JP2001135020A - Information transmission/reception method and device, information transmission method and device, and information reception method and device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve problems that the transmission efficiency of provided information is lowered, and when the provided information is transmitted from a transmitter side to a receiver side, the information is not synchronized even when only one bit of error due to inversion exists in a synchronizing signal. SOLUTION: The transmitter side embeds and transmits recording limit information for limiting the recording of the provided information in the provided information. The receiver side receives the provided information, and takes out the recording limit information from the provided information synchronously with the recording limit information embedded in the provided information as synchronizing information to limit the recording for a recording means of the provided information based on the taken out recording limit information. Thus the synchronizing signal is detected surely without lowering the transmission efficiency of the provided information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an information transmitting / receiving method, an information transmitting method and an information receiving method, an information transmitting / receiving apparatus, an information transmitting apparatus and an information receiving apparatus, for example, when dubbing digital music data in which digital watermark information is embedded. It is suitable to be applied to the information transmitting method and the information receiving method, the information transmitting / receiving device, the information transmitting device and the information receiving device.

[0002]

2. Description of the Related Art In recent years, there has been proposed an information transmitting / receiving apparatus for embedding copyright information as digital watermark information in provided information such as audio data and video data.

In this information transmitting and receiving apparatus, a providing encoder embeds copyright information in provided information such as, for example, audio data, and stores the embedded provided information in a CD (Comparator).
ct Disk). A decoder installed in the home on the receiving side converts, for example, a CD-
Dubbing to a storage medium such as R (Compact Disk Recordable).

Here, in the dubbing process, the decoder reads out the embedded copyright information by detecting a synchronizing signal in the provided information, and determines whether or not to dub based on the read copyright information. It has been made to be.

[0005]

In the decoder having such a configuration, the possibility of erroneous detection increases as the number of bits of the synchronization signal decreases. The decoder, on the other hand,
As the number of bits of the synchronization signal increases, the certainty of detecting the synchronization signal increases. However, the decoder has a problem that the transmission efficiency of the provided information decreases as the number of bits of the synchronization signal increases. In addition, the encoder, when an error due to inversion exists even in one bit in the code data of the synchronization signal,
There was a problem that synchronization could not be detected.

The present invention has been made in view of the above points, and an information transmitting / receiving method, an information transmitting method, an information receiving method, and an information transmitting / receiving apparatus capable of reliably detecting a synchronization signal without lowering the transmission efficiency of provided information. , An information transmitting device and an information receiving device.

[0007]

According to the present invention, in order to solve the above-mentioned problems, the transmitting side embeds recording restriction information for restricting the recording of the provided information in the provided information, transmits the information, and receives the provided information on the receiving side. Then, the recording restriction information embedded in the provision information is used as synchronization information, the recording restriction information is extracted from the provision information while synchronizing, and recording of the provision information on the recording means is restricted based on the extracted recording restriction information. Thereby, the synchronization signal can be reliably detected without lowering the transmission efficiency of the provided information.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to the drawings.

In FIG. 1, reference numeral 1 denotes an overall configuration of an information transmitting / receiving apparatus, and a digital watermark encoder 2 as an information transmitting apparatus for embedding copyright information as digital watermark information in digital music data; CD (Compact Disk) 3 as a recording medium for recording digital music data in which information is embedded, digital watermark decoders 4A and 4B as information receiving devices for detecting copyright information, and digital music data desired for dubbing. It comprises a magneto-optical disk 5, a digital audio tape 6, and a CD-R 7 as recording media.

The copyright information DC is, for example, 2-bit copy control information (hereinafter referred to as CCI: Copy Control In) which is restriction information for restricting the number of times of dubbing.
formation)) and usage ID (IDentifier)
And 11-bit copyright-attached information including a digital watermark-related code and the like.

[0011] The electronic watermark encoder 2 on the providing side includes:
A digital watermark encoding process for converting the copyright information DC supplied from the outside into a Hamming code and embedding it into digital music data D1 supplied from the outside is performed.

Here, the Hamming code is composed of information bits (k bits) and check bits (m bits) as shown in FIG.
And the total code length (n bits) is “k + m” bits. This Hamming code has a configuration pattern as shown in FIG.

In practice, the digital watermark encoder 2 is configured as shown in FIG.
15-bit CCI (DC
1 to DC4), and the copyright information DC supplied from the outside, for example, when the CCI is “01”, 15 corresponding to the “01”
It is converted to bit CCI “10100010001110” (DC2).

The digital watermark encoder 2 generates 4 bits of check bits based on 11 bits of copyrighted information out of copyright information DC supplied from the outside, and adds this to the copyrighted information. Then, the data is converted into 15-bit copyright attached information that is a Hamming code.

The digital watermark encoder 2 performs a fast Fourier transform (FFT) from the time axis to the frequency axis.
ier Transform) processing, CCI (D
Copyright information D with additional copyright information added before and after C2)
C is embedded in digital music data D1 supplied from the outside.

In this embedding process, for example, FIG.
The numbers from 0 to 15 are assigned in advance from the lower frequency band to the frequency spectrum obtained by performing the fast Fourier transform from the time axis to the frequency axis as shown in FIG. The embedding is performed by changing the gain of the frequency band of the corresponding number.

In this case, the digital watermark encoder 2 performs fast Fourier transform processing as shown in FIG.
Each frequency spectrum is generated for the digital music data divided every two samples. Then, in the embedding process, the digital watermark encoder 2
The coefficients (CO1 to 5) of the frequency band corresponding to the copyright information DC to be embedded in each generated frequency spectrum are set to “0”, and the copyright information DC is embedded in this frequency band. Thereby, the digital watermark encoder 2 generates the music data D2 with copyright information, and ends the digital watermark encoding process.

At this time, the digital watermark encoder 2 assigns the CC to a specific frequency band from among the numbers assigned to each number (FIG. 5).
I (DC2) is embedded. Accordingly, the receiving side need only detect one frequency band without detecting a synchronization signal from a plurality of frequency bands. Thus, on the receiving side, the detection process can be facilitated.

That is, as shown in FIG. 7, the digital watermark encoder 2 starts from the start step of the digital watermark encoding processing procedure of the routine RT1 and moves to step SP1. In step SP1, the digital watermark encoder 2
Converts the 2-bit CCI information into a 15-bit CCI (DC2), which is a Hamming code, and performs the next step SP2
Move on to

In step SP2, the digital watermark encoder 2 outputs digital music data D
Embedding CCI in 1 and proceeding to the next step SP3,
The digital watermark encoding process ends.

The providing side performs a predetermined recording operation on the music data D2 with copyright information generated by the digital watermark encoder 2 so that the optical disk 3A
ＮN (FIG. 1).

A purchaser on the receiving side purchases, for example, an optical disk 3A, and copyrights the purchased optical disk 3A to one of a magneto-optical disk 5, a digital audio tape 6, and a CD-R 7 via a digital watermark decoder 4A. The information-added music data D2 can be dubbed.

In this case, the digital watermark decoder 4A performs a CCI comparison of four patterns as comparison information having the same sign as the four conversion patterns (FIG. 4) of the digital watermark encoder 2 as shown in FIG. The information is stored in advance, and the CCI comparison information is compared with the music data D2 with copyright information supplied from the optical disk 3. Thereby, the digital watermark decoder 4A detects a code length of 15 bits in which the code of 14 bits or more matches any of the CCI comparison information in the music data D2 with copyright information.

When the digital watermark decoder 4A detects a code length of, for example, "101000100011001" in which the codes match with each other by 14 bits or more, the detected "101000100011001"
”, Four check bits (C1, C2, C3, C3) in the same manner as when created by the digital watermark encoder 2.
4) is generated.

Further, the digital watermark decoder 4A calculates, based on the generated check bits, whether or not there is an error for "101000100011001". If an error code exists, the digital watermark decoder 4A corrects the error code. Check processing is performed.

Here, as shown in FIG. 9, a Hamming code having a total code length (n = k + m) of 7 bits including 4 information bits (k) and 3 check bits (m) is shown. The hamming check process when using is described.

On the transmitting side, information to be transmitted is converted into information bits (X ₁ , X ₂ , X ₃ , X ₄ ) every four bits.
, And three check bits (C ₁ , C ₂ , C ₃ ) are created from each of the information bits divided into the four bits, and these are added to each information bit to form a 7-bit code word. Transmit to the receiving side.

On the receiving side, four information bits (X ₁ , X ₁ ) out of the 7-bit code word supplied from the transmitting side
_{X 2, X 3, X 4} ) creates a check bit of 3 bits in the same manner as the transmission side _{(Q 1, Q 2, Q} 3) from a check bit which is actually supplied with the check bits and the prepared The values are compared and set to "0" when they match, and to "1" when they do not match.

In this comparison result (S ₁ , S ₂ , S ₃ ), if there is no error at all, it is represented as “0, 0, 0”, and if there is any error, it is shown in FIG. In this way, the position of a one-bit error can be determined.
On the receiving side, if there is an error position, the error position is corrected by executing a hamming check process.
As described above, in the hamming check process, a one-bit error is corrected.

That is, the digital watermark decoder 4A previously assigns the operation numbers x1 to x15 in order from the left to the first to fifteenth bits, respectively, and based on these, as shown in FIG. Then, the process enters the start step of the hamming check processing procedure of the routine RT2, and proceeds to step SP21.

In step SP21, the digital watermark decoder 4A initializes the generated check bits to set the code to "0", and proceeds to the next step SP22.

In step SP22, the digital watermark decoder 4A sets the first bit (C1) of the check bit to x
It is determined whether or not the result of the exclusive OR operation of each bit of 3, x5, x7, x9, x11, x13, and x15 matches.

If a negative result is obtained here, this means that the result of the exclusive OR operation of each bit does not match the check bit C1 of the first bit. The process moves to step SP23. In step SP23, the digital watermark decoder 4A
Inverts the sign of the first check bit C1 to “1”, and proceeds to the next step SP24.

On the other hand, if a positive result is obtained, this means that the result of the exclusive OR operation of each bit matches the check bit C1 of the first bit. 4A moves to step SP24.

In step SP24, the digital watermark decoder 4A sets the second bit (C2) of the check bit to x
It is determined whether the result of the exclusive OR operation of each bit of 3, x6, x7, x10, x11, x14, and x15 matches.

If a negative result is obtained here, this means that the result of the exclusive OR operation of each bit does not match the check bit C2 of the second bit. At this time, the digital watermark decoder 4A The process moves to step SP25. In step SP25, the digital watermark decoder 4A
Inverts the sign of the second check bit C2 to "1" and proceeds to the next step SP26.

On the other hand, if a positive result is obtained, this means that the result of the exclusive OR operation of each bit matches the second check bit C2. At this time, the digital watermark decoder 4A moves to step SP26.

In step SP26, the digital watermark decoder 4A sets the third bit (C3) of the check bit to x
It is determined whether the result of the exclusive OR operation of each bit of 5, x6, x7, x12, x13, x14, and x15 matches.

If a negative result is obtained here, this means that the result of the exclusive OR operation of each bit does not match the check bit C3 of the third bit, and at this time, the digital watermark decoder 4A The process moves to step SP27. In step SP27, the digital watermark decoder 4A
Inverts the sign of the third check bit C3 to "1", and proceeds to the next step SP28.

On the other hand, if a positive result is obtained, this indicates that the result of the exclusive OR operation of each bit matches the third check bit C3. At this time, the digital watermark decoder 4A moves to step SP28.

In step SP28, the digital watermark decoder 4A sets the fourth bit (C4) of the check bit to x
9, x10, x11, x12, x13, x14, x15
It is determined whether or not the result of the exclusive OR operation of each bit is the same.

If a negative result is obtained here, this means that the result of the exclusive OR operation of each bit does not match the fourth check bit C4. The process moves to step SP29. In step SP29, the digital watermark decoder 4A
Inverts the sign of the fourth check bit C4 to “1” and proceeds to the next step SP30.

On the other hand, if a positive result is obtained, this indicates that the result of the exclusive OR operation of each bit matches the fourth check bit C4. 4A moves to step SP30.

In step SP30, the digital watermark decoder 4A calculates

[0045]

(Equation 1)

The error position is calculated according to the formula (1), and the error is corrected by inverting the operation number corresponding to the number obtained as a result. Then, the digital watermark decoder 4A proceeds to the next step SP31 and ends the hamming processing procedure.

The digital watermark decoder 4A calculates “101000100011” by executing the hamming check process.
001 "is detected as having an error in the third code from the right. Then, the digital watermark decoder 4A corrects the error by inverting the detected error position (“10
1000100011101 ").

After the completion of the hamming check process, the digital watermark decoder 4A regards the CCI information (DC2) as a synchronization signal and outputs this when the error correction is successful. Then, the digital watermark decoder 4A outputs the CCI information (D
The hamming check process is also performed on the copyright attached information embedded before and after C2), and if there is an error code, the code is corrected. Further, a digital watermark decoder 4
A outputs the copyright attached information, and ends the digital watermark decoding process.

That is, the digital watermark decoder 4A starts from the start step of the digital watermark decoding procedure of the routine RT3 and moves to step SP31. Step SP
At 31, the digital watermark decoder 4A detects whether there is 15-bit code length data whose code matches with the CCI comparison information by 14 bits or more.

If a negative result is obtained here, this means that there is no 15-bit code length data whose code matches the CCI comparison information by 14 bits or more. At this time, the digital watermark decoder 4A returns to step SP31. And again detects the 15-bit code length data with the same code of 14 bits or more.

On the other hand, if an affirmative result is obtained, this means that there is 15-bit code length data whose code matches with the CCI comparison information by 14 bits or more.
At this time, the digital watermark decoder 4A performs the next step SP
Move to 32.

In step SP32, the digital watermark decoder 4A calculates whether or not there is an error in the 15-bit code length data whose code matches the code of 14 bits or more detected in step SP31, and corrects the position if there is an error. A hamming check process (FIG. 11) is performed. If a positive result is obtained here, this indicates that there is an error in the CCI code.
A moves to the next step SP34. Step SP34
In, the digital watermark decoder 4A corrects the error position of the CCI, and proceeds to the next step SP35.

On the other hand, if a negative result is obtained, it indicates that there is no error in the CCI code, and at this time, the digital watermark decoder 4A performs the following step SP3.
Move to 5.

In step SP35, the digital watermark decoder 4A determines whether or not the corrected CCI has been corrected. Here, if an affirmative result or no error is obtained in step SP33, this indicates that the error position of the CCI has been corrected, and the digital watermark decoder 4A proceeds to the next step SP36. In step SP36, the digital watermark decoder 4A outputs the CCI, and proceeds to the next step SP37.

On the other hand, if a negative result is obtained, this indicates that the error position of the CCI has not been corrected, but the possibility that the signal is a synchronization signal is left. At this time, the digital watermark decoder 4A Is the next step SP37
Move on to In step SP37, the digital watermark decoder 4A assumes that CCI is a synchronization signal, and
Move to 38.

In step SP38, the digital watermark decoder 4A calculates whether or not there is an error in the copyrighted information, and if there is an error, executes a hamming check process (FIG. 11) for correcting the position, and then performs Step SP39
Move on to

In step SP39, the digital watermark decoder 4A outputs the copyrighted information, and the next step S39
Moving to P40, the digital watermark decoding process ends.

Then, the digital watermark decoder 4A dubs the music data D2 with copyright information to, for example, a CD-R7 in accordance with the number of recordings of the outputted copyright information (CCI (DC2)).

The digital watermark decoder 4B having the same structure as the digital watermark decoder 4A receives the notification of the dubbing operation by a third party who is not the authorized purchaser who borrows the CD-R7, and performs digital watermark decoding processing (FIG. 12). ) To output copyright information (CCI (DC2) and copyright attached information).

However, here, the digital watermark decoder 4B
Does not perform dubbing due to the restriction on the number of times of recording of CCI (DC2) in the output copyright information or the restriction on the copyright attached information. Therefore, third-party users
Due to the restriction of the copyright information that the user cannot know, the music data D2 with copyright information cannot be heard.

As described above, in the information transmitting / receiving apparatus 1, the digital watermark encoder 2 on the providing side converts the CCI into a Hamming code, which is an error correction code, and converts the converted CC.
Since I is used as a synchronization signal by the digital watermark decoders 4A and 4B on the receiving side, it is not necessary to embed a synchronization signal in digital music data separately from CCI. Thereby, the information transmitting / receiving device 1 can correct the transmission efficiency of the music data D2 with copyright information without lowering the transmission efficiency and even if an error occurs during transmission.

In the above configuration, the digital watermark encoder 2 on the transmission side transmits a 2-bit C signal supplied from the outside.
The CI is converted to a Hamming code which is a 15-bit error correction code. Then, the digital watermark encoder 2 uses a fast Fourier transform process for converting from the time axis to the frequency axis,
By embedding the CI in a specific frequency band, music data D2 with copyright information is generated.

On the other hand, the digital watermark decoders 4A and 4B on the receiving side detect 15-bit code length data whose 14-bit code matches the CCI comparison information stored in advance in the music data D2 with copyright information. I do.

Then, the digital watermark decoders 4A and 4B
Performs a Hamming check process on the code length data that matches the CCI comparison information, thereby detecting an error position of the code, and correcting the error code, if any, as a detection result.

Further, digital watermark decoders 4A and 4B
Outputs the corrected 15-bit code length data and synchronizes it. Also, digital watermark decoders 4A and 4B
Performs a Hamming check process on the copyright attached information embedded before and after the synchronized CCI, and outputs this.

According to the above configuration, in the information transmitting / receiving apparatus 1, the provider's digital watermark encoder 2 converts the CCI into a Hamming code, which is an error correction code, and converts the converted CCI to the digital watermark decoder 4A on the receiving side. And 4B are used as synchronization signals.
Separately, the synchronization signal does not have to be embedded in the digital music data. Thereby, the information transmitting / receiving device 1 can correct the transmission efficiency of the music data D2 with copyright information without lowering the transmission efficiency and even if an error occurs during transmission.

As a result, the digital watermark decoders 4A and 4B can reliably detect the CCI converted into the Hamming code as a synchronization signal, thereby enabling the CD to be dubbed.
It is possible to avoid that dubbing cannot be performed even though the user has purchased. Thus, the user can use the digital watermark decoders 4A and 4B with confidence.

In the above-described embodiment, the case where the Hamming code is used as the error correction means has been described. However, the present invention is not limited to this.
ad-Solomon) codes or other error correction means may be used. In this case, effects similar to those of the above-described embodiment can be obtained.

Also, in the above-described embodiment, the case where digital music data is provided as provided information has been described. However, the present invention is not limited to this.
Multimedia data such as G animation may be provided as provided information.

In the above-described embodiment, the case where the digital watermark decoders 4A and 4B as the digital decoding device are installed in the home has been described. However, the present invention is not limited to this. AV such as computer equipment and digital video tape recorders
It may be installed in a portable information terminal device such as a device, a PDA (Personal Digital Assistant), or a mobile phone.

In the above-described embodiment, the providing side stores the music data D2 with copyright information in advance on the optical disk 3.
The present invention is not limited to this, and the user downloads the copyright information-added music data D2 from the server 8 via a network and records it on the optical disk 3. You may do it. In this case, effects similar to those of the above-described embodiment can be obtained.

[0072]

As described above, according to the present invention, the transmitting side embeds the recording restriction information for restricting the recording of the provided information in the provided information, transmits the information, receives the provided information, and receives the provided information. The recording information is extracted from the provided information while synchronizing using the recording restriction information embedded in the information as synchronization information, and the recording of the provided information in the recording means is restricted based on the extracted recording restriction information, thereby providing the provided information. Synchronization signal can be reliably detected without lowering the transmission efficiency of the signal.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an overall configuration of an information transmitting / receiving apparatus according to the present invention.

FIG. 2 is a schematic diagram illustrating a configuration of a Hamming code.

FIG. 3 is a schematic diagram illustrating an example of a configuration pattern of a Hamming code.

FIG. 4 is a schematic diagram illustrating a conversion example of copy control information.

FIG. 5 is a schematic diagram showing frequency spectra to which respective numbers are assigned.

FIG. 6 is a schematic diagram illustrating an example of fast Fourier transform.

FIG. 7 is a flowchart illustrating a digital watermark encoding processing procedure.

FIG. 8 is a schematic diagram illustrating an outline of a decoding processing procedure.

FIG. 9 is a schematic diagram illustrating a configuration of a (7, 4) Hamming code.

FIG. 10 is a schematic diagram showing values of check bits for one-bit error of (7, 4) Hamming code.

FIG. 11 is a flowchart illustrating a hamming check processing procedure.

FIG. 12 is a flowchart showing a digital watermark decoding processing procedure.

[Explanation of symbols]

1. Information transmitting / receiving device 2. Digital watermark encoder
3A to N: optical disk, 4A and 4B: digital watermark decoder, 5: magneto-optical disk, 6: digital tape, 7: CD-R.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H03M 13/33 H04L 1/00 B H04L 1/00 G10L 9/00 E (72) Inventor Ken Iizuka Tokyo 6-35 Kita-Shinagawa, Shinagawa-ku Sony Corporation F-term (reference) 5D044 AB05 BC03 CC04 CC09 GK17 GM22 GM26 HL08 HL11 5J065 AC02 AC03 AD05 AE03 AE06 AH07 AH18 AH19 5J104 AA13 AA14 NA32 5K014 AA01 BA09EA01

Claims (18)

[Claims] 1. A method in which recording restriction information for restricting recording of the provision information is embedded and transmitted in the provision information, the provision information is received, and synchronization is performed using the recording restriction information embedded in the provision information as synchronization information. An information transmission / reception method, wherein the recording restriction information is extracted from the provided information while the recording is performed, and recording of the provided information in a recording unit is restricted based on the extracted recording restriction information. 2. The information transmission / reception method according to claim 1, wherein the recording restriction information is expressed in a larger amount of information than the recording restriction information and is embedded in the provided information. 3. The information transmission / reception method according to claim 1, wherein the recording restriction information is taken out while performing error correction on the provided information. 4. When the recording restriction information and the information accompanying the recording restriction information are embedded in different frequency bands and transmitted in the provision information, the recording restriction information embedded in the provision information is transmitted to the recording restriction. 2. The method according to claim 1, wherein the information is used as synchronization information of information accompanying the information.
Information transmission and reception method described in. 5. An information transmission method comprising embedding recording restriction information for restricting recording of the provided information in the provided information and transmitting the information. 6. The information according to claim 5, wherein the transmission method includes embedding the recording restriction information in the provided information by expressing the recording restriction information in a larger amount of information than the information amount of the recording restriction information. Transmission method. 7. Receiving provided information, taking out the recording restriction information from the provided information while synchronizing using the recording restriction information embedded in the provided information as synchronization information,
An information receiving method, wherein recording of the provided information in a recording unit is restricted based on the extracted recording restriction information. 8. The information receiving method according to claim 7, wherein the information receiving method extracts the recording restriction information while performing error correction on the provided information. 9. Transmission means for embedding and transmitting recording restriction information for restricting recording of the provision information in the provision information, receiving the provision information, and using the recording restriction information embedded in the provision information as synchronization information Receiving means for extracting the recording restriction information from the provision information while synchronizing with the reception information, and restricting recording of the provision information on the recording means based on the retrieved recording restriction information. Transceiver. 10. The information according to claim 9, wherein the transmission unit embeds the recording restriction information in the provided information by expressing the recording restriction information in a larger amount of information than the information amount of the recording restriction information. Transmitter / receiver. 11. The information transmitting / receiving apparatus according to claim 9, wherein said receiving means extracts the recording restriction information while performing error correction on the provided information. 12. When the recording restriction information and the information accompanying the recording restriction information are embedded in different frequency bands and transmitted in the provision information, the recording restriction information embedded in the provision information is replaced with the recording restriction information. The information transmitting / receiving apparatus according to claim 9, wherein the information transmitting / receiving apparatus is used as synchronization information of information accompanying the information. 13. An information transmitting apparatus comprising transmitting means for embedding and transmitting recording restriction information for restricting recording of the provided information in the provided information. 14. The information according to claim 13, wherein said transmitting means embeds the recording restriction information in the provided information by expressing the recording restriction information in a larger amount of information than the information amount of the recording restriction information. Transmission device. 15. The information according to claim 13, wherein said transmitting means embeds the recording restriction information and the information accompanying the recording restriction information in the provided information in different frequency bands and transmits the information. Transmission device. 16. Receiving provided information, taking out the recording restriction information from the provided information while synchronizing using the recording restriction information embedded in the provided information as synchronization information, and adding the recording restriction information to the retrieved recording restriction information. An information receiving apparatus, comprising: receiving means for restricting recording of the provided information on the recording means based on the information. 17. The information transmitting and receiving apparatus according to claim 16, wherein said receiving means extracts the recording restriction information while performing error correction on the provided information. 18. The information transmitting / receiving apparatus according to claim 16, wherein said receiving means uses the recording restriction information embedded in the provided information as synchronization information of information accompanying the recording restriction information.