JP3412117B2 - Digital watermark creation method using coding parameter of quantization and readout method thereof - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for digitally compressing voices and images for transmission and recording, and secret information (electronic watermark information) is embedded in the compressed bit string, and the embedded information is embedded. The electronic watermark creation method and electronic watermark read used to prevent unauthorized copying and resale by making it possible to retrieve the watermark information such as the creator and distribution destination information of the compressed bit string from the stored information. Regarding the method.

[0002]

2. Description of the Related Art Electronic watermarks specifically provide a mechanism for simultaneously satisfying the following two conditions. (1) Although a normal decoder can reproduce audio and images, it is impossible to find where the electronic watermark information is embedded, and if the electronic watermark information is rewritten or erased, the reproduced music or The image is greatly deteriorated.

(2) On the other hand, the inspection decoder can read the watermark information. When different watermark information is embedded in one information (music or image) and distributed, the watermark information may be easily erased by the method of embedding the watermark information in only a few bits. is there. In other words, it is difficult to detect watermark information with one bit sequence, but if you compare a number of multiple bit sequences with watermark information embedded, you can see only a small portion of the watermark information embedded, It is possible to erase the watermark information of all bit strings without degrading the performance.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to change a bit string of a normal compression code and a decoder without changing
Another object of the present invention is to provide a method of creating electronic watermark information and a method of reading the watermark information in which watermark information is embedded and the contents of the watermark cannot be changed by a decoder while suppressing deterioration of the quality of voice and images.

[0005]

According to the present invention, the value of the control parameter relating to the coding process of vector quantization is controlled and changed according to the watermark information. With this configuration, unlike the conventional embedding into the code sequence of the scalar quantization, it is difficult for the decoder to decode and change the watermark information, and the deterioration due to the embedding of the watermark information is small.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION As shown in FIG. 1, an input signal to be compression encoded from an input terminal 11 is compression encoded in an encoder 12. For example, it is encoded by vector quantization, and the encoded output is output from the output terminal 13. In the present invention, watermark information is input to the coding parameter control unit 15 from the watermark information terminal 14, the coding control parameter in the coding process in the encoder 12 is slightly changed according to the watermark information, and coding is performed. The watermark information is embedded in the compressed bit sequence by changing the compressed bit sequence (encoded bit sequence) output from the device 12.

Although the compressed bit sequence changes depending on the watermark information, the output signal obtained by decoding the compressed bit sequence by the ordinary decoder 17 has the encoding control parameter changed by the watermark information. If not, the difference from the decoded output of the compressed bit sequence is small, and the deterioration can be ignored. In addition, the ordinary decoder 17 cannot read the watermark information. According to the embodiment of the watermark information reading method of the present invention,
Then , in the watermark information decoder 21, the same signal sequence as the signal sequence of the input terminal 11 input to the encoder 12 is encoded by the encoder 22 in the same encoding format without being controlled by the watermark information. The encoded result is compared with the encoded sequence of the encoded output terminal 13. By this comparison, watermark information is obtained at the output terminal 24 according to different states.

An example of using a weighting coefficient of vector quantization will be described as an example of a control parameter for encoding in the encoding parameter control unit 15. Weighted vector quantization in the frequency domain is one of the promising encoding methods for encoding musical sounds and voices. The signal to be quantized, which is flattened in the frequency domain, is x (i), and the reproduction vector with index j is e.
_j (i), the vector envelope is w (i), and the hearing correction coefficient is r
When (0 <r <1), the distortion in this quantization is defined as follows.

D = Σ _{i = 0} ^L-1 w (i) ^r (x (i) −e _j (i)) ² (1) Usually, a value of about r = 0.7 is used. If this r is changed slightly, the transmission code will be different and the distortion of the decoded signal will also change,
The difference is slight. On the other hand, it is difficult for the decoder that receives the transmission code to estimate what the value of r is. In order to extract r from an encoded bit string, it is necessary to re-encode the input signal to be encoded and compare it with the already encoded (distributed) bit sequence. When 1-bit watermark information is put in one vector, for example, if the watermark information is “0”, r = 0.
65, if "1", r = 0.75. When the difference of r is large depending on whether the watermark information is “0” or “1”,
The output code is likely to differ depending on whether it is “0” or “1”, but the amount of change in the quality of the encoded information is also large.
When the difference in r based on the watermark information is small, the output code may not change depending on r.

When a control parameter for encoding is changed only for a specific vector of a plurality of vectors in an input vector, for example, a vector for every certain time, if the change of r does not change the transmission code, the vector is changed. Not used for embedding watermark information, r =
You can set it to 0.7. However, if you want to include not only multiple watermark information, that is, fixed information of the sender such as the creator, but also information such as the user's name and time as watermark information in the transmission sequence of the same information source, input vector It is not enough to put watermark information only in a specific vector inside.
In such a case, most of the bit sequences are common when the transmission bit sequences in which different watermark information is included in the transmission code of the same information source are collected and compared, but a specific bit sequence in which the watermark information is included is common. This is because only the transmission bit part corresponding to the vector is different from the corresponding part of the other series, and the position of the watermark information can be easily known. As a result, by rewriting the bit sequence corresponding to the watermark information to the original bit sequence, the watermark information can be erased without causing information deterioration.

Even if a bit sequence including a plurality of pieces of watermark information is collected, it is difficult to completely erase the watermark information if the watermark information is redundantly included in many transmission codes of the compression code. One method of making the watermark information redundant is to convert the watermark information into a redundant intermediate bit sequence and control the encoding of a plurality of input vectors for the original one bit of watermark information.
Control parameters. For example, as shown in FIG. 2, 1-bit watermark information is diffused into 5-bit intermediate bits for control. In advance, "0" of watermark information is associated with 5 bits, that is, 16 out of 32 kinds of bit sequences, and the remaining 16 sequences are associated with "1".

When embedding watermark information, if the watermark information is "0", one of the 16 intermediate bits corresponding to "0" is randomly selected, for example, 001.
The information of 01 is used as the control parameter of five vector quantization. That is, when vector quantization is sequentially performed on a specific vector of the input vector, the optimum code is searched for r = 0.65 for the first , second, and fourth vectors, and the compressed bit sequence is set to the third vector. For the fifth vector and r, the optimum code is searched for with r = 0.75, and is set as a compressed bit sequence.

In the case where the watermark information is embedded in this way, even if the vector code corresponding to the control parameter is found by observing the sequence of the plurality of compressed bits, the sequence of intermediate bits can be estimated. Only. It is difficult to find out how this intermediate bit string further corresponds to the watermark, that is, to estimate the correspondence between the watermark information and the intermediate bit string. Therefore, it is difficult to read the watermark information and cannot be surely erased.

When using multiple vector quantization or alias conjugate vector quantization (see, for example, Japanese Patent Laid-Open No. 1-205638), another control parameter for encoding can be used for embedding watermark information. This embodiment will be described below. In this quantization, as shown in FIG.
The final reproduction vector is created by the sum of the reproduction vectors from the codebooks 31 and 32. For the input vector x from the input terminal 11, the combination (j, k) of the intermediate reproduction vectors e and f from the codebooks 31 and 32 is converted into the following quantization distortion D:
The control unit 33 searches so as to minimize

D = Σ _{i = 0} ^L−1 (x (i) −e _j (i) −f _k (i)) ² (2) In order to minimize the quantization distortion D, all of e and f are Although the error may be calculated by the combination of, the calculation amount is usually very large. Therefore, in reality, as a suboptimal method, the vector e from each codebook 31, 32 is
Distortions D _e and D _f are calculated separately for _f , a plurality of candidates are selected, and a transmission code is determined by a combination of only the remaining candidates.

D _e = Σ _{i = 0} ^L−1 (x (i) −e _j (i)) ² D _f = Σ _{i = 0} ^L−1 (x (i) −f _k (i)) ² ( 3) At this time, assuming that the numbers of candidates to be left in j and k are n _e and n _f , the transmission code changes when the number of candidates is changed as a parameter, but from the decoder, that is, the number of remaining candidates n _e , N _f are the same, it is impossible to judge the change _if the ratios of n _e and n _f are different. Even if the final distortion is the same, the combination (j, k) is often different.

Therefore, the parameters n _e and n _f can be used as watermark information. For example, when the watermark information is "0", n _e = 10 and n _f = 20, and when the watermark information is "1", n _e = 20 and n _f = 10. As described above, even if n _e and n _f are changed, the distortion of the decoded signal is hardly influenced by the embedding of the watermark information in the ordinary decoder, and it is difficult to estimate the watermark information.
Reading watermark information of the present invention for such watermark information
An embodiment of the squeeze method encodes the input signal to be compressed as in FIG. 1 with n _e = 10, n _f = 20,
The result is compared with the compressed bit string, it is determined that the same sign watermark information is “0”, and the input signal to be compressed is coded with n _e = 20 and n _f = 10. , And the compressed bit string are compared, and it is determined that the watermark information having the same code is “1”.

Even in the method of changing the preselected numbers n _e and n _f , as in the embodiment in which the hearing correction coefficient r is changed,
If the watermark information is applied only to the transmission code of a specific vector in the input signal, the watermark information may be erased by collecting and comparing bit sequences in which different watermark information is embedded. There is. For this purpose, each bit of the watermark information may be associated with a large number of redundant intermediate bit sequences as in the above case.

[0019]

The watermark generation method based on vector quantization of the present invention does not need to change the order of code sequences or the configuration of the decoder at all, can suppress the deterioration of the quality of decoded information to a small extent, and can perform decoding. It is difficult to rewrite a watermark with a container. Furthermore, even if a plurality of compressed bit strings containing different watermark information with respect to the compression code for the same signal sequence are collected, it is difficult to rewrite the watermark information without deterioration. Therefore, it is possible to embed the information of both the contracting party on the sending side and the receiving side of the compressed data as a watermark.

[Brief description of drawings]

FIG. 1 is a diagram showing a functional configuration for carrying out a watermark information creating method of the present invention and a watermark information reading method of the present invention.

FIG. 2 is a diagram showing an embodiment in which watermark information is associated with a redundant intermediate bit string.

FIG. 3 is a diagram showing a functional configuration for implementing a multi-vector quantization method.

Continuation of front page (56) Reference JP-A-8-185200 (JP, A) JP-A-1-205638 (JP, A) JP-A-10-224342 (JP, A) JP-A-10-65912 (JP , A) JP-A-10-313402 (JP, A) W.A. Bender, D.M. Gruhl, Norishige Morimoto, A. Lu, Data Hiding Technology Supporting Digital Watermarking (above), Nikkei Electronics, Japan, Nikkei BP, February 24, 1997, 683, 149-162 W. Bender, D.M. Gruhl, Norishige Morimoto, A. Lu, Data Hiding Technology Supporting Digital Watermarking (below), Nikkei Electronics, Japan, Nikkei BP, March 10, 1997, 684, 153-168 (58) Fields investigated (Int.Cl. ⁷ , DB name) H03M 7/30 G06T 1/00 G10L 19/00 H04N 1/41 H04N 7/24

Claims (6)

(57) [Claims] 1. A method of creating an electronic watermark, in which an input vector is vector-quantized and electronic watermark information is embedded in the vector-quantized code, wherein a value of a control parameter involved in a vector-quantization encoding process of the input vector Change the control parameter
The distortion of the decoded signal due to the difference from the case where it is not
A method for creating an electronic watermark, characterized by changing the contents in accordance with the above watermark information. 2. The electronic watermark creating method according to claim 1, wherein the control parameter is a weighting coefficient of weighted vector quantization. 3. The method for producing an electronic watermark according to claim 1, wherein the control parameter is the number of preselected conjugate vector quantizations. 4. The control parameter is changed for a plurality of the input vectors based on the intermediate bit sequence by associating each bit of the watermark information with a large number of redundant intermediate bit sequences. 4. The method for creating an electronic watermark according to claim 1, wherein 5. A method of vector-quantizing an input vector and controlling the encoding control parameter in the quantization processing with watermark information to read the watermark information from a compressed bit sequence in which watermark information is embedded. In the above, the input vector is used as input, and each bit is quantized by the control parameter of each encoding corresponding to different bits of watermark information, and each quantized result is compared with the compressed bit sequence, and they match. And a method for reading electronic watermark information, wherein embedded watermark information is obtained from a corresponding control parameter for encoding. 6. The vector quantization of the input vector
Together, the control parameters for encoding in the quantization process
The watermark is compressed with watermark information controlled by watermark information.
A method of reading the watermark information from the With the above input vector as input, the control parameters of the above encoding
Vector in the same quantization format with uncontrolled data
Quantize and compare the quantization result with the compressed bit sequence.
Watermark information according to different states by this comparison
A method for reading out electronic watermark information, characterized by seeking.