WO2006025382A1 - Information multiplexing device and method, information extraction device and method, and computer program - Google Patents

Abstract

There is provided an information multiplexing device for superimposing unique information (20) on a video signal (10a) inputted in a predetermined cycle unit (“second/frame” and “second/field”). The information multiplexing device includes generation means (106, etc.) for generating an information signal carrying the unique information and multiplexing means (105, etc.) for superimposing the generated information signal on a DC component value (DC component value, average DC value) indicating the average value of the brightness signal of a predetermined cycle unit contained in the video signal according to the predetermined cycle unit.

Description

 Information multiplexing apparatus and method, information extraction apparatus and method, and computer program

 [0001] The present invention relates to an information multiplexing device and method for multiplexing unique information such as copyright information, for example, information such as a video signal, an information extracting device and method for extracting the unique information, and The present invention relates to the technical field of computer programs executed in these information multiplexing devices and information extraction devices.

 Background art

 [0002] In recent years, the universalization of digital media, the rapid and widespread growth of the electronic publishing industry, the digitization of various multimedia contents, and the rapid development of digital communication networks such as the Internet are also speculated. The world is rapidly changing to the power of the analog age and the digital age. These also enable the transmission and exchange of various multimedia data such as E-Book, Internet TV, image, video, MP3, etc., and people demand using such various multimedia. Information can be obtained quickly and easily.

 [0003] However, various reverse functions have emerged due to the shift to the digital age. In other words, the development of digital technology makes it possible to copy the same amount as the original, and the development of the communication network makes it possible to distribute a large amount without any restrictions. Unique individual creations are stolen indiscriminately. The trend is coming out. In fact, illegal copying is a serious problem that must be resolved for businesses that provide distribution services such as MP3 files and video images on the Internet.

[0004] In particular, digital data cannot be distinguished from the original attribute of digital and the original copy, and due to these characteristics, there is a solution for copyright protection and authentication against illegal duplication, distribution and modification of digital data. Is demanded rapidly. Therefore, various anti-duplication technologies have been studied to effectively prevent duplication of this digital data and protect the copyrights of copyright holders. Research on electronic permeability methods known to exist is actively underway.

 Hereinafter, a conventional watermark embedding method will be described with reference to FIG. FIG. 16 is a schematic diagram schematically showing a process of embedding a digital watermark as a general example.

 First, the multiplier 50 multiplies the unique information 20 such as the copyright information embedded as the electronic permeability by the gain coefficient k. Next, the bit value output from the multiplier 50 by the embedding calculator 51 and the bit of the luminance value (luminance information, luminance signal) or color value (color information, color signal) of the pixel at a predetermined position of the original image 52. By replacing the value, an image 53 in which the unique information 20 is embedded as electronic transparency is generated.

 [0007] Specifically, in order to embed the unique information 20 in units of pixels included in the original image, an operation of replacing the lower n bits of the luminance information of the pixel at a predetermined position of one original image with a predetermined value is performed. ing. More specifically, the lower 2 bits of the luminance information are used to embed the unique information 20 in the 8-bit luminance information. In this case, the lower 2 bits can identify four types of information: “00”, “01”, “10”, and “11”, but the information of “00” and information other than “00” By identifying, it becomes possible to embed unique information.

 [0008] In addition, since there are, for example, about 720 X 480 = 345600 pixels per original image, 8 of these pixels embed the unique information 20 and 1 per original image. It is possible to embed unique information of (Byte). In general, an error correction code (ECC) is attached to the original information. For example, for each original image, a 4-byte error collection code is added to the 8-byte original information. It is possible to embed information of about 12 bytes in total.

 In order to extract the unique information 20 from the image 53 in which the electronic transparency is embedded as described above, for example, when the unique information 20 is embedded as a digital watermark by, for example, a bit plane embedding method, It is possible to extract the unique information 20 by extracting the bit value of the bit plane value in which the digital watermark is embedded from the luminance information or the color information, and then dividing the extracted data by the gain coefficient k.

 Disclosure of the invention

Problems to be solved by the invention However, since unique information is embedded as a digital watermark in a pixel at a predetermined position of one original image, for example, processing such as enlargement, reduction, rotation, or recompression of the original image is performed. If done, the unique information may not be extracted. In addition, in digital watermarking, original information is lost when illegal copying is performed by a camcorder in a so-called cinematic attack. In addition, in the extraction process of electronic transparency, unique information embedded in one original image is extracted, so basically, it is necessary to extract luminance information of all pixels constituting the original image. This puts a heavy load on processing.

The present invention has been made in view of, for example, the above-described problems, and can uniquely and accurately multiplex original information such as copyright information with information such as a video signal, for example. It is an object of the present invention to provide an information multiplexing apparatus and method, and a computer program.

 Means for solving the problem

 [0012] (Information multiplexer)

 In order to solve the above problems, the information multiplexing apparatus of the present invention is an information multiplexing apparatus that superimposes unique information on a video signal input in a predetermined cycle unit (“second Z frame” or “second Z field”). Generating means for generating an information signal carrying the unique information; and a DC component value (DC) indicating the average value of the luminance signal for each predetermined cycle unit included in the video signal. Superimposing means for superimposing the component value) on the basis of the predetermined cycle unit.

 [0013] According to the information multiplexing apparatus of the present invention, first, a video signal, unique information such as copyright information and power are input to the information multiplexing apparatus. The video signal input to the information multiplexing device may be an analog video signal or a digital video signal.

[0014] Next, the generation means generates an information signal carrying unique information.

Next, the superimposing means converts the information signal into a predetermined DC component value (DC component value, average DC value) indicating an average value of luminance signals for each predetermined cycle unit included in the video signal. Superimpose based on the period unit. Here, "predetermined cycle unit" is an example of the display method of the display It may be a period unit based on 1Z60 seconds, which is the NTSC field period, or may be a period unit based on 1Z30 seconds, which is a frame period. It may be. The superimposing means may be configured to superimpose one data unit of the information signal in a unit time larger than 10 times a predetermined cycle unit (“second Z frame” or “second Z field”). Alternatively, the superimposing means superimposes one data unit of the information signal in a unit time larger than 10 times the least common multiple of the cycle time of the original video signal and the cycle time of the video signal expected to be copied. You may comprise as follows.

[0016] If general electronic transparency is adopted, unique information is embedded as electronic transparency in a pixel at a predetermined position of one original image. For example, the original image is enlarged, reduced, rotated, Or, if processing such as recompression is performed, the original information may not be extracted. Further, in digital watermarking, original information is lost when illegal copying is performed by a camcorder in a so-called cinematographic attack. In addition, in the watermark extraction process, unique information embedded in one original image is extracted, so basically it is necessary to extract the luminance information of all pixels constituting the original image. Therefore, the processing is overloaded.

 [0017] On the other hand, according to the present invention, the direct current component value (DC component value, average DC value) indicating the average value of the luminance signal for each predetermined cycle unit included in the video signal is, for example, a predetermined value. Since information signals such as the amount of change are superimposed, original information may be lost even when processing such as enlargement, reduction, rotation, or recompression of the screen included in the video signal is performed. It can be said that there is little or no sex. In addition, since it is sufficient to extract the DC component value of the screen, calculation is particularly difficult in a compression method in which each reference pixel block such as DCT described later is configured based on the DC component value. Also, the load on the software processing on the computer is reduced. Furthermore, it is possible to detect superimposed data even when copying with a camcorder at the screening hall.

 As described above, according to the present invention, unique information such as copyright information can be easily and accurately multiplexed with information such as a video signal.

In one aspect of the information multiplexing apparatus of the present invention, the predetermined cycle unit is a frame or field cycle unit of the video signal. [0020] According to this aspect, various processes by the superimposing unit can be performed more accurately and easily.

 In another aspect of the information multiplexing device of the present invention, the generation unit generates an offset value for giving a predetermined change amount to the DC component value as the information signal by being superimposed, and the superimposition The means superimposes the offset value on the DC component value based on the predetermined period unit.

 [0022] According to this aspect, various processes by the generation unit and the superimposition unit can be performed more accurately and easily. Specifically, the image information included in the video signal, that is, the offset value for carrying the unique information is made variable according to a predetermined position on one screen so that the average DC value (DC component value, DC component value) is equal. You may comprise. In other words, on the screen area, the pixel brightness information or the bit value of the color value changes in a short time, so that the offset value for carrying unique information is increased. You can configure it ヽ. On the other hand, V may be configured to reduce the offset value for carrying unique information in a screen area where the luminance information of the pixel or the bit value of the color value has not changed for a long time! .

 In another aspect of the information multiplexing apparatus of the present invention, the generating means generates spread spectrum data obtained by performing spread spectrum on the unique information as the information signal.

 [0024] According to this aspect, it is possible to prevent illegal estimation and detection of unique information, and it is possible to improve the confidentiality of unique information. Therefore, it is very effective for copyright protection of video signals.

 In another aspect of the information multiplexing device of the present invention, the generating means generates a single sine wave signal based on the predetermined cycle unit as the information signal (“1”) or Not generated (“〇”).

 [0026] According to this aspect, various processes by the generation unit and the superimposition unit can be performed more accurately and easily.

In another aspect of the information multiplexing device of the present invention, the generation unit generates a sine wave signal that is phase-modulated with reference to the predetermined cycle unit as the information signal.

[0028] According to this aspect, various processes by the generation unit and the superimposition unit can be performed more accurately and easily. [0029] In another aspect of the information multiplexing device of the present invention, the generating unit generates a sine wave signal that is frequency-modulated with reference to the predetermined cycle unit as the information signal.

 [0030] According to this aspect, various processes by the generation unit and the superimposition unit can be performed more accurately and easily.

 [0031] In another aspect of the information multiplexing device of the present invention, the generating means generates a first sine wave signal and a second sine wave signal based on the predetermined cycle unit as the information signal. The unique information is indicated based on a phase difference between the first sine wave signal and the second sine wave signal.

 [0032] According to this aspect, various processes by the generation unit and the superimposition unit can be performed more accurately and easily. In particular, the frequency of the second sine wave signal may be configured to be, for example, twice or 10 times the frequency of the first sine wave signal. In addition, when relatively equal frequencies are used for the first and second sine wave signals, the copy control information described later is Copy Free, that is, when the unique information is “00”, a predetermined phase difference is used. If the first and second sine wave signals are superimposed with a filter, the removal process by the filter etc. becomes difficult. Therefore, it is very effective for copyright protection of video signals.

 Another aspect of the information multiplexing device of the present invention is included in a group of video signal frames defined by a first sequence (odd number) among a plurality of video signal frames input in a predetermined cycle unit. And detecting means for detecting a first average value of DC component values, wherein the generating means outputs the first average value by a predetermined amount (“0”: −2, “1”: +2) as the information signal. The first information is added to or subtracted from, and the superimposing means calculates a DC component value included in another group of video signal frames defined by a second sequence (even number) of the plurality of video signal frames. The information signal is superimposed by substituting the first information.

[0034] According to this aspect, various processes by the generation unit and the superimposition unit can be performed more accurately and easily. In particular, for example, the average value of the DC component values of the luminance signals of two odd frames is used as the reference value of the DC component value of the luminance signal of the even frame existing between the two odd frames, and a predetermined offset amount is added to the reference value. The original information may be superposed by adding or subtracting. DCT digital method described later You may employ | adopt with respect to a type | formula video signal.

 [0035] In the aspect related to the superimposing means, the superimposing means divides the information signal by discretely substituting the first component for the DC component value included in the video signal frame of the other group. Configure it like this.

[0036] With this configuration, it is possible to prevent illegal estimation and detection of unique information.

It becomes possible to increase the confidentiality of the original information. Therefore, for copyright protection of video signals

It is very effective.

 [0037] In the aspect according to the generation means, the generation means is configured to generate the information signal while changing the attribute of the information signal at a fixed-length time interval or a variable-length time interval. May be.

 [0038] With this configuration, it is possible to prevent illegal estimation and detection of an information signal carrying unique information, and it is possible to increase the confidentiality of unique information. Therefore, it is very effective for copyright protection of video signals.

[0039] In another aspect of the information multiplexing device of the present invention, the unique information carried in the information signal is copyright information.

[0040] According to this aspect, it is very effective for copyright protection of a video signal.

In another aspect of the information multiplexing apparatus of the present invention, the unique information carried in the information signal is copy control information (CCI: Copy Control Information: 2 bits).

[0042] According to this aspect, it is possible to reduce the data amount of the unique information.

In another aspect of the information multiplexing apparatus of the present invention, the unique information carried in the information signal is a region code (8 bits) indicating regional information.

[0044] According to this aspect, for example, the present invention can be applied to a recording medium such as a DVD.

 [0045] (Information multiplexing method)

In order to solve the above-described problem, the information multiplexing method of the present invention provides information in an information multiplexing apparatus that superimposes unique information on a video signal input in a predetermined cycle unit (“second Z frame” or “second Z field”). It is a multiplexing method, a generating step for generating an information signal carrying the unique information, and the generated information signal for the predetermined frequency included in the video signal. And a superimposing step of superimposing the direct current component value indicating the average value of the luminance signal for each period on the basis of the predetermined period unit.

 [0046] According to the information multiplexing method of the present invention, various benefits similar to those of the information multiplexing apparatus of the present invention described above can be enjoyed.

 Incidentally, in response to the various aspects of the information multiplexing apparatus of the present invention described above, the information multiplexing method according to the present invention can also adopt various aspects.

 [0048] (Information extraction device)

 In order to solve the above problems, the information extraction apparatus of the present invention obtains the unique information from the video signal in which the unique information is multiplexed by the information multiplexing apparatus of the present invention described above (including various aspects thereof). An information extraction device that extracts in units of the predetermined period (“second Z frame” or “second Z field”), a detection means for detecting the information signal carrying the unique information, and the detected information Extraction means for extracting the unique information from the signal based on the predetermined period unit.

 [0049] According to the information extraction apparatus of the present invention, first, the detection means, for example, decompresses and decodes the encoded video signal recorded in the bit stream or file, for example. To detect. Next, the superimposed unique information is extracted from, for example, the decoded and detected video signal by the superimposing means. Then, for example, it is displayed on a monitor together with a video signal or recorded on a recording medium. Therefore, various kinds of processing by the detection means and the extraction means can be performed more accurately and easily.

 [0050] Incidentally, in response to the various aspects of the information multiplexing apparatus of the present invention described above, the information extraction apparatus of the present invention can also adopt various aspects.

 [0051] (Information extraction method)

In order to solve the above problems, the information extraction method of the present invention extracts the unique information from a video signal in which the unique information is multiplexed by the information multiplexing device of the present invention described above (including various aspects thereof). An information extraction method in an information extraction apparatus that extracts in units of the predetermined period (“second Z frame” or “second Z field”), the detection step detecting an information signal carrying the unique information, and the detection An extraction step of extracting the unique information from the information signal based on the predetermined cycle unit. [0052] According to the information extraction method of the present invention, various benefits similar to those of the information extraction apparatus of the present invention described above can be enjoyed.

 Incidentally, in response to the various aspects of the information extraction apparatus of the present invention described above, the information extraction method according to the present invention can also adopt various aspects.

 [0054] (Computer program)

 In order to solve the above problems, a first computer program according to the present invention causes a computer to function as at least a part of the above-described information multiplexing apparatus (including various forms thereof). In order to solve the above problems, a second computer program according to the present invention causes a computer to function as at least a part of the above-described information extraction device (including various forms thereof).

 [0055] According to each computer program according to the present invention, if the computer program is read from a recording medium such as a ROM, CD-ROM, DVD-ROM, or hard disk storing the computer program and then executed by the computer. Alternatively, if the computer program is downloaded to a computer via communication means and then executed, the above-described information multiplexing device or information extraction device of the present invention can be realized relatively easily.

 [0056] Incidentally, in response to various aspects of the information multiplexing apparatus or information extraction apparatus of the present invention described above, each computer program of the present invention can also adopt various aspects.

 [0057] In order to solve the above problem, the first computer program product in the computer-readable medium clearly embodies a program instruction executable by a computer, and the computer is connected to the information multiplexing device (described above). However, it also functions as at least a part of its various forms).

 [0058] In order to solve the above-mentioned problem, the second computer program product in the computer-readable medium clearly embodies program instructions executable by a computer, and the computer extracts the above-described information extraction device ( However, it also functions as at least a part of its various forms).

[0059] According to the first or second computer program product of the present invention, the recording of the ROM, CD-ROM, DVD-ROM, hard disk or the like storing the computer program product. If the computer program product is read from a medium into a computer, or if the computer program product, which is a transmission wave, for example, is downloaded to a computer via communication means, the information multiplexing device or information extraction device of the present invention described above Can be implemented relatively easily. More specifically, the computer program product may also be configured with computer-readable code (or computer-readable instructions) that functions as the information multiplexing device or information extraction device of the present invention described above.

 [0060] These effects and other advantages of the present invention will become apparent from the embodiments described below.

[0061] As described above, according to the information multiplexing apparatus or method of the present invention, the generation unit and the process, the superimposing unit and the process are provided. In addition, according to the information extraction apparatus or method of the present invention, the detection means and the process, and the extraction means and the process are provided. Therefore, for example, original information such as copyright information can be easily and accurately multiplexed with information such as a video signal.

 Brief Description of Drawings

 FIG. 1 is a conceptual configuration diagram of a system using an information multiplexing device and an information extraction device according to the present invention.

 FIG. 2 is a conceptual diagram schematically showing a video signal, unique information, and a transmission time axis according to the present invention.

 FIG. 3 is a conceptual diagram schematically showing a specific example of a period in which unique information according to the present invention is superimposed.

 [Fig. 4] A comparison between the frame period of a motion picture film, which is a reference in determining another specific example of the period in which the unique information according to the present invention is superimposed, and the frame period of, for example, NTSC video It is the schematic diagram shown.

 FIG. 5 is a block diagram showing a basic configuration according to the first embodiment of the information multiplexing apparatus of the present invention.

 FIG. 6 is a flowchart (FIG. 6 (a)) showing an operation principle according to the first embodiment of the information multiplexing apparatus of the present invention and a flowchart (FIG. 6 (b)) showing a subroutine thereof. .

FIG. 7 is a block diagram showing a basic configuration according to the second embodiment of the information multiplexing apparatus of the present invention. FIG. 8 is a flowchart (FIG. 8 (a)) showing an operation principle according to the second embodiment of the information multiplexing apparatus of the present invention and a flowchart (FIG. 8 (b)) showing its subroutine. .

 FIG. 9 is a block diagram showing a basic configuration according to the third embodiment of the information multiplexing apparatus of the present invention.

 FIG. 10 is a flowchart (FIG. 10 (a)) showing an operation principle according to the third embodiment of the information multiplexing apparatus of the present invention and a flowchart (FIG. 10 (b)) showing its subroutine. .

 FIG. 11 is a block diagram showing a basic configuration according to the fourth embodiment of the information multiplexing apparatus of the present invention.

 FIG. 12 is a flow chart showing an operation principle according to the fourth embodiment of the information multiplexing apparatus of the present invention.

 FIG. 13 is a block diagram showing a basic configuration according to the fifth embodiment of the information multiplexing apparatus of the present invention.

 FIG. 14 is a schematic diagram schematically showing a pixel block in which DC component values of a DCT digital video signal according to a fifth embodiment of the information multiplexing apparatus of the present invention are arranged.

 FIG. 15 is a flow chart showing the operation principle according to the fifth embodiment of the information multiplexing apparatus of the present invention.

 FIG. 16 is a schematic diagram schematically showing a process of embedding electronic permeability as a general example. Explanation of symbols

 [0063] 10 ... Video signal, 20 ... Unique information, 100 ... Information multiplexing device, 101-AZD converter, 102 ... Blanking remover, 103 ... "Limiter, 104. VBI detector, 105 ... 106, spectrum spread modulator, 201 (301, 302) ... sine wave generator

 BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, the best mode for carrying out the present invention will be described in each embodiment in order with reference to the drawings.

 Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[Outline of Information Multiplexer and Information Extractor]

First, with reference to FIG. 1, the outline of the information multiplexing apparatus and information extracting apparatus of the present invention will be described. Here, FIG. 1 uses the information multiplexing device and the information extraction device according to the present invention. It is a notional block diagram of a system.

 As shown in FIG. 1, first, video signal 10 and unique information 20 such as copyright information are input to information multiplexing apparatus 100. Next, the information multiplexing apparatus 100 superimposes the unique information 20 on the video signal 10. More specifically, the information multiplexing apparatus 100 compresses and encodes the video signal 10 on which the unique information 20 is superimposed, for example, as a bit stream or a file, and outputs it to a network or a recording medium such as a CD or DVD. To do. Then, for example, a bit stream transmitted via a network or a file recorded on a recording medium or the like is input to the information extraction device 200. On the other hand, the information extraction apparatus 200 decompresses and decodes the encoded video signal 10 recorded in the above-described bit stream or file, for example. Then, the superimposed unique information is extracted from the decoded video signal 10 and displayed on the monitor or recorded on the recording medium together with the video signal 10.

 [0068] (Outline of a predetermined cycle unit in which unique information is multiplexed)

 Next, an outline of the unique information multiplexing method according to the present invention will be described with reference to FIGS. FIG. 2 is a conceptual diagram schematically showing a video signal, unique information, and a transmission time axis according to the present invention. FIG. 3 is a conceptual diagram schematically showing a specific example of a period in which the unique information according to the present invention is superimposed. FIG. 4 schematically shows a comparison between a frame period in a motion picture film, which is a reference in determining another specific example of a period in which unique information according to the present invention is superimposed, and a frame period in an NTSC video, for example. It is the schematic diagram shown. Note that video “A” to video “D” in FIGS. 2 to 4 show the same video frame.

 As shown in FIG. 2, the unique information 20 is multiplexed onto the video signal 10 on the transmission time axis in a predetermined cycle unit. More specifically, the unique information 20 is “1”, “0”, “1”, “1”, “0”,... , Image “B”, image “C”, image “D”, image “A”,..., DC component value indicating the average value of the luminance signal included in image “D”, in a predetermined cycle unit Is superimposed in synchronization with

[0070] Here, the "predetermined cycle unit" may be a cycle unit based on 1Z60 seconds, which is a field cycle of the NTSC system, which is an example of the display method of the display, or 1Z30 seconds of the frame cycle. May be a periodic unit. Or PAL field The unit may be based on 1Z50 seconds, which is the cycle, or may be based on 1Z25 seconds, which is the frame cycle.

 More specifically, as shown in FIG. 3, when the video signal is an analog video signal conforming to the NTSC system, the total number of scanning lines in one frame is 525. The frame period is 1Z30 seconds (33msec). As a specific example of the “predetermined cycle unit”, 1Z3 seconds (0.33 seconds) that is at least 10 times the frame period to 10 Z3 seconds (3.3 seconds) that is 100 times is desirable. This is because the original information is less affected by the deterioration of the video signal. In addition, the amount of information in the filtering process is more accurately reduced, and the possibility of removing the unique information by the filtering process is reduced. That is, for example, 1 data (bit) unit power of original information is transmitted on the time axis in 3.3 seconds.

 [0072] Another specific example of the "predetermined cycle unit" is preferably about 1.6 seconds (10Z6 seconds) to 2.0 seconds (12Z2 seconds). More specifically, as shown in FIG. 4, the frame period in motion picture film is 1Z24 seconds. On the other hand, the frame period in NTSC video is 1Z30 seconds. Therefore, the time of 4 frames of motion picture film, that is, 4Z24 seconds (1Z6 seconds) is equal to the time of 5 frames of NTSC video, that is, 5Z30 seconds (1Z6 seconds).

 Therefore, as another specific example of “predetermined cycle unit”, the vertical blanking interval (VBI) of movie film and the vertical blanking interval of NTSC video are beat ( In order to prevent (collision: beat), this 1Z6 seconds is the reference time, and it is desirable that the reference time is 10 times (1.6 seconds) to 12 times (2.0 seconds). In other words, when the predetermined cycle unit power is 2 seconds, in movie film, one data (bit) unit of unique information is transmitted on the time axis in a time unit corresponding to 48 frames. On the other hand, in NTSC C video, one data (bit) unit of unique information is transmitted on the time axis in a time unit corresponding to 60 frames.

 [0074] (1) Details of First Embodiment of Information Multiplexer

Next, with reference to FIG. 5 and FIG. 6, the basic configuration and operation principle of the first embodiment of the information multiplexing apparatus of the present invention will be described. Here, FIG. 5 relates to the information multiplexing apparatus of the present invention. 1 is a block diagram showing a basic configuration according to a first embodiment. FIG. 6 is a flowchart (FIG. 6 (a)) showing an operation principle according to the first embodiment of the information multiplexing apparatus of the present invention and a flowchart (FIG. 6 (b)) showing its subroutine.

 [0075] (1 1) Basic configuration

 As shown in FIG. 5, the first embodiment of the information multiplexing apparatus of the present invention is an A / D (Analog to Digital) transformation 101 to which an analog video signal is input 101, scanning of a video signal not including video information. In addition to the blanking remover 102 that removes the blanking that is a line, the limiter 103 that suppresses the output amplitude below a predetermined value, the VBI (Vertical blanking interval) detector 104, the superimposer 105, and the adder 111 , A spread spectrum modulator 106 for performing spread spectrum modulation on the unique information 20 and the sync signal sync, a random signal table 107 for storing a randomization pattern used for the spread spectrum modulation of the sync signal sync of the unique information 20 The sync signal table 108 in which the sync signal sync is stored, the random information used for the spread spectrum modulation of the unique information 20 itself, and the random signal Buru 109, the specific information 20 is stored, is configured to include a Ru own information tapes Le 110, Ru.

 [0076] (1 2) Principle of operation

 Next, with reference to FIG. 5 described above in addition to FIG. 6, the detailed configuration in addition to the operation principle of the first embodiment of the information multiplexing apparatus of the present invention will be described.

 As shown in FIG. 6 (a), first, the analog video signal 10a is input to the AZD converter 101 and the VBI detector 104 (step S10).

 Subsequently, the AZD converter 101 performs AZD conversion of the analog video signal 10a (step S11).

 [0079] Subsequently, the analog video signal 10a that has been AZD-converted by the blanking remover 102 is, for example, an S video (YZC) signal and a reference video synchronization signal (specifically, horizontal and vertical synchronization signals). (Step S12). In this way, for example, blanking signals are removed for NTSC video and the like. It is not necessary to remove blanking signals for movie films.

[0080] Subsequently, the limiter 103, for example, limits the amplitude of the separated S video signal. In order to apply dynamic range compression, dynamic range compression is performed (step SI 3). This dynamic range compression is to prevent luminance saturation due to data superposition. For example, if the maximum value of the superimposed data is “2”, the maximum value of the video data is clipped to “255-2”. To achieve higher altitude, change the input / output curve gradually from the specified range. Subsequently, at the same time as or before or after steps S10 to S13, the VBI detector 104 detects 48 frame units in the movie film in the predetermined cycle unit of, for example, 2 seconds described in FIG. In NTSC video, 60 frame units are detected (step S14).

 [0081] Subsequently, in addition to the superimposer 105, the adder 111 synchronizes with a predetermined cycle unit detected by the VBI detector 104, and a direct current component indicating an average value of the luminance signal of the analog video signal 10a. The spread spectrum unique information 20 is superimposed on the value (step S15). More specifically, the spread spectrum unique information 20, that is, the spread spectrum data SI is synthesized and arranged after the spread spectrum synchronization information SS.

 [0082] Further, the average DC value is equal, and the image information included in the analog video signal 10a, that is, the amount of change for indicating the unique information 20 according to a predetermined position on one screen is made variable. May be. That is, in the screen area where the pixel brightness information or the color value bit value changes in a short time in one screen, the amount of change to carry the unique information 20 is increased. You may comprise. On the other hand, the luminance information of the pixel or the bit value of the color value may change for a long time, and the amount of change for carrying the unique information 20 may be reduced in the screen area. .

Here, referring to FIG. 5 described above in addition to FIG. 6 (b) as appropriate, the spectrum expansion according to the present invention is performed.

I will explain.

First, the randomization pattern used for the spread spectrum modulation of the synchronization signal sync of the unique information 20 is supplied from the random signal table 107 to the spread spectrum modulator 106 as the random signal RND 1 (step S16a). The randomized pattern corresponds to a spreading code and is a bit string generated using a random function. More specifically, it is used for spread spectrum modulation of the sync signal sync, and a plurality of random patterns for detecting the sync signal sync, for example, 10 patterns are prepared. Next, the synchronization signal sync is supplied from the synchronization signal table 108 to the spread spectrum modulator 106 (step S 17a). More specifically, the data amount of the synchronization signal sync is, for example, 8 bits, and the synchronization signal pattern is, for example, “10101010”.

 [0086] Subsequently, the spread spectrum modulator 106 multiplies the synchronization signal sync by the random data RND1 to generate the spread spectrum synchronization signal SS (step S18a). Note that the spectrum spread modulator 106 can be configured by, for example, an exclusive OR circuit XOR or the like. More specifically, the spread spectrum synchronization signal SS is multiplied by, for example, the 10 randomization patterns described above to check whether the synchronization signal sync pattern can be restored or not. As a result, the sync signal sync can be detected.

 [0087] The randomized pattern used for the spread spectrum modulation of the unique information 20 itself is supplied from the random signal table 109 to the spread spectrum modulator 106 as the random signal RND2 from the random signal table 109 simultaneously with or in succession to steps S16a to S18a. (Step S16b).

 Next, the unique information 20 is supplied from the unique information table 110 to the spread spectrum modulator 106 (step S 17b). More specifically, the data amount of the unique information 20 is, for example, 128 bits, and an error correction code (ECC: Error Correction Code) for error correction is added by 10 bits to be 138 bits.

 [0089] Subsequently, the spread spectrum modulator 106 multiplies the unique information 20 with the random data RND2 to generate spread spectrum data SI (step S18b).

 [0090] Finally, the spread spectrum modulator 106 synthesizes the spread spectrum synchronization signal SS generated in step S18a and the spread spectrum data SI generated in step S18a (step S19). In the specific example described above, the spread spectrum is applied to the synchronization signal sync and the unique information 20, but the spread spectrum may be applied only to the unique information 20.

[0091] Further, a randomization pattern used for the spread spectrum modulation of the synchronization signal sync (that is, a randomization pattern for detection of the synchronization signal sync) and a randomization pattern used for the spread spectrum modulation of the unique information 20 For example, correspondence is made according to a predetermined rule such as a table or a function. Therefore, random to spread spectrum of unique information 20 It is possible to change the function itself or its type. In this way, by combining the information regarding the correspondence relationship of the randomized pattern with the unique information 20, the data amount of the unique information 20 can be reduced.

 [0092] The process returns to step S15 in Fig. 6 (a) again.

 [0093] As described above, for example, when the predetermined cycle unit is 2 seconds, one data (bit) unit of the unique information 20 is the average value of the luminance signal of the analog video signal 10a in units of 2 seconds. Is superimposed on the DC component value indicating. Specifically, since the sum of the data amount of the sync signal sync and the unique information 20 is 146 (= 138 + 8) bits, for example, the unique information 20 in one logical unit having one meaning is stored in time. It takes about 292 seconds (about 5 minutes) to transmit on the axis. In addition, to reduce the amount of data of the unique information 20 and shorten the transmission time, for example, copy control information (CCI: Copy Control Information) or a region code indicating regional information can be used. It is. When the unique information 20 is, for example, copy control information, the data amount is composed of 2 bits. More specifically, it is possible to indicate three types of information: “11” meaning Never Copy, “10” meaning Copy Once, and “00” meaning Copy Free. On the other hand, when the unique information 20 is a region code, for example, the data amount is composed of 8 bits.

 [0094] (2) Details of Second Embodiment of Information Multiplexer

 Next, with reference to FIGS. 7 and 8, the basic configuration and operation principle of the second embodiment of the information multiplexing apparatus of the present invention will be described. FIG. 7 is a block diagram showing a basic configuration according to the second embodiment of the information multiplexing apparatus of the present invention.

 [0095] The basic configuration and operation principle according to the second embodiment of the information multiplexing apparatus of the present invention are substantially the same as those of the first embodiment. Components similar to those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

 [0096] (2-1) Basic configuration

As shown in FIG. 7, the second embodiment of the information multiplexing apparatus of the present invention is similar to the first embodiment described above in AZD conversion 101, blanking remover 102, limiter 103, and VBI detector 104. In addition to the superimposing unit 105, a sine wave generator 201 for generating a single sine wave signal carrying the unique information 20 and a controller 202 are provided. [0097] (2-2) Principle of operation

 Next, with reference to FIG. 7 described above in addition to FIG. 8, the detailed configuration in addition to the operating principle of the second embodiment of the information multiplexing apparatus of the present invention will be described. Here, FIG. 8 is a flowchart (FIG. 8 (a)) showing an operation principle according to the second embodiment of the information multiplexing apparatus of the present invention and a flowchart (FIG. 8 (b)) showing its subroutine. ). Steps similar to those in the first embodiment are denoted by the same step numbers, and description thereof will be omitted as appropriate.

 [0098] Following step S10 to step S14, the superimposer 105 synchronizes with a predetermined cycle unit detected by the VBI detector 104 to generate a DC component value indicating the average value of the luminance signal of the analog video signal 10a. On the other hand, a single sine wave signal carrying unique information 20 is superimposed (step S20). Specifically, when the unique information 20 is “0”, for example, a single sine wave signal may be added to the DC component value described above. On the other hand, in the case of the unique information 20 force S “l”, it may be configured not to add, for example, a single sine wave signal to the DC component value. Further, instead of a single sine wave signal, a sine wave signal subjected to phase modulation or frequency modulation may be superposed in synchronism with a predetermined period unit.

 [0099] Furthermore, as shown in FIG. 8 (b), the sine wave generator 201 is synchronized with a predetermined cycle unit detected by the VBI detector 104, for example, a single sine wave. The signal may be generated or may not be generated. Specifically, first, under the control of the controller 202, it is determined whether or not the unique information 20 is “1” (step S21). Here, when the unique information 20 is “1” (step S 21: Yes), for example, a single sine wave signal is generated in synchronization with a predetermined period unit detected by the VBI detector 104. (Step S22). On the other hand, when the unique information 20 is “0” (step S21: No), step S22 is omitted and a single sine wave signal is not generated.

 [0100] (3) Details of the third embodiment of the information multiplexing apparatus

 Next, the basic configuration and operation principle of the third embodiment of the information multiplexing apparatus of the present invention will be described with reference to FIG. 9 and FIG. FIG. 9 is a block diagram showing a basic configuration according to the third embodiment of the information multiplexing apparatus of the present invention.

[0101] The basic configuration and operation principle according to the third embodiment of the information multiplexing apparatus of the present invention are substantially the same as those of the first embodiment. Note that the same symbols are used for the same components as in the first embodiment. Numbers will be assigned and descriptions thereof will be omitted as appropriate.

 [0102] (3-1) Basic configuration

 As shown in FIG. 9, the third embodiment of the information multiplexing apparatus of the present invention is similar to the first embodiment described above in AZD conversion 101, blanking remover 102, limiter 103, and VBI detector 104. In addition to the superimposing unit 105, a sine wave generator 301 that generates a first sine wave signal, a sine wave generator 302 that generates a second sine wave signal, a phase shifter 303, an adder 304, and a controller 2 02 It is prepared for.

 [0103] In particular, in the third embodiment, the frequency of the second sine wave signal may be configured to be, for example, twice or 10 times the frequency of the first sine wave signal. The unique information 20 is carried by the phase difference between the first sine wave signal and the second sine wave signal.

 [0104] (3-2) Principle of operation

 Next, with reference to FIG. 9 described above in addition to FIG. 10, the detailed configuration in addition to the operation principle of the third embodiment according to the information multiplexing apparatus of the present invention will be described. Here, FIG. 10 is a flowchart (FIG. 10 (a)) showing an operation principle according to the third embodiment of the information multiplexing apparatus of the present invention, and a flowchart (FIG. 10 (b)) showing its subroutine. ). The same steps as those in the first embodiment are denoted by the same step numbers, and description thereof will be omitted as appropriate.

 [0105] Subsequent to steps S10 to S14, the superimposer 105 generates a DC component value indicating the average value of the luminance signal of the analog video signal 10a in synchronization with a predetermined cycle unit detected by the VBI detector 104. On the other hand, in order to carry the unique information 20, a signal obtained by adding the first sine wave signal and the second sine wave signal is superimposed (step S30).

Specifically, when the unique information 20 is “0”, the direct current component value described above has a first sine wave signal and a phase difference of 0 degree from the first sine wave signal (ie, A signal obtained by adding the second sine wave signal (with no phase difference) may be superimposed. On the other hand, when the unique information 20 is “1”, the first sine wave signal and the second sine wave signal having a phase difference of 90 degrees from the first sine wave signal are added to the DC component value. You may comprise so that a signal may be superimposed. When frequencies that are relatively close or equal are used for the first and second sine wave signals, the copy control information is Copy Free, that is, the original information is “00”, and a predetermined phase difference is obtained. Therefore, if the first and second sine wave signals are superimposed, the removal process using the filter etc. becomes difficult. The Therefore, it is very effective for protecting the copyright of the video signal.

 More specifically, as shown in FIG. 10 (b), first, the sine wave generators 301 and 302 are synchronized with a predetermined cycle unit detected by the VBI detector 104 in the first period. And the second sine wave signal is generated (step S31).

 Next, under the control of the controller 202, it is determined whether or not the unique information 20 is “1” (step S32). If the unique information 20 is “1” (step S32: Yes), the phase shifter 303 adjusts the second sine wave signal to have a phase difference of 90 degrees from the first sine wave signal. (Step S33). On the other hand, when the unique information 20 is “0” (step S32: No), step S33 is omitted and the phase difference of the second sine wave signal is not adjusted.

 Next, the adder 304 adds the first sine wave signal and the second sine wave signal (step S 34).

 [0110] (4) Details of the fourth embodiment of the information multiplexing apparatus

 Next, with reference to FIG. 11 and FIG. 12, the basic configuration and operation principle of the fourth embodiment according to the information multiplexing apparatus of the present invention will be described. FIG. 11 is a block diagram showing a basic configuration according to the fourth embodiment of the information multiplexing apparatus of the present invention.

 [0111] The basic configuration and operation principle according to the fourth embodiment of the information multiplexing apparatus of the present invention are substantially the same as those of the fourth embodiment. Components similar to those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

 [0112] (4 1) Basic configuration

As shown in FIG. 11, the fourth embodiment of the information multiplexing apparatus of the present invention is substantially the same as the first embodiment described above, and includes AZD conversion 101, blanking remover 102, limiter 103, and In addition to the VBI detector 104, a frame delay device 401a, 401b, 401c, which delays the analog video signal 10a by one frame period, indicates the average value of the luminance signal for each frame unit included in the analog video signal 10a. DC detection output unit 402 for detecting and outputting component values, Calo-calculators 403a, 403b, and 403c, half-unit 404 that calculates and outputs “lZ2” times the input DC component value, and unique information 20 are recorded ROM 405, subtracter 406, counter 407 for measuring the frame unit detected by VBI detector 104, and controller 202. [0113] (4 2) Principle of operation

 Next, with reference to FIG. 11 described above in addition to FIG. 12, the detailed configuration in addition to the operation principle of the fourth embodiment of the information multiplexing apparatus of the present invention will be described. FIG. 12 is a flowchart showing the operation principle according to the fourth embodiment of the information multiplexing apparatus of the present invention. Steps similar to those in the first embodiment are denoted by the same step numbers, and description thereof will be omitted as appropriate.

 [0114] In particular, in the fourth embodiment, for example, the average value of the DC component values of the luminance signals of two odd frames is calculated as the DC component value of the luminance signal of the even frames existing between the two odd frames. The original information 20 is superimposed by adding or subtracting a predetermined offset amount to the reference value. This is significantly different from the first to third embodiments in which unique information is superimposed on the DC component value.

 [0115] This will be described below with reference to FIG.

 [0116] Following step S10 to step S12, the analog video signal 10a is delayed by one frame period by the frame delay unit 401a (step S40). This delay process is performed based on the measurement in units of frames detected by the VBI detector 104 by the force counter 407.

 [0117] Next, the limiter 103 performs dynamic range compression to limit the amplitude of the analog video signal 10a delayed by one frame period (step S41).

[0118] Simultaneously with or before or after Step S40 and Step S41, the DC detection output unit 402 detects and outputs the DC component value of the luminance signal for each frame unit included in the analog video signal 10a (Step S40). S42).

Next, the DC component value of the luminance signal of the analog video signal 10a delayed by two frame periods by the frame delay devices 401b and 401c, the adder 403a, and the half device 404, and the analog video signal 10a without delay The average value of the luminance signal and the DC component value is calculated and output (step S43). More specifically, for example, the DC component value of the luminance signal for each frame is set for the first frame Fl, the second frame F2, and the third frame F3 in the order in which the time advances. Assuming fl, f2, and f3 in order, this average value is "(f l + f3) Z2 ”. If “1 + £ 3) 72” is less than “0”, “0” may be set, and if “1 + £ 3) 72” is larger than “255”, “255” may be set.

 [0120] Next, ROM405, U controller 202, and force calculator 403b [Thus, ROM405 [This is the average value calculated to carry the unique information 20 recorded] A predetermined offset amount is added or subtracted (step S44). Specifically, when the unique information 20 is “0”, for example, “2” of a predetermined offset amount may be subtracted from the above average value “(fl + f3) Z2”. . That is, “((f 1 + f 3) / 2) 2”. On the other hand, when the unique information 20 is “1”, for example, “2” of a predetermined offset amount may be added to the average value “(fl + f3) Z2” described above. That is, “((fl + f3) Z2) +2”.

 [0121] Next, the difference between the average value obtained by adding or subtracting the predetermined offset amount by the subtractor 406 and the DC component value of the luminance signal of the analog video signal 10a delayed by one frame period is calculated. (Step S45). Specifically, for example, the difference between “((f 1 + f3) / 2) + a \ added with a predetermined offset amount“ a ”and“ f 2 ”is calculated.

 Next, it is determined whether or not the calculated difference is greater than a predetermined threshold under the control of the controller 202 (step S46). Here, when the calculated difference is larger than the predetermined threshold (step S46: Yes), the difference is added to the DC component value of the luminance signal of the analog video signal 10a delayed by one frame period (step S47).

 Specifically, the difference is added to “f2”. In other words, if the DC component value (“f 2”) of the luminance signal of the analog video signal 10a delayed by one frame period changes relatively small, “((f 1 + f3) / 2) On the other hand, if the result of the determination in step S46 is that the calculated difference is not greater than the predetermined threshold (step S46: No), the addition of the difference in step S4 7 is omitted, that is, 1 The DC component value (“f 2”) of the luminance signal of the analog video signal 10a delayed by the frame period is used as it is. In other words, if the DC component value (“f 2”) of the luminance signal of the analog video signal 10a delayed by one frame period changes relatively significantly, the DC component value (“f 2”) Adopted (so-called reset). Note that the determination process in step S46 may be omitted, and the difference may always be added in step S47.

[0124] A specific example of the series of steps as described above will be given. 1st frame Fl, 1st For the second frame F2, the third frame F3, the fourth frame F4, and the fifth frame F5, fl, f2, f3, f 4 and f5. For example, when the unique information 20 having the bit value “11” is superimposed on the even frame, “fl”, “((fl + f3) Z2) +2”, “f3”, “((f3 + f5) Z2) +2 ”followed by“ f5 ”. In addition, the unique information 20 may be configured to always be superimposed on an even frame, or may be configured to be superimposed in a discrete manner.

 [0125] (5) Details of the fifth embodiment of the information multiplexing apparatus

 Next, with reference to FIG. 13 to FIG. 15, the basic configuration and operation principle of the fifth embodiment of the information multiplexing apparatus of the present invention will be explained. FIG. 13 is a block diagram showing a basic configuration according to the fifth embodiment of the information multiplexing apparatus of the present invention. FIG. 14 is a schematic diagram schematically showing a pixel block in which the DC component value of the DCT digital video signal according to the fifth embodiment of the information multiplexing apparatus of the present invention is arranged.

 [0126] In the fifth embodiment, for example, the digital video signal lOd is subjected to discrete cosine transform (DCT). Here, “Discrete Cosine Transform (DCT)” is a mathematical function that converts a spatial luminance value (luminance information, luminance signal) into a spatial frequency value. More specifically, for example, in a coding scheme such as MPEG (Moving Picture Experts Group) 1 or MPE G2, image information is DCTed and quantized in units of 8 × 8 pixel blocks, This is encoded data. Further, as shown in FIG. 14, in the pixel at the left corner, the direct current component value of the luminance information of the entire block of 8 × 8 pixels is shown. Therefore, in the case of the digital video signal 10d, it is only necessary to calculate the average value of the DC component values in the pixel at the left corner, so that the calculation process can be simplified. Then, in the MPEG decoder compliant with the MPEG standard, the encoded data is decoded by being inversely quantized and further subjected to inverse DCT conversion.

[0127] In particular, in the fifth embodiment, as in the fourth embodiment, the average value of the DC component values of the luminance signals of the two odd frames, such as the DCT digital video signal 10d force, The unique information 20 is superimposed by adding or subtracting a predetermined offset amount to or from the reference value of the direct current component value of the luminance signal of the even frame that exists in the middle of several frames. This is different from the first to third embodiments in which unique information is superimposed on the DC component value. to differ greatly.

 [0128] (5-1) Basic configuration

 As shown in FIG. 13, the fifth embodiment according to the information multiplexing apparatus of the present invention includes a frame memory 501 to which a DCT digital video signal 10d is input, and a frame unit included in the DCT digital video signal 10d. DC calculator 502 that calculates and stores the DC component value indicating the average value of each luminance signal, average calculator 503 that calculates the average value of the DC component values of odd frames included in the DCT digital video signal 10d, An adder 504, a frame memory 500, and a frame memory 506 are provided.

 [0129] (5-2) Principle of operation

 Next, with reference to FIG. 13 described above in addition to FIG. 15, the detailed configuration in addition to the operating principle of the fifth embodiment relating to the information multiplexing apparatus of the present invention will be described. FIG. 15 is a flowchart showing the operation principle according to the fifth embodiment of the information multiplexing apparatus of the present invention.

 [0130] As shown in FIG. 15, first, the digital video signal 10d subjected to DCT is stored in the frame memory.

It is stored in 501 (step S50).

[0131] Next, under the control of the controller 202, the DC calculator 502 and the average calculator 503

The average value of the DC component values of the odd frames included in the CT-converted digital video signal 10d is calculated (step S51).

Next, under the control of the controller 202, the adder 504 adds / subtracts the predetermined information carrying the unique information 20 to the average value of the DC component values of the odd frames output from the average calculator 503, That is, they are superimposed (step S52).

[0133] Average power of DC component values of odd frames on which predetermined information carrying unique information 20 is superimposed is stored in frame memory 505 as DC component values of even frames (step S5).

3).

 Note that the odd frame force may be stored in the frame memory 506.

[0135] The present invention is not limited to the above-described embodiments, but can be appropriately modified within the scope of the appended claims and the entire specification without departing from the gist or idea of the invention which can be read. Information multiplexing apparatus and method, information extraction apparatus and method, and multiplexing Computer programs for control and extraction control are also included in the technical scope of the present invention.

Industrial applicability

 The information multiplexing apparatus and method, the information extracting apparatus and method, and the computer program according to the present invention can be used for an information multiplexing apparatus for multiplexing unique information such as MP3 files and moving picture images, and It can be used as an information extraction device for extracting unique information. In addition, the present invention can also be used for information multiplexing devices and information extraction devices that are mounted on various computer devices for consumer use or business use, or that can be connected to various computer devices.

Claims

The scope of the claims

 [1] An information multiplexing device that superimposes unique information on a video signal input in a predetermined cycle unit.

 Generating means for generating an information signal carrying the unique information;

 Superimposing means for superimposing the generated information signal on a DC component value indicating an average value of the luminance signal for each predetermined period unit included in the video signal based on the predetermined period unit;

 An information multiplexing apparatus comprising:

 2. The information multiplexing apparatus according to claim 1, wherein the predetermined period unit is a frame or field period unit of the video signal.

[3] The generating unit generates an offset value as the information signal to give a predetermined change amount to the DC component value by being superimposed,

 2. The information multiplexing apparatus according to claim 1, wherein the superimposing unit superimposes the offset value on the DC component value based on the predetermined period unit.

4. The information multiplexing apparatus according to claim 1, wherein the generation unit generates spread spectrum data obtained by performing spread spectrum on the unique information as the information signal.

 5. The information multiplexing according to claim 1, wherein the generation unit generates or does not generate a single sine wave signal based on the predetermined cycle unit as the information signal. apparatus.

 [6] The information according to claim 1, wherein the generation unit generates a sine wave signal that is phase-modulated with respect to the predetermined cycle unit as the information signal. Multiplex device.

 7. The information multiplexing apparatus according to claim 1, wherein the generation unit generates a sine wave signal that is frequency-modulated with reference to the predetermined cycle unit as the information signal. .

[8] The generating means generates a first sine wave signal and a second sine wave signal based on the predetermined cycle unit as the information signal, 2. The information multiplexing apparatus according to claim 1, wherein the unique information is indicated based on a phase difference between the first sine wave signal and the second sine wave signal.

[9] The apparatus further comprises detection means for detecting a first average value of DC component values included in the group of video signal frames defined by the first sequence among the plurality of video signal frames input in the predetermined cycle unit. ,

 The generating means generates, as the information signal, first information that is added to or subtracted from the first average value by a predetermined amount,

 The superimposing means superimposes the information signal by substituting the first information for a DC component value included in another group of video signal frames defined by a second sequence among the plurality of video signal frames. The information multiplexing device according to claim 1, wherein the information multiplexing device is characterized in that:

 10. The superimposing means superimposes the information signal by discretely substituting the first information with a DC component value included in the other group of video signal frames. The information multiplexing device according to item 9.

11. The generation unit according to claim 9, wherein the generation unit generates the information signal while changing the attribute of the information signal at a fixed-length time interval or a variable-length time interval. The information multiplexing device according to item.

12. The information multiplexing apparatus according to claim 1, wherein the unique information carried in the information signal is copyright information.

13. The information multiplexing apparatus according to claim 1, wherein the unique information carried in the information signal is copy control information.

14. The information multiplexing apparatus according to claim 1, wherein the unique information carried in the information signal is a region code indicating regional information.

[15] An information multiplexing method in an information multiplexing apparatus for superimposing unique information on a video signal input in a predetermined cycle unit,

 Generating step for generating an information signal carrying the unique information;

The generated information signal is superimposed on a DC component value indicating an average value of the luminance signal for each predetermined cycle unit included in the video signal based on the predetermined cycle unit! Superimposing process

 An information multiplexing method comprising:

 [16] An information extraction device for extracting the unique information in units of the predetermined period from a video signal in which the unique information is multiplexed by the information multiplexing device according to claim 1.

 Detecting means for detecting the information signal carrying the unique information;

 Extraction means for extracting the unique information from the detected information signal based on the predetermined cycle unit;

 An information extraction device comprising:

[17] An information extraction method in an information extraction device that extracts the unique information in units of the predetermined period from a video signal in which the unique information is multiplexed by the information multiplexing device according to claim 1 Because

 A detection step of detecting an information signal carrying the unique information;

 An extraction step of extracting the unique information from the detected information signal based on the predetermined period unit;

 An information extraction method comprising:

[18] A computer program for multiplex control for controlling a computer provided in the information multiplexing device according to claim 1, wherein the computer is at least one of the generating unit and the superimposing unit. A computer program characterized by functioning as a part.

 [19] A computer program for extraction control for controlling a computer provided in the information extraction device according to claim 16, wherein the computer is at least one of the detection means and the extraction means. A computer program that functions as a part.