JP2004235953A - Device for embedding digital watermark - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a digital watermark embedding device with high versatility. <P>SOLUTION: This digital watermark embedding device comprises an embedding strength setting means (12) for variably setting watermark information embedding strength (that represents a modulation degree with respect to original data based on watermark information, wherein when the modulation degree is large, the embedding strength is large, and when the modulation degree is small, the embedding strength is small), and a watermark embedding means (11) for embedding watermark information into the original data according to prescribed algorithm at embedding strength set by the embedding strength setting means (12). <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital watermark embedding device that embeds a digital watermark in multimedia information such as images and sounds.
[0002]
[Prior art]
Digital watermarking is a technique for embedding and holding some information (watermark information) in multimedia data such as images and sounds. Various techniques have been proposed for embedding this information as digital watermark in multimedia data (for example, see Non-Patent Documents 1 and 2).
[0003]
Also, in systems such as crime prevention monitoring systems for hotels and stores and abnormality monitoring systems for buildings such as production lines and dams in factories, a method of centrally monitoring by transferring monitoring images to a monitoring center via a network has been adopted in many cases. ing. In these systems, it is important to know whether or not the surveillance video faithfully represents the situation at the site, that is, whether or not the surveillance video has been falsified (whether or not there is evidence). From such a viewpoint, a system that determines whether image data representing an image such as a monitoring video has been tampered with a digital watermarking technique has been proposed (for example, Patent Document 1). In this conventional system, a provider of image data embeds watermark information in the image data, and the image data is embedded based on whether or not the watermark information is detected from the image data acquired by the user. It is determined whether the data has been tampered with while being passed from the provider to the user.
[0004]
[Non-patent document 1]
"Data Hiding Technology Supporting Digital Watermarking (1)," Nikkei Electronics February 24, 1997, p. 149-p. 162
[Non-patent document 2]
"Data Hiding Technology Supporting Digital Watermarking (2)," Nikkei Electronics March 10, 1997, p. 153-p. 168
[Patent Document 1]
JP 2000-298707 A
[0005]
[Problems to be solved by the invention]
However, in the digital watermark embedding device to be provided on the image data provider side in the conventional system described above, the embedding strength of the watermark information in the image data is not particularly considered. The embedding strength of the watermark information in the image data indicates the degree of modulation (brightness modulation, frequency modulation, phase modulation, and the like) on the image data based on the watermark information. The image quality deteriorates greatly.
[0006]
In addition, the image data in which the watermark information is embedded is deteriorated due to processing such as filtering and compression of the image data and transmission on a network. With the deterioration of the image data, the detection rate of the watermark information decreases. The greater the embedding strength of the watermark information in the image data, the higher the resistance to the decrease in the detection rate. On the other hand, as described above, when the embedding strength of the watermark information in the image data increases, the deterioration of the image represented by the image data in which the watermark information is embedded increases. As described above, regarding the embedding strength of the watermark information, there is a trade-off between the resistance to the reduction of the detection rate of the watermark information and the image quality deterioration.
[0007]
When transmitting image data of a specific property (resolution, bit rate, format, etc.) through a specific transmission line for a specific application, there is no particular problem even if the embedding strength of the watermark information is fixedly set. However, when image data of various properties are transmitted through various transmission paths (wireless transmission paths, wired transmission paths, analog transmission paths, digital transmission paths, and the like) for various uses, they are fixedly set. The image data in which the watermark information is embedded with the embedding strength is not always appropriate on the user side. For example, with respect to image data for use in which image quality is prioritized over evidentiality, the image quality of an image obtained on the user side from image data in which watermark information is embedded with a certain strength is not always appropriate. Further, with respect to image data for use where priority is given to evidentiality over image quality, it is not always possible for a user to properly detect watermark information from image data in which watermark information is embedded with a certain strength.
[0008]
The present invention has been made to solve such a problem, and provides a highly versatile digital watermark embedding device.
[0009]
[Means for Solving the Problems]
An electronic watermark embedding device according to the present invention embeds watermark information in original data according to a predetermined algorithm with an embedding strength setting means for variably setting the embedding strength of watermark information, and an embedding strength set by the embedding strength setting means. And a watermark embedding unit.
[0010]
With such a configuration, the embedding strength of the watermark information to be set can be changed according to various requirements. Then, the watermark information is embedded in the original data according to a predetermined algorithm with the embedding strength variably set as described above.
[0011]
The embedding strength of the watermark information indicates the degree of modulation on the original data based on the watermark information. The embedding strength is large if the degree of modulation is large, and the embedding strength is small if the degree of modulation is small.
[0012]
Further, the digital watermark embedding device according to the present invention has a storage unit for storing a plurality of sample data in which the watermark information is embedded with different embedding strengths, and the embedding strength setting unit performs a predetermined operation with an operation unit. A sample output control means for sequentially outputting a plurality of samples based on a plurality of sample data stored in the storage means to an output means, and an output from the output means based on a decision instruction operation in the operation unit. Embedding strength determining means for determining the embedding strength of the watermark information in the sample data corresponding to the one sample set as the embedding strength to be set.
[0013]
With such a configuration, the user can determine whether or not the embedding strength of the watermark information satisfies the request based on the sample output from the output unit, and determines the embedding strength based on the determination result. Thus, the watermark information can be embedded in the original data.
[0014]
In the digital watermark embedding apparatus according to the present invention, the embedding strength setting means has a condition obtaining means for obtaining a condition for a predetermined item, and the watermark information is set according to the condition obtained by the condition obtaining means. A configuration in which the embedding strength is variably set can be adopted.
[0015]
With such a configuration, it is possible to embed the watermark information in the original data with an embedding strength suitable for a predetermined condition of a predetermined item.
[0016]
The conditions for the predetermined items include the specifications of the system to which the digital watermark embedding apparatus is applied (the characteristics of the original data, the processing method of the original data with the watermark information embedded (transmission, filtering, compression, decompression, etc.), the watermark information Can be arbitrarily determined based on the use of the original data in which the data is embedded.
[0017]
There is no particular limitation on a method of acquiring the condition of the predetermined item by the condition acquiring unit. Even if the condition is acquired by the user from the operation unit, the condition may be detected by any method. May be obtained.
[0018]
Further, the electronic watermark embedding device according to the present invention is configured such that the condition acquiring means acquires a condition for a predetermined characteristic item of the original data in which the watermark information is to be embedded as a condition for the predetermined item. can do.
[0019]
With such a configuration, the watermark information can be embedded in the original data with an embedding strength suitable for the condition of the predetermined characteristic item of the original data in which the watermark information is to be embedded.
[0020]
Furthermore, the present invention can be configured such that the condition acquiring means acquires a condition based on a data amount per predetermined unit of the original data.
[0021]
With such a configuration, the watermark information can be embedded in the original data with an embedding strength suitable for a condition based on the data amount per predetermined unit of the original data.
[0022]
If the data amount of the original data per predetermined unit is large, the information amount of the watermark information that can be embedded in the original data can be increased, so that the watermark information can have more redundancy. Therefore, if the data amount of the original data per predetermined unit is large, a decrease in the detection rate of the watermark information can be compensated for by the redundancy of the embedded information. That is, if the data amount of the original data per predetermined unit is large, it is possible to increase the resistance to a decrease in the detection rate of the watermark information even with the same degree of modulation (embedding strength). Thus, the embedding strength can be set so that the detection rate of the watermark information satisfies the requirement according to the condition based on the data amount of the original data per predetermined unit.
[0023]
The predetermined unit of the original data can be arbitrarily determined.
[0024]
The digital watermark embedding device according to the present invention may be configured such that the original data is image data, and the data amount per predetermined unit is a resolution of an image represented by the image data.
[0025]
With such a configuration, the data amount per predetermined unit of the image data as the original data is represented by the resolution, and the watermark information is embedded in the image data as the original data with an embedding strength suitable for a condition based on the resolution. You can do it.
[0026]
Further, the digital watermark embedding device according to the present invention may be configured such that the original data is encoded data, and the data amount per predetermined unit is an encoding bit rate of the encoded data.
[0027]
With such a configuration, the data amount per predetermined unit of the encoded data as the original data is represented by the encoding bit rate, and the watermark information is embedded with the embedding strength suitable for the condition based on the encoding bit rate. Can be embedded in encoded data.
[0028]
The digital watermark embedding apparatus according to the present invention includes: a sample data management unit that manages a plurality of sample data in which watermark information is embedded with different embedding strengths under a condition of a predetermined characteristic item; Storage means for storing the sample data stored in the storage means managed by the sample data management means in accordance with the condition acquired by the condition acquisition means. Sample output control means for sequentially outputting the sample based on the output means, and setting the embedding strength of the watermark information in the sample data corresponding to one sample output from the output means, based on a decision instruction operation at the operation unit. And an embedding strength determining unit that determines the embedding strength to be used.
[0029]
With such a configuration, the user can adjust the embedding strength of the watermark information based on the sample output from the output unit in accordance with the condition of the predetermined characteristic item of the original data according to the request under the condition. It can be determined whether or not there is, and the watermark information can be embedded in the original data with the embedding strength based on the determination result.
[0030]
Further, the digital watermark embedding device according to the present invention has a recommended strength management means for managing a recommended embedding strength in correspondence with a condition for the predetermined characteristic item, and the embedding strength setting means includes a A recommended strength search means for searching for a recommended embedding strength managed by the recommended strength management means in accordance with the condition obtained in the step (a), wherein the sample output control means is obtained by the recommended strength search means. The sample data in which the watermark information is embedded at the recommended embedding strength may be displayed first on the output unit.
[0031]
According to such a configuration, a sample based on the sample data in which the embedding information is embedded at the recommended embedding strength is output first from the output unit, and is generally recommended under the acquired conditions. The sample in which the watermark information is embedded can be known more quickly with the embedding strength, and the appropriate embedding strength of the watermark information in the original data can be efficiently determined.
[0032]
The recommended embedding strength managed by the recommended strength management means may be fixedly determined corresponding to the condition of the predetermined characteristic item of the original data, or may be changed as needed. .
[0033]
In the latter case, the digital watermark embedding device according to the present invention may be configured to include a recommended intensity changing unit that changes a recommended embedding intensity managed in accordance with a condition by the recommended intensity managing unit.
[0034]
With such a configuration, the recommended embedding strength managed by the recommended strength managing means in accordance with the condition of the predetermined characteristic item is changed to a more suitable one for the system to which the digital watermark embedding device is applied. Can be done.
[0035]
Further, the digital watermark embedding device according to the present invention has an embedding strength setting history managing means for generating and managing a history of the embedding strength set by the embedding strength setting means, and the recommended strength changing means includes the embedding strength setting means. The recommended embedding strength may be changed based on the embedding strength setting history managed by the strength setting history management means.
[0036]
With such a configuration, the recommended embedding strength managed by the recommended strength managing means in accordance with the condition of the predetermined characteristic item is applied to the electronic watermark embedding apparatus according to the history of the actually set embedding strength. It can be changed to something more suitable for the system being done.
[0037]
The digital watermark embedding device according to the present invention has a recommended strength management means for managing a recommended embedding strength in correspondence with a condition for the predetermined item, and the embedding strength setting means is obtained by the condition obtaining means. The recommended embedding strength managed by the recommended strength managing means in accordance with the condition may be set as the embedding strength to be set.
[0038]
With such a configuration, the watermark information can be embedded in the original data at the recommended embedding strength generally recommended under the condition of the predetermined item to be acquired, and the watermark information can be appropriately embedded in the original data. Embedding with strength can be performed efficiently.
[0039]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0040]
The digital watermark embedding device according to the first embodiment of the present invention is configured as shown in FIG.
[0041]
In FIG. 1, the digital watermark embedding device 10 includes a watermark embedding unit 11, a control unit 12, an operation unit 13 (which may include a keyboard, a mouse, and the like), a storage unit 14, and a display unit 15. The watermark embedding unit 11 inputs original image data (for example, data representing a moving image photographed by a surveillance camera) and predetermined watermark data (for example, data representing a photographing place, photographing date and time, copyright information, and the like). At the same time, the embedding strength provided from the control unit 12 is input as described later. Then, the watermark embedding unit 11 embeds the watermark data in the original image data with the embedding strength according to a predetermined algorithm (for example, see Japanese Patent Application Laid-Open No. 2002-171494), and generates watermark-embedded image data. The embedding strength of the watermark data is determined by the degree of modulation of the original image data according to the watermark data embedding algorithm of the watermark embedding unit 11 (one of luminance modulation, frequency modulation, phase modulation, or any combination thereof). expressed.
[0042]
The storage unit 14 stores a plurality of sample image data in which watermark data is embedded with different embedding strengths. The control unit 12 causes the display unit 15 to sequentially display a plurality of sample images based on the plurality of sample image data stored in the storage unit 14 based on a predetermined operation on the operation unit 13. Further, in the process of sequentially displaying the sample images on the display unit 15, the control unit 12 outputs the sample image data corresponding to the one sample image displayed on the display unit 15 based on the determination instruction operation on the operation unit 13. Is determined as the embedding strength to be provided to the watermark embedding unit 11.
[0043]
The control unit 12 specifically executes a process according to the procedure shown in FIG.
[0044]
When a predetermined start operation is performed on the operation unit 13, the control unit 12 sends the first (N = 1) sample image data SIMm stored in the storage unit 14. _{N = 1} A sample image based on (for example, image data in which watermark data is embedded with the minimum embedding strength) is displayed on the display unit 15 (S1). In this state, the user can see the sample image and determine whether or not the image quality is acceptable. After displaying the sample image on the display unit 15, the control unit 12 waits for a sample image determination instruction operation and an update operation on the operation unit 13 (S2, S3).
[0045]
When an update operation is performed on the operation unit 13 by the user (NO in S2, YES in S3), the control unit 12 further determines whether the update operation proceeds (UP) or returns (DOWN). It is determined (S4), and if the update operation proceeds (UP) (UP in S4), the next sample image data SIM stored in the storage unit 14 is stored. _{N = 2} A sample image based on (image data in which the watermark data is embedded with the second lowest embedding strength) is displayed on the display unit 15 (S5), and the operation unit 13 waits for a sample image determination instruction operation and an update operation again. The state is reached (S2, S3).
[0046]
Thereafter, each time the user performs an advance operation (UP) on the operation unit 13, the next sample image data SIMm having a higher embedding strength of the watermark data. _{N + 1} Is displayed on the display unit 15 (S2 to S5). In this process, when the user performs an update operation of returning (DOWN) using the operation unit 13 (DOWN in S4), the control unit 12 returns to the previously used sample image data ISm _N-1 Is displayed on the display unit 15 (S6).
[0047]
The user performs the update operation (forward (UP) or return (DOWN)) of the operation unit 13 in this way, and displays the display unit based on the plurality of sample image data in which the watermark data is embedded with different embedding strengths. The sample images sequentially displayed at 15 can be confirmed. In the process, when the control unit 12 determines that the determination instruction operation has been performed on the operation unit 13 (YES in S2), the sample image data ISm corresponding to the sample image displayed on the display unit 15 at that time. _N Is determined as the embedding strength to be provided to the watermark embedding unit 11 (S7).
[0048]
When the embedding strength determined as described above is provided from the control unit 12 to the watermark embedding unit 11, the watermark embedding unit 11 converts predetermined embedding data into original image data according to a predetermined algorithm. To generate watermark-embedded image data.
[0049]
According to such an electronic watermark embedding device, the user checks the sample image displayed on the display unit 15 and determines, for example, a sample image having the maximum embedding strength with an acceptable image quality, and determines such a sample image. The predetermined watermark data can be embedded in the original image data at the embedding strength in the sample image data corresponding to the sample image thus obtained. As a result, it becomes possible to provide the user with the watermark-embedded image data in which both the image quality and the detection rate (evidence) of the watermark data are appropriate.
[0050]
In response to various requests, such as a request to give priority to the image quality even if the detection rate of the watermark data is somewhat sacrificed, or a request to give priority to the detection rate of the watermark data even if the image quality is somewhat sacrificed. Since the embedding strength can be variably set, a more versatile digital watermark embedding device can be realized.
[0051]
In the first embodiment, the display order of the sample images on the display unit 15 is the order in which the embedding strength of the watermark data is sequentially increased from the smallest one. May be in the order of decreasing sequentially from the maximum, or may be in the order of any embedding strength.
[0052]
Further, in the first embodiment, the sample image displayed on the display unit 15 is changed by the update operation on the operation unit 13, but the sample image is displayed on the display unit 15 at predetermined time intervals. May be automatically changed.
[0053]
Next, a digital watermark embedding device according to a second embodiment of the present invention will be described. The digital watermark embedding apparatus according to the second embodiment is characterized in that the embedding strength of the watermark data can be variably set in accordance with the condition regarding the resolution and the condition regarding the use, which are characteristic items of the original image data. This is different from the digital watermark embedding device according to the embodiment.
[0054]
The digital watermark embedding device according to the second embodiment of the present invention is configured as shown in FIG.
[0055]
3, the digital watermark embedding device 10 includes a watermark embedding unit 11, a control unit 12, an operation unit 13, a storage unit 14, and a display unit 15, as in the case of the above-described first embodiment. , And a database 16. The database 16 includes a sample image management table as shown in FIG. 4, an intensity setting history management table for each application (use for image quality priority, use for evidential priority) as shown in FIG. 5, and a recommendation as shown in FIG. 6. Stores the strength management table.
[0056]
The sample image management table (see FIG. 4) shows different embedding strengths I1, I2, I3 under the respective conditions where the resolution is R1, R2, R3, R4, R5 (R1 <R2 <R3 <R4 <R5). , I4, I5 (I1 <I2 <I3 <I4 <I4), sample image data SIMm in which watermark data is embedded _N Is managing. For example, sample image data ISm in which watermark data is embedded at different embedding strengths I1, I2, I3, I4, and I5 under the condition that the resolution is R1 (minimum resolution). ₁ , ISm ₆ , ISm ₁₁ , ISm ₁₆ , ISm ₂₁ Is managed. The sample image data ISm in which the watermark data is embedded at different embedding strengths I1, I2, I3, I4, and I5 under the condition that the resolution is R5 (the highest resolution). ₅ , ISm ₁₀ , ISm _Fifteen , ISM ₂₀ , ISm ₂₅ Is managed.
[0057]
When the resolution increases, the amount of image data per predetermined unit increases, and the information amount of the watermark data can be increased, so that the watermark information can be provided with a lot of redundancy. Therefore, if the resolution is large, the reduction in the detection rate of the watermark data can be compensated for by the redundancy of the embedded data. That is, if the resolution is large, the resistance to the reduction in the detection rate of the watermark data can be increased even with the same embedding strength. For this reason, each sample image data ISm managed by the sample image management table _N Is image data in which watermark data of an information amount suitable for the corresponding resolution is embedded.
[0058]
The intensity setting history management table (see FIG. 5) is created for each of the image quality priority application and the evidential priority application, and in each application, the original image data of each resolution R1 to R5 is created. Number of embedding strengths actually set N _ij (History).
[0059]
As described above, the recommended intensity management table (see FIG. 6) is provided for each of the resolutions R1 to R5 in consideration of the redundancy of the watermark data suitable for the resolution in each of the image quality priority application and the evidential priority priority application. The recommended embedding strength (recommended embedding strength) of watermark information in the original image data is managed. In the application in which image quality is prioritized, the image quality is prioritized over the evidentiality (detection rate) of the watermark data. In the application in which evidentiality is prioritized, the evidentiality (detection rate) of the embedded data is prioritized over the image quality. In R5 to R5, the embedding strength in the image quality priority application is smaller than the embedding strength in the evidence priority application. For example, under the condition that the resolution is R1 (minimum resolution), the recommended embedding strength for the use giving priority to image quality is I3, and the recommended embedding strength for the use giving priority to evidentiality is I4 (> I3). Further, under the condition that the resolution is R5 (highest resolution), the recommended embedding strength for the use giving priority to the image quality is I1, and the embedding strength for the use giving priority to the evidential property is I2 (> I1).
[0060]
Further, in each of the image quality priority application and the evidential priority application, as described above, the higher the resolution, the higher the redundancy of the watermark data can be, and thus the lower the embedding strength of the watermark data is. For example, in the case of an application that prioritizes image quality, the recommended embedding strength when the resolution is R1 (lowest resolution) is I3, and the recommended embedding strength when the resolution is R5 (highest resolution) is I1 (<I3). Further, in the case of the use of priority in evidentiality, the recommended embedding strength when the resolution is R1 (lowest resolution) is I4, and the recommended embedding strength when the resolution is R5 (highest resolution) is I2 (<I4).
[0061]
In the sample image management table (see FIG. 4), a recommended sampling image for the sample image data in which the watermark information is embedded with the recommended embedding intensity corresponding to each resolution for each application managed by the recommended intensity management table. A predetermined flag representing data (see the mark □ in FIG. 4 and the mark □ in the broken line) is attached. For example, the sample image data SIMm in which the watermark data is embedded at the recommended embedding strength I3 corresponding to the resolution R1 (lowest resolution) in the application where image quality is prioritized ₁₁ (Refer to the broken line □), sample image data ISm in which watermark data is embedded at the recommended embedding strength I4 corresponding to the resolution R1 in the use of priority for evidentiality. ₁₆ (See the mark □.) Further, the sample image ISm in which the watermark data is embedded at the recommended embedding strength I1 corresponding to the resolution R5 (highest resolution) in the application where image quality is prioritized. ₅ (See the broken line □), sample image data ISm in which the watermark data is embedded at the recommended embedding strength I2 corresponding to the resolution R5 in the use of priority for evidentiality. ₁₀ A predetermined flag indicating a recommended sampling image is attached to each of the symbols (see the mark).
[0062]
The control unit 12 executes processing according to the procedures shown in FIGS.
[0063]
7, when a predetermined start operation is performed on the operation unit 13, the control unit 12 determines whether the mode specified by the operation is a manual determination mode or a recommended determination mode (S11). ). When the control unit 12 determines that the operation of designating the manual determination mode has been performed, the control unit 12 acquires the resolution input by the user from the operation unit 13 (S12). Then, the control unit 12 sets the first sample image data ISm among the plurality of sample image data managed in the sample image management table (see FIG. 4) in the database 16 corresponding to the obtained resolution. _N Is read from the storage unit 14 and the sample image data ISm _N Is displayed on the display unit 15 (S13). In this state, the user can determine whether or not the image quality at the specified resolution is acceptable by looking at the sample image.
[0064]
Thereafter, in the same manner as in the above-described first embodiment, every time the advance (UP) or return (DOWN) update operation is performed, the sample image data ISm corresponding to the designated resolution is obtained. _{N + 5} Or ISm _N-5 Is displayed on the display unit 15 (S14, S15, S16, S17, S18). For example, when the designated resolution is R1, the sample image data SIM ₁ , SIm ₆ , SIm ₁₁ ,... Are sequentially displayed on the display unit 15 according to the updating operation.
[0065]
In the process, when the control unit 12 determines that the determination instruction operation has been performed on the operation unit 13 (YES in S14), the control unit 12 determines whether or not the sample image data ISm corresponding to the sample image displayed on the display unit 15 at that time. The embedding strength of the watermark data is determined as the embedding strength to be provided to the watermark embedding unit 11 (S19). Then, the control unit 12 determines the embedded embedding strength corresponding to the designated resolution in the strength setting history management table (see FIG. 5) for each of the image quality priority use and the evidential priority use in the database 16. Number N _ij Is incremented by +1 and updated (S20). For example, if the designated resolution is R1 and the determined embedding strength is I3, the number N of the embedding strength I3 ₃₁ Is incremented by +1.
[0066]
When the embedding strength determined as described above is provided from the control unit 12 to the watermark embedding unit 11, the watermark embedding unit 11 converts the predetermined embedding data into the original image data having the specified resolution according to a predetermined algorithm. Embedding is performed at the determined embedding strength, and watermark-embedded image data is generated.
[0067]
According to the processing in the manual determination mode, the user checks the sample image displayed on the display unit 15 and, for example, determines that the embedding strength is acceptable at the resolution of the original image data to be processed. The maximum sample image is determined, and predetermined watermark data can be embedded in the original image data at the embedding strength of the sample image data corresponding to the sample image determined as described above. As a result, it becomes possible to provide the user with the watermark embedded image data that can be appropriate in both the image quality and the detection rate of the watermark data.
[0068]
On the other hand, when the control unit 12 determines that the designation operation of the recommended determination mode has been performed in the predetermined start operation, the control unit 12 shifts to a process of a procedure illustrated in FIG. In FIG. 8, when the application (either the image quality priority application or the evidence priority priority application) and the resolution input by the user from the operation unit 13 are acquired (S31, S32), the recommended intensity management table (see FIG. 6). To obtain a recommended embedding strength corresponding to the input use and resolution (S33). Then, the control unit 12 further determines whether or not an operation related to the automatic determination of the embedding strength has been performed on the operation unit 13 (S34). When the control unit 12 determines that the operation related to the automatic determination has not been performed (NO in S34), a predetermined flag is set for the designated use and resolution in the sample image management table (see FIG. 4). Recommended sampling image data SIm with _N (See the broken line □ or □ in FIG. 4) from the storage unit 14 and read the recommended sampling image data SIMm. _N Is displayed on the display unit 15 (S35). For example, when the use with priority on image quality is selected (S31) and the resolution R1 is specified (S32), the recommended sampling image data ISm in which the watermark data is embedded at the recommended embedding strength I3. ₁₁ Is displayed on the display unit 15.
[0069]
In this state, the user can determine whether or not the image quality at the specified resolution is acceptable by looking at the recommended sample image. Then, when determining that the determination instruction operation has been performed on the operation unit 13 (YES in S36), the control unit 12 determines the recommended embedding strength as the embedding strength to be supplied to the watermark embedding unit 11 (S19 in FIG. 7). ). Thereafter, the control unit 12 increments and updates the number Nij of recommended embedding strengths for the designated resolution in the strength setting history table (see FIG. 5) for the selected application in the database 16 by +1 (S20). ).
[0070]
On the other hand, when the control unit 12 determines that the operation related to the automatic determination has been performed (YES in S34), the embedding strength to automatically provide the acquired recommended embedding strength (S33) to the watermark embedding unit 11 is provided. (S19 in FIG. 7). Also in this case, the control unit 12 increments the number of times Nij of the recommended embedding strength for the designated resolution in the strength setting history table (see FIG. 5) for the selected application in the database 16 by +1 and updates it. (S20).
[0071]
When the user performs a mode switching operation on the operation unit 13 while the recommended sampling image is displayed on the display unit 15 as described above, the control unit 12 determines that the mode switching operation has been performed. (S37), and shifts to the processing in the manual determination mode described above (see FIG. 7). As a result, as described above, when the determination instruction operation is performed in the process of sequentially changing the sample images displayed on the display unit 15 in response to the update operation, the sample image displayed on the display unit 15 at that time is displayed. The embedding strength of the watermark data in the corresponding sample image data is determined as the embedding strength to be provided to the watermark embedding unit 11 (S13 to S20).
[0072]
According to the processing in the recommended determination mode as described above, the recommended sample image in which the watermark data is embedded at the recommended embedding strength that is the embedding strength generally recommended for the selected application and resolution is first displayed. 15, the appropriate embedding strength of the watermark data with respect to the selected application (the image priority application or the evidential priority application) and the resolution original image data can be efficiently determined. When an operation related to the automatic determination is performed (YES in S34 in FIG. 8), the recommended embedding strength is automatically set as the embedding strength to be provided to the watermark embedding unit 11 without displaying the recommended sample image. Since the determination is made, the watermark data can be efficiently embedded in the original image data of the selected use and resolution with an appropriate embedding strength.
[0073]
Further, according to the digital watermark embedding device according to the second embodiment, according to the condition about the resolution of the original image data, or according to the condition about the resolution of the original image data and the condition about its use. Since the embedding strength of the watermark data can be variably set, a more versatile digital watermark embedding device can be realized.
[0074]
In the digital watermark embedding device according to the second embodiment described above, each recommended embedding strength in the recommended strength management table (see FIG. 6) is fixedly determined based on the application and the resolution. It is also possible to change the recommended embedding strength according to a predetermined method. For example, the control unit 12 assigns an appropriate weight to the number of setting times N1j to N5j (setting history) of each embedding strength I1 to I5 corresponding to each resolution Rj in the strength setting history management table (see FIG. 5) for each application. By performing the calculation, the recommended embedding strength for each resolution Rj can be calculated. Then, the recommended embedding strength corresponding to each resolution Rj for each application in the recommended strength management table (see FIG. 6) is updated to the calculated recommended embedding strength.
[0075]
By changing the recommended embedding strength based on the history of the actually set embedding strength as described above, the recommended embedding strength suitable for the specification of a system (for example, a monitoring system, etc.) to which the digital watermark embedding device is actually applied. Can be obtained.
[0076]
Further, a digital watermark embedding device according to a third embodiment of the present invention will be described. The digital watermark embedding device according to the third embodiment is different from the digital watermark embedding device according to the above-described second embodiment in not having a function of displaying a sample image.
[0077]
The digital watermark embedding device according to the third embodiment of the present invention is configured as shown in FIG.
[0078]
9, the digital watermark embedding device 10 includes a watermark embedding unit 11, a control unit 12, an operation unit 13, and a database 16, like the digital watermark embedding device according to the second embodiment described above. . The database 16 stores a recommended strength management table shown in FIG.
[0079]
The control unit 12 executes the processing of S31, S32, S33 shown in FIG. 8 and S19 shown in FIG. 7 in this order. That is, when the control unit 12 obtains the application (either the image quality priority application or the evidence priority application) and the resolution input by the user from the operation unit 13 (S31, S32 in FIG. 8), the control unit 12 obtains the recommended intensity management table. (See FIG. 6) to obtain a recommended embedding strength corresponding to the input use and resolution (S33). Then, the control unit 12 determines the obtained recommended embedding strength as the embedding strength to be provided to the watermark embedding unit 11 (S19 in FIG. 7).
[0080]
According to such a digital watermark embedding device, similar to the function of automatically determining the recommendation determination mode in the digital watermark embedding device according to the second embodiment described above, the recommendation corresponding to the designated use and resolution conditions is performed. Since the embedding strength is automatically determined as the embedding strength to be provided to the watermark embedding unit 11, it is possible to efficiently embed the watermark data with the proper embedding strength in the original image data of the selected application and resolution. become able to.
[0081]
In the second and third embodiments, the condition for the resolution of the original image data is used as the condition for the characteristic item of the original image data. Alternatively, a condition on an encoding bit rate representing the amount of encoded data per unit time may be used. In this case, by managing the sample image data, the recommended sample image data, and the recommended embedding strength according to the encoding bit rate instead of the resolution, the same as in the second and third embodiments described above. A digital watermark embedding device can be realized. In such a digital watermark embedding device, the embedding strength of watermark data can be variably set in accordance with the image data encoding method (MPEG-4, MPEG-2, etc.).
[0082]
In the second and third embodiments, the embedding strength is variably set in accordance with the conditions of use (image quality priority, evidence priority). In a system for transmitting image data via a predetermined network, for example, a condition for an item (eg, a wireless transmission line, a wired transmission line, an analog transmission line, a digital transmission line, etc.) ), The embedding strength of the watermark information can be variably set. In this case, when the image data is switched and transmitted over a plurality of different transmission paths, the watermark data can be embedded in the transmission image data with an appropriate embedding strength according to the transmission path. Thus, even if the degree of deterioration of the image data to be transmitted differs depending on the conditions of the transmission path, the embedding strength according to the transmission path is set so that the desired image data can be transmitted from any transmission path. Watermark data can be detected with the detection rate of
[0083]
As for the above-mentioned resolution, the value itself may be provided from the operation unit 13 to the control unit 12, or information (for example, rank) for specifying the range of the resolution may be provided. In this case, the sample image management table, the intensity setting history management table, and the recommended intensity management table are created using the information indicating the range of the resolution.
[0084]
Further, the means for acquiring the resolution may not be the means for acquiring the resolution input from the operation unit 13 as described in the second embodiment and the third embodiment. For example, even if the resolution is detected from the image data in which the watermark data is to be embedded, information indicating the resolution may be inserted in the image data in advance, and the information may be extracted.
[0085]
Furthermore, in each of the above embodiments, the original data is image data, but the type of the original data is not limited to this, and other types of data, such as audio data, text data, etc. You may.
[0086]
Further, the digital watermark embedding device 10 shown in FIG. 9 may be configured such that the control unit 12 provides the embedding strength input from the operation unit 15 to the watermark embedding unit 11. In this case, if the information input from the operation unit 15 is information (for example, rank) that specifies a range of the embedding strength, the control unit 12 converts the information (rank) into a specific embedding strength (the center of the range). Value, representative value), and the embedding strength is provided to the watermark embedding unit 11.
[0087]
【The invention's effect】
As described above, according to the present invention, the embedding strength of the watermark information to be embedded in the original data can be variably set, so that the watermark information is embedded in the original data with an appropriate embedding strength for various requests. Will be able to do it. Therefore, a highly versatile digital watermark embedding device can be realized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a digital watermark embedding device according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing an operation procedure of a control unit in the digital watermark embedding device shown in FIG.
FIG. 3 is a block diagram showing a configuration of a digital watermark embedding device according to a second embodiment of the present invention.
FIG. 4 shows a sample image management table.
FIG. 5 is a diagram showing an intensity setting history management table.
FIG. 6 is a diagram showing a recommended strength management table;
FIG. 7 is a flowchart showing an operation procedure of a control unit in the digital watermark embedding device shown in FIG. 3 (part 1);
FIG. 8 is a flowchart showing an operation procedure of a control unit in the digital watermark embedding device shown in FIG. 3 (part 2);
FIG. 9 is a block diagram showing a configuration of a digital watermark embedding device according to a third embodiment of the present invention.
[Explanation of symbols]
10 Digital watermark embedding device
11 watermark embedding unit
12 control unit
13 Operation section
14 Storage unit
15 Display
16 Database

Claims (12)

Embedding strength setting means for variably setting the embedding strength of the watermark information;
A watermark embedding unit for embedding watermark information in the original data according to a predetermined algorithm with the embedding strength set by the embedding strength setting unit. Having storage means for storing a plurality of sample data in which watermark information is embedded with different embedding strengths,
The embedding strength setting means, based on a predetermined operation in the operation unit, a sample output control means for sequentially outputting a plurality of samples based on a plurality of sample data stored in the storage means to the output means,
An embedding strength determining unit that determines the embedding strength of the watermark information in the sample data corresponding to one sample output from the output unit as an embedding strength to be set, based on a determination instruction operation in the operation unit. The digital watermark embedding device according to claim 1, wherein: The embedding strength setting means includes a condition acquiring means for acquiring a condition for a predetermined item, and variably sets the embedding strength of the watermark information according to the condition acquired by the condition acquiring means. The digital watermark embedding device according to claim 1, wherein: 4. The digital watermark embedding apparatus according to claim 3, wherein the condition acquiring unit acquires a condition for a predetermined characteristic item of the original data into which the watermark information is to be embedded, as a condition for the predetermined item. . 5. The digital watermark embedding device according to claim 4, wherein said condition obtaining means obtains a condition based on a data amount per predetermined unit of the original data. The original data is image data,
The digital watermark embedding device according to claim 5, wherein the data amount per predetermined unit is a resolution of an image represented by the image data. The original data is encoded data;
6. The digital watermark embedding device according to claim 5, wherein the data amount per predetermined unit is an encoding bit rate of encoded data. Sample data management means for managing a plurality of sample data in which watermark information is embedded with different embedding strengths under a condition for a predetermined characteristic item,
Storage means for storing the plurality of sample data,
The embedding strength setting unit causes the output unit to sequentially output samples based on the sample data stored in the storage unit managed by the sample data management unit in accordance with the condition acquired by the condition acquisition unit. Sample output control means;
An embedding strength determining unit that determines the embedding strength of the watermark information in the sample data corresponding to one sample output from the output unit as an embedding strength to be set, based on a determination instruction operation in the operation unit. 5. The digital watermark embedding device according to claim 4, wherein: Having a recommended strength management means for managing a recommended embedding strength in accordance with the condition for the predetermined characteristic item,
The embedding strength setting means has a recommended strength search means for searching for a recommended embedding strength managed by the recommended strength management means corresponding to the condition acquired by the condition acquiring means,
9. The sample output control means according to claim 8, wherein the sample data in which the watermark information is embedded at the recommended embedding strength obtained by the recommended strength search means is first displayed on the output means. Digital watermark embedding device. 10. The digital watermark embedding device according to claim 9, further comprising a recommended intensity changing unit that changes a recommended embedding intensity managed according to a condition of the predetermined characteristic item by the recommended intensity managing unit. Embedding strength setting history management means for generating and managing a history of the embedding strength set by the embedding strength setting means,
11. The digital watermark embedding device according to claim 10, wherein the recommended strength changing unit changes the recommended embedding strength based on an embedding strength setting history managed by the embedding strength setting history managing unit. . Having a recommended strength management means for managing a recommended embedding strength in accordance with the condition for the predetermined item,
The embedding strength setting means is configured to set a recommended embedding strength managed by the recommended strength management means in accordance with the condition acquired by the condition acquiring means as an embedding strength to be set. The digital watermark embedding device according to claim 3.

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