KR20210056658A - Apparatus and method for inserting forensic watermarks - Google Patents

Abstract

The present invention relates to an apparatus and a method for embedding forensic watermarks. The apparatus and method for embedding timely forensic watermarks according to the present invention comprises: a database unit for storing embedding information; a pre-processing unit that analyzes blocks for each content of a predetermined section in the original content and embeds watermark 0 in the same block, stores 0 contents including the generated 0 embedding contents as a 0 contents file, embeds watermark 1 and stores 1 embedding blocks as a chunk file, and stores embedding information for blocks in which watermark 0 or 1 is embedded in a database unit; and a distribution unit which extracts blocks in which the watermark 0 is embedded from the 0 content file provided from the pre-processing unit using the embedding information stored in the database unit, and replaces 1 embedding blocks of the chunk files based on the watermark information to output distribution contents displaying the watermark information. Accordingly, forensic watermarks that is robust against collusion attacks while ensuring real-time responsiveness are provided.

Description

Forensic watermark embedding apparatus and method {APPARATUS AND METHOD FOR INSERTING FORENSIC WATERMARKS}

The present invention relates to a forensic watermark embedding apparatus and method, and in particular, to a forensic watermark embedding apparatus and method that is robust against collusion attacks while ensuring real-time responsiveness by preparing blocks embedding watermark information in advance.

In order to embed a forensic watermark on the server side, it is necessary to overcome the difficulty of embedding user information in real time. In order to overcome this difficulty, after creating a 0 content file with watermark 0 embedded in the original content and 1 content file embedding watermark 1 in the original content through a pre-processing process, preprocessing in real time based on user information A method of embedding a forensic watermark by combining 0 content files and 1 content files generated in is used.

However, this method has a fatal disadvantage in that a plurality of users can easily disable the forensic watermark by mixing some sections of their own content. For example, two users could mix sections of downloaded content to create completely different content files, neutralizing the information embedded by the service provider. Nevertheless, this method is attracting attention in the market even though it is vulnerable to collusion attacks due to the advantage of being able to embed forensic marks on the server side in real time.

In order to solve the above-described problem, an object of the present invention is to provide a forensic watermark embedding apparatus and method that is robust against collusion attacks while ensuring real-time responsiveness by preparing blocks embedding watermark information in advance.

In order to achieve the above object, an apparatus for embedding a forensic watermark according to an embodiment of the present invention includes: a database unit for storing embedding information; By analyzing blocks for each content in a predetermined section from the original content, the watermark 0 is embedded for the same block, and 0 contents including the generated 0 embedding content are stored as 0 content files, and the watermark 1 is embedded and 1 embedding blocks are stored. A preprocessing unit storing the embedding information on blocks in which the watermark 0 or 1 is embedded in the database unit, and storing the data as a chunk file; And extracting blocks in which the watermark 0 is embedded from the 0 content file provided from the preprocessing unit by using the embedding information stored in the database unit, and to the 1 embedding blocks of the chunk file based on the watermark information. Alternatively, a distribution unit for outputting distribution content displaying the watermark information is provided.

The original content is a video content, the content of the predetermined section is related to a group of picture (GOP) content, and the preprocessing unit analyzes blocks of a predetermined frame among the GOP content to display the watermark information. Location information on the fields may be stored as the embedding information.

The distribution unit extracts a frame having blocks in which the watermark 0 is embedded from the 0 content file provided from the preprocessing unit by using the embedding information, and parses the extracted frame to provide a network abstration layer (NAL) of the bitstream. ) May be replaced with the 1 embedding blocks of the chunk file based on the watermark information.

When the client metadata is input, the distribution unit may generate the watermark information from the client metadata, associate the client metadata with the watermark information, and store the watermark information in the database unit.

The preprocessing unit may check whether there are blocks satisfying the number of payloading the watermark information in the predetermined frame.

The pre-processing unit embeds a section watermark 0 for each section content in the original content to store the 0 section contents as a 0 section content file, and embeds the section watermark 1 to store 1 section contents as a 1 section content file, At least one of the 0 content section file and the 1 section content file includes content in which the watermark 0 or 1 is embedded, and the distribution unit includes the 0 section content file or the 1 section content based on section watermark information. You can output the combined content file by selecting the content file for the corresponding section of the file.

The distribution unit may extract a frame having blocks in which the watermark 0 is embedded from the combined content file using the embedding information, and replace the frame with 1 embedding blocks of the chunk file based on the watermark information. .

In a forensic watermark embedding method performed by an apparatus including a database unit according to another embodiment of the present invention, a watermark 0 is embedded for the same block by analyzing blocks for each content in a predetermined section from the original content. 0 contents including the generated 0 embedded content are stored as a 0 content file, a watermark 1 is embedded, and 1 embedded blocks are stored as a chunk file, and the embedding information for the blocks in which the watermark 0 or 1 is embedded is stored. Storing in a database unit; Extracting blocks in which the watermark 0 is embedded from the 0 content file stored and provided in the storing step using the embedding information stored in the database unit; And outputting the distribution content displaying the watermark information by replacing the one embedding blocks of the chunk file based on the watermark information, thereby achieving the above object.

The watermark information may be block watermark information related to blocks of the predetermined frame, and the distribution content may be content in which the section watermark information and the block watermark information are double-embedded.

The predetermined frame in the storing step may be a frame in which the section watermark 0 or 1 is not embedded.

According to the above-described configuration, the present invention provides a forensic watermark that is robust against collusion attacks while ensuring real-time responsiveness by preparing a block in which watermark information is embedded in advance.

In the present invention, by using the same user information as section watermark information and block watermark information, it is possible to provide a forensic mark that is robust against collusion attacks while ensuring real-time responsiveness.

1 is a block diagram illustrating a forensic watermark embedding apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of blocks selected by the block analysis unit of FIG. 1.
3 is a diagram illustrating an example of a frame in which watermark information in block units is embedded.
4 is a diagram illustrating an example of a stream of a portion of a frame in which blocks are combined in the watermark block combination unit of FIG.
5 is a diagram illustrating an example of distribution content in which frames are combined in the frame combining unit of FIG. 1.
6 is a diagram illustrating an example of information stored in the database unit of FIG. 1.
7 is a block diagram showing a forensic watermark embedding apparatus according to another embodiment of the present invention.
8 is a diagram illustrating an example of a plurality of zero-section contents and a plurality of one-section contents in which a section mark is embedded.
9 is a block diagram showing in detail the block mark embedding unit shown in FIG. 7.
10 is a flowchart illustrating a forensic watermark embedding method according to another embodiment of the present invention.

Hereinafter, a preferred embodiment of a forensic watermark embedding apparatus and method according to the present invention will be described with reference to the accompanying drawings. For reference, in the following description of the present invention, the terms referring to the components of the present invention are named in consideration of the functions of the respective components, and thus should not be understood as limiting the technical components of the present invention. Will be.

1 is a block diagram illustrating a forensic watermark embedding apparatus according to an embodiment of the present invention, FIG. 2 is a diagram illustrating an example of blocks selected by the block analysis unit of FIG. 1, and FIG. 3 is a block diagram FIG. 4 is a diagram illustrating an example of a frame in which watermark information is embedded, and FIG. 4 is a diagram illustrating an example of a stream of a part of a frame in which blocks are combined in the watermark block combination unit of FIG. 1, and FIG. FIG. 6 is a diagram illustrating an example of distributed content in which frames are combined in the frame combining unit of FIG. 1, and FIG. 6 is a diagram illustrating an example of information stored in the database unit of FIG. 1.

As shown in FIG. 1, the forensic watermark embedding apparatus includes a preprocessing unit 110, a distribution unit 130, and a database unit 140.

The pre-processing unit 110 includes a content ID grant unit 112, a frame extraction unit 114, a block analysis unit 116, a mark 0 embedding unit 118, a mark 1 embedding unit 120, and a 0 content storage unit 122. ) And one chunk storage unit 124.

When the original content is input, the content ID assigning unit 112 assigns a content ID for management. If the original content is the same, the content ID assigning unit 112 is preferably always assigned the same content ID, but it is also possible to assign a content ID in the form of a series whenever the original content is input to the preprocessing unit 110. The content ID assigning unit 112 stores a content ID related to the original content in the database unit 140.

The frame extraction unit 114 extracts an intra frame from the original content. If the original content is video content, the original content may include a plurality of Group Of Pictures (GOPs). Here, the GOP includes an intra frame (I frame), which is an intra-frame coded image, a prediction frame (P frame), which is an encoded image for inter-frame forward prediction, and a bidirectional prediction frame (B frame), which is a bidirectional predictive coded image. One GOP may be composed of I, B, B, P, B, B, P, B, B, P, B, B, P, B, B. Here, only an intra frame is used as an example of the frame extracted by the frame extracting unit 114, and the prediction frame (P frame) and the bidirectional prediction frame (B frame) are not excluded.

The block analysis unit 116 may receive an intra frame extracted from the frame extraction unit 114 and output as an input, analyze blocks capable of expressing complete watermark information, and select a frame in which the watermark information is to be embedded. In this case, if it is a video, it is possible to analyze and select whether there are blocks capable of expressing all of the payload in one frame.

The block analyzer 116 selects a block of a predetermined size or less, that is, the smallest block of the encoded image, from the intra frame of the encoded image. The block analyzer 116 may select, for example, a luminance signal of a 4×4 prediction block in an intra frame. Accordingly, a block encoded as a block larger than a predetermined size in the intra frame is excluded from the block candidate group for embedding watermark information. The reason for excluding a block encoded with a block larger than a predetermined size from the candidate group is that the image of these blocks is close to a smooth image, and thus, if a watermark is embedded in such a block, it is highly likely to be noticeable. Therefore, when one of the blocks of 32 X 32, 32 X 16, 16 X 32 and 16 X 16 in the HEVC standard is encoded, this block may be considered close to the flattened image, and 16 X 16 in the AVC standard, When one of the blocks of 8 X 16 and 16 X 8 is encoded, this block may be considered to be close to the flattened image.

The block analysis unit 116 selects a macroblock composed of only blocks of a predetermined size or less. In the case of the AVC standard, for example, the block analysis unit 116 may select a 16×16 macroblock composed of only 4×4 subblocks selected from an intra frame of an encoded image.

The block analysis unit 116 checks whether the number of nonzero quantized coefficients (NNZ) among the quantization coefficients of the selected macroblock is greater than a predetermined number Nt. If the number of NNZs is greater than the predetermined number Nt, the block analysis unit 116 selects the corresponding blocks as blocks in which watermark information can be embedded. If the NNZ is small, a lot of original information of the corresponding macroblock is lost during the video decoding process, and thus synchronization errors may increase. Therefore, it is important to set a predetermined number (Nt) in consideration of these.

The block analysis unit 116 selects a frame in which watermark information is to be embedded when the number of macroblocks in which watermark information can be embedded is a predetermined number of payloads, for example, 64 or more. An example of blocks according to a result of analysis by the block analysis unit 116 is shown in FIG. 2. In FIG. 2, if the frames correspond to each intra frame, the intra frame (Frame-1) of the first GOP and the intra frame (Frame-3) of the first GOP are used as frames to embed watermark information in the distribution unit 130. It is chosen.

Meanwhile, a temporal flicker may occur in an image into which a watermark of watermark information is inserted. The block analysis unit 116 may determine final macroblocks into which watermark information is to be embedded by calculating a pseudo motion vector to prevent or reduce such temporal flicker.

When the final macroblock in which the watermark is to be embedded is determined, the block analysis unit 116 may store frame information and location-map of blocks within the frame in the database unit 140. The location information may include network abstration layer (NAL) information on the stream for the block.

The mark 0 embedding unit 118 embeds a watermark 0 for macroblocks selected and output from the block analysis unit 116 to output a 0 embedding frame. The mark 1 embedding unit 120 embeds the watermark 1 with respect to the macroblocks selected and output from the block analysis unit 116 and outputs the 1 embedding blocks as a chunk. An example of a frame in which watermark information in block units is embedded is shown in FIG. 3. As shown in FIG. 3, different watermarks, that is, watermarks 0 or 1, are embedded for blocks of the same image.

There are two methods of embedding watermark information 0 or 1: The first method is a method of embedding in a compressed domain, embedding a watermark 0 or 1 in a selected block of the compressed domain, and the second method. Is a method of embedding in a non-compressed domain and embedding a watermark 0 or 1 in a selected block of the non-compressed domain. The second method requires decoding and encoding. Meanwhile, the offset or size of the bitstream may be different depending on the watermark technique. In the first method, if the watermark 0 or 1 is embedded in the same block, the NAL size may or may not change, but in the second method, the watermark 0 The size of the block embedding is different from the size of the block embedding watermark 1.

The 0 content storage unit 122 stores frame contents including the 0 embedding frame output from the mark 0 embedding unit 118 as a 0 content file. The one chunk storage unit 124 stores a plurality of blocks output from the mark 1 embedding unit 120 as a chunk file.

The distribution unit 130 includes an information generation unit 132, a watermark block combination unit 134, and a frame combination unit 136 to output distribution content combining watermark information according to client metadata.

The information generation unit 132 receives client metadata transmitted from a user device or the like, and generates information capable of specifying a user of the content or the like by using the client metadata. Here, the client metadata may be user information or date/time (date/time) information. Here, the user information includes ID information or user device information used by the user, and the user device information may be information such as a unique ID of the user device (eg, IP address, MAC address information), and the date and time information is, for example. For example, it may be transmitted using a time information protocol (NTP, Network Time Protocol, RFC-1305) from a time server on a network.

The information generation unit 132 generates watermark information (Client-Request-ID) capable of specifying a user of the content, and provides it to the watermark block combination unit 134, and provides the client meta information to the database unit 140. Watermark information is stored in association with data.

When the watermark block combination unit 134 receives the watermark information from the information generation unit 132, the frame information stored in the database unit 140 and the location information of the blocks within the frame are fetched. The watermark block combination unit 134 extracts an intra frame for displaying watermark information from among GOPs output from the 0 content storage unit 122 by using the frame information. The watermark block combination unit 134 combines and outputs the watermark 0 block and the watermark 1 block by using the location information of the blocks of the extracted intra frame to display the watermark information. In this case, the watermark block combination unit 134 may parse the extracted intra frame and combine the watermark 0 block and the watermark 1 block in NAL units. Combining the watermark 0 block and the watermark 1 block in NAL units eliminates the need for decoding and encoding in the distribution unit, which is advantageous in terms of cost and improves the delay caused by decoding and encoding, enabling real-time response. . The watermark block combination unit 134 embeds the same watermark information for all frames selected by the block analysis unit 116 so that a user or the like can be specified by the watermark information. An example of a stream of a portion of a frame in which blocks are combined in the watermark block combination unit 134 is illustrated in FIG. 4.

The frame combining unit 136 combines the original contents output from the 0 content storage unit 122 and the watermark contents output from the watermark block combination unit 134 to output a distribution content file. An example of distribution content in which frames are combined in the frame combining unit 136 is shown in FIG. 5.

The database unit 140 stores the content ID assigned by the content ID assigning unit 112, and stores frame information selected by the block analysis unit 116 and location information of blocks within the frame. Thereby, these information can be transmitted by embedding watermark information in real time when embedding the forensic watermark in the distribution unit 130.

The database unit 140 also stores client metadata input to the information generating unit 132 and watermark information generated by the information generating unit 132. Since the watermark information is stored in association with the client metadata input by the distribution unit 130, a user can be specified later through the watermark information. An example of information stored in the database unit 140 is shown in FIG. 6.

7 is a block diagram illustrating a forensic watermark embedding apparatus according to another embodiment of the present invention, and FIG. 8 is a block diagram illustrating an example of a plurality of section 0 contents and a plurality of one section contents in which a section mark is embedded. FIG. 9 is a block diagram specifically showing the block mark embedding unit shown in FIG. 7.

As shown in FIG. 7, the forensic watermark embedding apparatus includes a preprocessing unit 110, a distribution unit 130, and a database unit 140.

The preprocessing unit 110 includes a content ID grant unit 112, a section output unit 702, a section mark 0 embedding unit 704, a section mark 1 embedding unit 706, a block mark embedding unit 708, and 0 content storage. A unit 710, one content storage unit 712, and one chunk storage unit 124 may be included.

When the original content is input, the content ID assigning unit 112 assigns a content ID for management.

The section output unit 702 divides the original content into sections of a predetermined size and outputs the section content. Here, the predetermined size may be a predetermined time, for example, 2 seconds, a predetermined size, for example, about 10M bytes, or a plurality of GOP (Group Of Picture) units of a moving picture. In this case, the section content may be compressed (encoded) content or non-compressed (non-encoded) content.

The section mark 0 embedding unit 704 embeds a section watermark 0 for each section content output from the section output unit 702 and input. The section mark 1 embedding unit 706 embeds a section watermark 1 for each section content output from the section output unit 702 and input. An example of a plurality of section 0 content and a plurality of 1 section content output from the section mark 0 embedding unit 704 or the section mark 1 embedding unit 706 by embedding section watermark 0 or 1 is shown in FIG. 8. Has been.

The block mark embedding unit 708 includes a frame extraction part 902, a block analysis part 904, a block mark 0 embedding part 906, and a block mark 1 embedding part 908, as shown in FIG. 9. . The frame extraction part 902, the block analysis part 904, the block mark 0 embedding part 906, and the block mark 1 embedding part 908 shown in FIG. The analysis unit 116, the mark 0 embedding unit 118, and the mark 1 embedding unit 120 perform the same functions. The frame extraction part 902 extracts an intra frame from the section content output from the section mark 1 embedding unit 706. In this case, it is preferable that the section watermark 1 is not embedded in the intra frame extracted from the frame extraction part 902. Accordingly, the block mark 0 embedding part 906 embeds a block watermark 0 for macroblocks selected from the block analysis part 904 and output to output a 0 embedding frame. The block mark 1 embedding part 908 embeds a block watermark 1 with respect to the macroblocks selected from the block analysis part 904 and output, and outputs one embedding block as a chunk.

In FIG. 7, it is shown that the block mark embedding unit 708 embeds a block mark only for a plurality of 1-section contents output from the section mark 1 embedding unit 706, but the block mark is output from the section mark 0 embedding unit 704. It is also possible to embed a block mark for a plurality of 0 section contents, and a plurality of 0 section contents output from the section mark 0 embedding unit 704 and a plurality of 1 section contents output from the section mark 1 embedding unit 706 Blockmarks can also be embedded for everything.

The 0 content storage unit 710 stores a plurality of 0 section contents output from the section mark 0 embedding unit 704 as a 0 content file. The 1 content storage unit 712 stores 1 content including 1 embedding frame output from the section mark 1 embedding unit 706 as 1 content file. The one-chunk storage unit 124 stores a plurality of chunks output from the block mark embedding unit 708 as a chunk file.

The distribution unit 130 includes an information generation unit 132, a section combination unit 732, a watermark block combination unit 134, and a frame combination unit to output distribution content combining watermark information according to client metadata. Including 136.

The information generation unit 132 receives client metadata transmitted from a user device or the like, and generates information capable of specifying a user of the content or the like by using the client metadata. The information generation unit 132 generates section watermark information that can specify a user of the content and provides it to the section combination unit 732, and generates block watermark information and provides it to the watermark block combination unit 134. In addition, section watermark information and block watermark information are stored in the database unit 140 in association with client metadata. In this embodiment, the names of the watermark information provided to the section combination unit 732 and the watermark block combination unit 134 are expressed differently, but these watermark information may be the same. In that it is specific, the watermark information is double embedded.

The section combination unit 134 selects and outputs corresponding section contents from 0 or 1 content files according to the watermark information output from the information generation unit 132 and input. The section combination unit 134 includes, for example, watermark information of 10110... In this case, the 1st section content, the 2nd section 0 section content, the 3rd section 1 section content, the 4th section 1 section content, and the 5th section 0 section content are combined and output.

When the watermark block combination unit 134 receives the watermark information from the information generation unit 132, the frame information stored in the database unit 140 and the location information of the blocks within the frame are fetched. The watermark block combination unit 134 extracts an intra frame to display watermark information from among GOPs output from the section combination unit 732 by using the frame information. The watermark block combination unit 134 uses the location information of the blocks of the extracted intra frame to display the watermark information, and the watermark block combination unit 134 uses the block of the extracted intra frame to display the watermark information. The watermark 0 block and the watermark 1 block are combined and output using the location information of the data.

The frame combining unit 136 combines the combined content output from the section combination unit 732 and the watermark content output from the watermark block combination unit 134 to output a distribution content file.

The database unit 140 stores the content ID assigned by the content ID assigning unit 112, and stores frame information selected by the block analysis unit 116 and location information of blocks within the frame. The database unit 140 also stores client metadata input to the information generating unit 132 and watermark information generated by the information generating unit 132.

10 is a flowchart illustrating a forensic watermark embedding method according to another embodiment of the present invention.

When the original content is input, the content ID assigning unit 112 assigns a content ID for management (S1002). The frame extracting unit 114 extracts an intra frame from the original content (S1004). If the original content is video content, the original content may include a plurality of Group Of Pictures (GOPs).

The block analysis unit 116 selects a block having a predetermined size or less, that is, the smallest block of the encoded image from the intra frame of the encoded image (S1006). The block analysis unit 116 selects a macroblock composed of only blocks of a predetermined size or less (S1008). In the case of the AVC standard, for example, the block analysis unit 116 may select a 16×16 macroblock composed of only 4×4 subblocks selected from an intra frame of an encoded image.

When the final macroblock in which the watermark is to be embedded is determined, the block analysis unit 116 stores frame information and location-map of blocks within the frame in the database unit 140 (S1010). The location information may include network abstration layer (NAL) information on the stream for the block.

The mark 0 embedding unit 118 embeds a watermark 0 for macroblocks selected and output from the block analysis unit 116 to output a 0 embedding frame, and the 0 content storage unit 122 is a mark 0 embedding unit ( Frame contents including the 0 embedding frame output from 118) are stored as a 0 content file (S1012).

The mark 1 embedding unit 120 embeds a watermark 1 with respect to the macroblocks selected and output from the block analysis unit 116, and outputs the 1 embedding blocks in one chunk, and the 1 chunk storage unit 124 A plurality of blocks output from the mark 1 embedding unit 120 are stored as one chunk file (S1014).

The information generation unit 132 receives client metadata transmitted from a user device, etc., and uses the client metadata to generate watermark information (Client-Request-ID) capable of specifying a user of the content. Generate (S1016). The information generation unit 132 provides watermark information to the watermark block combination unit 134 and stores the watermark information in association with client metadata in the database unit 140.

When the watermark block combination unit 134 receives the watermark information from the information generation unit 132, the frame information stored in the database unit 140 and the location information of the blocks within the frame are fetched. The watermark block combination unit 134 extracts an intra frame for displaying watermark information from among GOPs output from the 0 content storage unit 122 by using the frame information. The watermark block combination unit 134 replaces the watermark 0 block with the watermark 1 block based on the watermark information by using the location information of the blocks of the intra frame extracted to display the watermark information and outputs it (S1018). ). The watermark block combination unit 134 embeds the same watermark information for all frames selected by the block analysis unit 116 so that the user can be specified by the watermark information.

The frame combining unit 136 combines the original contents output from the 0 content storage unit 122 and the watermark contents output from the watermark block combination unit 134 to output a distribution content file (S1020).

In the embodiments of the present invention, the analysis and selection of blocks has been described as an example, but in some cases, fixed blocks may be selected and used.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the protection scope of the present invention should be interpreted by the following claims. In addition, those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention, and all technical ideas within the scope equivalent to the present invention are the present invention. It should be construed as being included in the scope of rights of

110: preprocessing unit 112: content ID granting unit
114: frame extraction unit 116: block analysis unit
118: mark 0 embedding part 120: mark 1 embedding part
122: 0 content storage unit 124: 1 chunk storage unit
130: distribution unit 132: information generation unit
134: watermark block combination unit 136: frame combination unit
140: database unit 702: section output
704: section mark 0 embedding part 706: section mark 1 embedding part
708: block mark embedding unit 710: 0 content storage unit
712: 1 content storage unit

Claims (12)

In the forensic watermark embedding device,
A database unit for storing embedding information;
By analyzing blocks for each content in a predetermined section from the original content, the watermark 0 is embedded for the same block, and 0 contents including the generated 0 embedding content are stored as 0 content files, and the watermark 1 is embedded and 1 embedding blocks are stored. A pre-processing unit that stores the data as a chunk file and stores the embedding information on the blocks in which the watermark 0 or 1 is embedded in the database unit; And
The watermark 0-embedded blocks are extracted from the 0 content file provided from the preprocessing unit using the embedding information stored in the database unit, and replaced with the 1 embedding blocks of the chunk file based on the watermark information. And a distribution unit that outputs distribution content displaying the watermark information. The method of claim 1,
The original content is video content,
The content of the predetermined section is related to GOP (Group Of Picture) content,
And the pre-processing unit analyzes blocks of a predetermined frame among the GOP contents and stores location information on blocks for displaying the watermark information as the embedding information. The method of claim 2,
The distribution unit extracts a frame having blocks in which the watermark 0 is embedded from the 0 content file provided from the preprocessing unit by using the embedding information, and parses the extracted frame to obtain a network abstration layer (NAL) of the bitstream. ), based on the watermark information, replacing the chunk file with the one embedding block. The method according to any one of claims 1 to 3,
The distribution unit generates the watermark information from the client metadata when client metadata is input, and stores the client metadata and the watermark information in the database unit in association with the client metadata. . The method according to claim 2 or 3,
And the pre-processing unit checks whether there are blocks satisfying the number of payloading the watermark information in the predetermined frame. The method of claim 5,
The pre-processing unit embeds a section watermark 0 for each section content in the original content to store the 0 section contents as a 0 section content file, and embeds the section watermark 1 to store 1 section contents as a 1 section content file, At least one of the 0 content section file and the 1 section content file includes content in which the watermark 0 or 1 is embedded,
And the distribution unit outputs a combined content file by selecting the section content file of the 0 section content file or the section content file of the section 1 content file based on section watermark information. The method of claim 6,
The distribution unit extracts a frame having blocks in which the watermark 0 is embedded from the combined content file using the embedding information, and replaces the frame with 1 embedding blocks in the chunk file based on the watermark information. Forensic watermark embedding device. In the forensic watermark embedding method performed by an apparatus including a database unit,
By analyzing blocks for each content in a predetermined section from the original content, the watermark 0 is embedded for the same block, and 0 content including the generated 0 embedded content is stored as a 0 content file, and the watermark 1 is embedded and 1 embedded blocks Storing as a chunk file and storing embedding information for blocks in which the watermark 0 or 1 is embedded in the database unit;
Extracting blocks in which the watermark 0 is embedded from the 0 content file stored and provided in the storing step using the embedding information stored in the database unit; And
And outputting distribution content indicating the watermark information by substituting the one embedding blocks of the chunk file based on the watermark information. The method of claim 8,
The original content is video content,
The content of the predetermined section is related to GOP (Group Of Picture) content,
The analysis of the blocks in the storing step includes analyzing blocks of a predetermined frame among the GOP contents and storing location information on blocks for displaying the watermark information as the embedding information. Embedding method. The method of claim 9,
In the storing step, for each section content in the original content, the section watermark 0 is embedded to store the 0 section content as a 0 section content file, and the section watermark 1 is embedded to store the 1 section content as a 1 section content file. Including a step, wherein at least one of the 0 content section file and the 1 section content file includes the content in which the watermark 0 or 1 is embedded;
And outputting a combined content file by selecting the section 0 content file or a corresponding section content file of the section 1 content file based on section watermark information before the extracting step. Embedding method. The method of claim 10,
The watermark information is block watermark information related to blocks of the predetermined frame,
The distribution content is a content in which the section watermark information and the block watermark information are double-embedded. The method of claim 10,
The forensic watermark embedding method, wherein the predetermined frame in the storing step is a frame in which the section watermark 0 or 1 is not embedded.

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