output in the form of a program stream. The execution / disconnection of the program stream is performed by performing the execution / disconnection of the PES to the PES / PS conversion circuit 16 in the same manner as in the fifth embodiment described above by the signal correction circuit 15. Is called.
[0108]
Thus, the present embodiment can achieve the same effects as those of the sixth embodiment.
[0109]
(Eighth embodiment)
By the way, in each of the embodiments so far, when the copyright flag is “0” but the original copy flag is “1”, that is, when copying is permitted only once, a signal for VTR recording is output. Like to do. For this reason, if the signal recorded by the VTR is input to the transport processing circuit 3 again, it can be stored in another recording medium, and copying (dubbing) is performed.
[0110]
Therefore, an eighth embodiment of the present invention assuming such copying will be described below.
[0111]
FIG. 15 is a functional block diagram showing the main configuration of the television receiver according to the present embodiment. The same parts as those in FIGS. 1, 11, and 13 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0112]
As shown in this figure, the television receiver of this embodiment includes an antenna 1, a demodulation circuit 2, a transport processing circuit 3, an MPEG decoder 4, an addition circuit 5, an OSD signal generation circuit 8, a PES / PS conversion circuit 16, A signal correction circuit 17, a PS / TS conversion circuit 18, and an input selector 19 are provided.
[0113]
That is, in this embodiment, a signal correction circuit 17 is provided in place of the signal correction circuit 15 in the sixth embodiment described above. Further, a PS / TS conversion circuit 18 that receives a program stream reproduced from the recording medium M by a digital VTR (not shown) is provided. Further, an input selector 19 is provided between the demodulation circuit 2 and the transport processing circuit 3.
[0114]
The signal correction circuit 17 operates in substantially the same manner as the signal processing circuit 15, but is different in that it has a function of rewriting the original copy flag as necessary.
[0115]
The PS / TS conversion circuit 18 receives a program stream reproduced from the recording medium M by a digital VTR (not shown) and converts it into a transport stream. The PS / TS conversion circuit 18 gives the generated transport stream to the input selector 19.
[0116]
The input selector 19 receives the transport stream output from the demodulation circuit 2 and the transport stream output from the PS / TS conversion circuit 18, selects one of them, and supplies it to the transport processing circuit 3.
[0117]
Next, the operation of the television receiver configured as described above will be described.
[0118]
First, when the input selector 19 selects the output of the demodulation circuit 2, the antenna 1, the demodulation circuit 2, the transport processing circuit 3, the MPEG decoder 4, the addition circuit 5, and the OSD signal generation circuit 8 It operates similarly to the embodiment.
[0119]
When the input selector 19 selects the output of the PS / TS conversion circuit 18, the transport stream obtained by converting the program stream read from the recording medium M by the PS / TS conversion circuit 18 is transported. It is given to the processing circuit 3. Also at this time, the transport processing circuit 3, the MPEG decoder 4, the addition circuit 5, and the OSD signal generation circuit 8 operate in the same manner as in the first embodiment. Accordingly, the image recorded on the recording medium is reproduced.
[0120]
In this state, the signal correction circuit 17 performs processing as shown in FIG. That is, the signal correction circuit 17 first takes in the detection result signal output from the transport processing circuit 3 (step ST21), and determines whether or not copying is possible based on this signal (step ST22).
[0121]
Here, when the detection result signal output from the transport processing circuit 3 indicates that copying is possible, that is, the copyright flag is “1” or the copyright flag is “0”. When the original copy flag is “1” and the detection result signal indicates that, the signal correction circuit 17 subsequently determines whether or not unlimited copying is possible (step ST23).
[0122]
If the copyright flag is “1”, since unlimited copying is permitted, the signal correction circuit 17 outputs the program stream as it is (step ST24). As a result, the program stream is output as a signal for VTR recording. Accordingly, if a digital VTR is connected to receive the program stream output from the signal correction circuit 17, the program stream can be recorded on the recording medium M by this digital VTR. That is, if the input selector 19 selects the demodulation circuit 2, the received image is recorded on the recording medium. If the input selector 19 selects the PS / TS conversion circuit 18, the received image is read from the recording medium M. The outputted image is dubbed to another recording medium M.
[0123]
On the other hand, when the copyright flag is “0” but the original copy flag is “1”, only one copy is permitted, and unlimited copy is not permitted. Therefore, the signal correction circuit 17 performs program stream output after rewriting to “0” indicating the copy state of the original copy flag (step ST25) (step ST24). As a result, the program stream is output as a signal for VTR recording. Accordingly, if a digital VTR is connected to receive the program stream output from the signal correction circuit 17, the program stream can be recorded on the recording medium M by this digital VTR. That is, if the input selector 19 selects the demodulation circuit 2, the received image is recorded on the recording medium. If the input selector 19 selects the PS / TS conversion circuit 18, the received image is read from the recording medium M. The outputted image is dubbed to another recording medium M. However, the program stream recorded on the recording medium M has both the copyright flag and the original copy flag set to “0”.
[0124]
Now, when the detection result signal output from the transport processing circuit 3 indicates that copying is impossible, that is, the copyright flag is “0” and the original copy flag is “0”, and the detection result signal Indicates that this is the case, the signal correction circuit 17 cuts off the program stream output (step ST26). As a result, the program stream is not output as a signal for VTR recording. Therefore, even if a digital VTR is connected to receive the program stream output from the signal correction circuit 17, no recording signal is output to the digital VTR, and the program stream can be recorded on the recording medium M. Can not.
[0125]
At this time, when information that has been copied only once and is already copied is read from the recording medium M to be dubbed, the copyright flag and the original copy flag of this information are both “ Since it is set to 0 ″, the signal correction circuit 17 cuts off the output of the program stream, and the program stream cannot be recorded on the recording medium M, that is, dubbing cannot be performed.
[0126]
According to the present embodiment as described above, for a program for which copy prohibition is designated on the broadcast station side, a program stream is not output as a signal for VTR recording, and recording on the recording medium M is performed by a digital VTR. Can not do. Therefore, random copying is surely prevented.
[0127]
Further, according to the present embodiment, when information that is permitted to be copied only once is output as a signal for VTR recording, the original copy flag is rewritten to “0” indicating the copy state, and thus the information is reproduced. In this case, the program stream is not output as a signal for VTR recording, and recording on the recording medium M cannot be performed by the digital VTR. Therefore, it is possible to reliably allow only one copy and prevent random dubing.
[0128]
In this embodiment, since the program stream is not output as a VTR recording signal for a program for which copy prohibition is specified, the user feels anxiety that this is a device failure or that the device is a device failure. Although there is a risk of recognizing, the fact that copying is prohibited in this embodiment is also displayed on the CRT, so the above problem can be avoided.
[0129]
The present invention is not limited to the above embodiments. For example, in each of the above-described embodiments, display related to copy restriction is performed on the display screen of the CRT by the OSD signal. For example, a similar display is used on the display panel used for displaying the channel number being received. You may make it display. As long as the display panel can arbitrarily set display contents such as a liquid crystal panel, the display contents may be controlled. Alternatively, as shown in FIG. 17, LED displays 20 a and 20 b are provided, and a circuit for driving the LED displays 20 a and 20 b is provided, and LED display is performed according to the state of the detection result signal output from the transport processing circuit 3. The lighting states of the devices 20a and 20b may be changed.
[0130]
In each of the above-described embodiments, display relating to copy restriction is performed, but this is not essential and may not be performed.
[0131]
In each of the above embodiments, the copy protection system according to the present invention is applied to a television receiver that receives television broadcasts. However, the copy protection system is recorded on various media such as a magnetic tape, a magnetic disk, or an optical disk. The present invention can be applied to any system that distributes information on an arbitrary medium such as an information reproducing apparatus and reproduces information from the medium.
[0132]
In the third embodiment, the OSD signal generation circuits 8 and 12 may be shared as one.
[0133]
In the fifth to eighth embodiments, the signal correction circuits 15 and 17 stop outputting the signal for VTR recording when copying is impossible, but by performing arbitrary data processing, Processing similar to that in the second to fourth embodiments is also performed. Alternatively, a so-called stuffing process in which data for a certain period is fixed to one of 0 and 1 may be performed.
[0134]
The present invention is not limited to the above-described embodiments, and can be variously modified and implemented without departing from the scope of the invention.
[0135]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to provide a copy protection device capable of restricting random copying by an information user by the intention of an information supply source such as an author.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to a first embodiment of the invention is applied.
FIG. 2 is a diagram illustrating a relationship between a transport stream, a program stream, and a PES.
FIG. 3 is a diagram showing in detail a packet format (particularly a header format) of a transport stream.
FIG. 4 is a diagram showing in detail the format of the first 7 bytes of PES.
FIG. 5 is a diagram showing header timing pulses output from a demodulation circuit.
6 is a flowchart showing a processing procedure of the transport processing circuit shown in FIG. 1;
FIG. 7 is a diagram showing a display example of a copy restriction state.
FIG. 8 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to a second embodiment of the present invention is applied.
FIG. 9 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to a third embodiment of the present invention is applied.
FIG. 10 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to a fourth embodiment of the invention is applied.
FIG. 11 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to a fifth embodiment of the invention is applied.
12 is a flowchart showing a processing procedure of the signal correction circuit shown in FIG. 11;
FIG. 13 is a functional block diagram showing the main configuration of a television receiver to which a copy protection system according to a sixth embodiment of the invention is applied.
FIG. 14 is a functional block diagram showing the main configuration of a television receiver to which a copy protection system according to a seventh embodiment of the invention is applied.
FIG. 15 is a functional block diagram showing a main configuration of a television receiver to which a copy protection system according to an eighth embodiment of the invention is applied.
16 is a flowchart showing a processing procedure of the signal correction circuit shown in FIG. 15;
FIG. 17 is a view showing a modified example of display of a copy restriction state.
[Explanation of symbols]
1 ... antenna,
2 ... demodulation circuit,
3 ... Transport processing circuit,
3a: Copy flag state detection means,
4 ... MPEG decoder,
5 ... Adder circuit,
6 ... switch,
7 ... NTSC encoder,
8 ... OSD signal generation circuit,
9: Adder circuit,
10: Copy guard signal generation circuit,
11 ... switch,
12 ... OSD signal generation circuit,
13 ... Selection switch,
14: Low pass filter (LPF),
15 ... Signal correction circuit,
16 PES / PS conversion circuit,
17 ... Signal correction circuit,
18 ... PS / TS conversion circuit,
19 ... Input selector,
20a, 20b ... LED display.

Claims (2)

A copy enable / disable determining means for receiving a digital signal having a copy flag arbitrarily indicating whether or not copying is possible, and determining whether or not the digital signal can be copied based on the copy flag;
When it is determined by the copy permission / inhibition determining means that copying is possible, a signal enabling reproduction of predetermined information from the digital signal is output as a recording signal, and the copy permission / inhibition determining means cannot copy. be provided with a recording signal correcting means for outputting a signal corresponding to the information obtained by combining the extra image information displayed on the screen in addition to the predetermined information as a recording signal when it is determined that A copy protection device for restricting recording of digital signals on a recording medium. Claim 1 Symbol placement of copy protection apparatus characterized by having a notifying means for notifying that copying is prohibited for the user when it is determined that it is not possible to copy by the copy permission determination unit.

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