JP2004328306A - Information processor, information processing method, recording medium, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a CM part of a broadcast signal to be more surely detected. <P>SOLUTION: A signal of a broadcast program including a CM part is inputted as an input signal from the outside of a recording and reproducing device 1. In the case that the input signal of the broadcast program has the included CM part deleted and is recorded in a drive 6, an information identity detection part 5 discriminates whether images and sound information of CM supplied from the drive 6 coincide with the input signal or not to detect the CM part and outputs the detection result to a system control part 4. The system control part 4 deletes the CM part from the input signal on the basis of the detection result supplied from the information identity detection part 5 and records the input signal in the drive. This invention is applicable to, for example, a recording and reproducing device having a recording medium like a hard disk. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information processing apparatus and method, a recording medium, and a program, and more particularly to an information processing apparatus and method, a recording medium, and a program that more reliably detect a commercial message portion of a broadcast signal.
[0002]
[Prior art]
In recent years, random access recording media such as hard disks, rewritable optical disks, and nonvolatile semiconductor memories have increased in capacity, and digital compression techniques for moving image information, still image information, and audio information have been improved. . With the increase in capacity of such randomly accessible recording media and the improvement of digital compression technology, information processing for recording video information or audio information (hereinafter, referred to as AV information) such as broadcast signals on these recording media. The device has been commercialized.
[0003]
However, although the above-mentioned recording medium has a larger capacity than before, it is not large enough for a viewer to store all kinds of information for a long time.
[0004]
Therefore, it is desirable to delete as much AV information as is unnecessary for the viewer as much as possible and to secure more free space in the recording medium for recording the next new AV information. For this purpose, it is necessary for the viewer to select necessary and unnecessary AV information and record (store) only the necessary AV information.
[0005]
Generally, AV information that is considered unnecessary by a viewer includes a commercial message portion (hereinafter, referred to as a CM portion) in a broadcast signal (broadcast program). When a broadcast signal is recorded on the above-described recording medium, if the CM portion is skipped (deleted) and only the main part of the broadcast program (hereinafter, referred to as a main program) is recorded on the recording medium, the recording medium becomes available. More area can be secured.
[0006]
Various techniques have been proposed for the technique of skipping the CM portion.
[0007]
For example, there has been proposed a technique of monitoring changes in audio level and video level of received AV information over time, recognizing a CM portion based on the characteristics of the changes over time, and automatically skipping recording or playback (for example, see Japanese Patent Application Laid-Open No. H11-157556). And Patent Document 1).
[0008]
Also, for example, when the viewer has watched a broadcast (program) in the past, playback control information corresponding to an operation such as fast-forward or playback performed by the viewer viewing the video information is stored in association with the program, When recording or reproducing the same program next time, a technique has been proposed in which a CM portion is recognized based on the stored reproduction control information and recording or reproduction is automatically skipped (Patent Document 2). reference).
[0009]
[Patent Document 1]
JP 2000-78528 A
[Patent Document 2]
JP-A-2002-8353
[0010]
[Problems to be solved by the invention]
However, in the method disclosed in Patent Literature 1, since a portion considered to be a CM portion is detected based on a temporal change of the audio level and the video level of the AV information, a portion that is not a CM portion may be mistaken as a CM portion. Also, there is a possibility that a part that is a CM part is erroneously recognized as a part that is not a CM part.
[0011]
Further, according to the method disclosed in Patent Literature 2, since a CM portion is detected based on reproduction control information corresponding to an operation performed by a user when the same program has been viewed in the past, when the user views a new program, If the problem is that the CM part cannot be recognized, or if the viewer did not correctly perform operations such as fast-forward or playback on the video information when viewing the program in the past, the same Even when recording or reproducing a program, there is a problem that the CM portion of the program cannot be accurately skipped.
[0012]
The present invention has been made in view of such a situation, and aims to more reliably detect (recognize) a CM portion.
[0013]
[Means for Solving the Problems]
An information processing apparatus according to the present invention includes an information identity detection unit that detects identity between video or audio information and video or audio information of a CM recorded on a predetermined recording medium, Determination means for determining whether or not the video or audio information is a CM based on the gender detection result, wherein the information identity detection means determines whether or not the video or audio information is a leading part of the video or audio information of the CM. First determining means for determining whether the video or audio information is the same as a part of the CM, and determining whether or not the video or audio information is the same as the remaining part other than a part of the head of the CM video or audio information And a third determining unit that determines whether the video or audio information is the same as the subsequent part following the head of the video or audio information of the CM.
[0014]
The video or audio information can be made to be broadcast information.
[0015]
The video or audio information can be made to be reproduced information.
[0016]
A deletion unit for deleting a CM from video or audio information may be further provided.
[0017]
Recording means for recording video or audio information may be further provided, and the deletion means may cause the CM to be deleted from the video or audio information when the recording means records the video or audio information.
[0018]
A reproducing unit for reproducing the video or audio information may be further provided, and the deleting unit may delete the CM from the video or audio information when the reproducing unit reproduces the video or audio information.
[0019]
The second determining means determines that the video or audio information is equal to a part of the head of the video or audio information of the CM by the first determining means. Is determined to be the same as the rest of the video or audio information other than a part of the head, and the third determination means determines whether the video or audio information is If it is determined that the video or audio information is the same as the remaining part other than a part of the head of the audio information, it is determined whether or not the video or audio information is the same as the subsequent part following the head of the video or audio information of the CM. The determination can be made.
[0020]
The recording medium is composed of two or more recording media, and one of the two or more recording media records the CM video or audio information of the video or audio information, and the other one of the recording media. Video or audio information other than CM can be recorded on the medium.
[0021]
An information processing method according to the present invention includes an information identity detection step of detecting identity between video or audio information and video or audio information of a CM recorded on a predetermined recording medium, and processing of the information identity detection step. Determining whether or not the video or audio information is a CM based on the result of the identity detection by the information processing device. A first determining step of determining whether the video or audio information is the same as a part of the head part, and whether the video or audio information is the same as the remaining part other than a part of the head part of the CM video or audio information And a third determination step of determining whether the video or audio information is the same as a subsequent part following the head of the video or audio information of the CM. Characterized in that it has.
[0022]
The program of the recording medium of the present invention comprises: an information identity detection step for detecting identity between video or audio information and video or audio information of a CM recorded on a predetermined recording medium; And determining whether the video or audio information is a CM based on the result of the detection of the identity by the processing. The information identity detection step includes a step of determining whether the video or the audio information is the video or audio information of the CM. A first determining step of determining whether the video or audio information is the same as a part of the head part of the CM, and whether the video or audio information is the same as the remaining part other than a part of the head part of the CM video or audio information A second determining step of determining whether the video or audio information is the same as a subsequent part following the head of the CM video or audio information. And characterized in that it has a and-up.
[0023]
The program according to the present invention includes an information identity detection step for detecting identity between video or audio information and video or audio information of a CM recorded on a predetermined recording medium, Determining whether or not the video or audio information is a CM based on the result of the gender detection. A first determining step of determining whether the video or audio information is the same as a part of the CM, and determining whether the video or audio information is the same as the remaining part other than a part of the head part of the CM video or audio information And a third determination step of determining whether the video or audio information is the same as a subsequent part following the head of the CM video or audio information. Characterized in that to execute a process of a computer.
[0024]
In the present invention, the identity between the video or audio information and the video or audio information of the CM recorded on the predetermined recording medium is detected, and based on the result of the identity detection by the information identity detection means, the video or audio information is detected. Alternatively, it is determined whether the audio information is a CM. Also, it is determined whether the video or audio information is the same as a part of the head part of the CM video or audio information, and the video or audio information is determined to be other than a part of the head part of the CM video or audio information. It is determined whether it is the same as the remaining part, and it is determined whether the video or audio information is the same as the succeeding part following the head of the video or audio information of the CM.
[0025]
The information processing device may be an independent device or a block that performs information processing of one device.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described below. The correspondence between constituent elements described in the claims and specific examples in the embodiments of the present invention is as follows. This description is for confirming that a specific example supporting the invention described in the claims is described in the embodiment of the invention. Therefore, even if there is a specific example which is described in the embodiment of the invention but is not described here as corresponding to the configuration requirement, the fact that the specific example is It does not mean that it does not correspond to the requirement. Conversely, even if a specific example is described here as corresponding to a configuration requirement, this means that the specific example does not correspond to a configuration requirement other than the configuration requirement. not.
[0027]
Furthermore, this description does not mean that the invention corresponding to the specific examples described in the embodiments of the invention is all described in the claims. In other words, this description is an invention corresponding to the specific example described in the embodiment of the invention, and the existence of the invention not described in the claims of this application, that is, It does not deny the existence of the invention added by the amendment.
[0028]
The information processing device according to claim 1 includes a video or audio information (for example, an input signal in FIG. 1) and a video or CM of a CM recorded on a predetermined recording medium (for example, a hard disk of a drive 6 in FIG. 1). An information identity detection unit (eg, information identity detection unit 5 in FIG. 1) for detecting identity with audio information (eg, a moving image file in the CM information directory 23 in FIG. 2); Determining means (for example, the system control unit 4 in FIG. 1) for determining whether or not the video or audio information is a CM based on the result of detection of the identity by the means; A first determining unit (for example, a matching CM determining unit 61 in FIG. 5) that determines whether the video or audio information is the same as a part of the head of the video or audio information of the CM; The video Or a second discriminating means for discriminating whether or not the audio information is the same as the remaining part other than the above part of the head of the video or audio information of the CM (for example, the head part identity discrimination in FIG. 5). Unit 62) and a third determining unit (for example, the same as the subsequent part in FIG. 5) for determining whether the video or audio information is the same as the subsequent part following the head part of the video or audio information of the CM. Gender determination unit 63).
[0029]
The information processing device according to claim 2 is characterized in that the video or audio information is broadcast information (for example, a signal received by a radio wave with an antenna or the like).
[0030]
An information processing apparatus according to a third aspect is characterized in that the video or audio information is reproduced information (for example, a signal input from the outside).
[0031]
The information processing apparatus according to claim 4 further includes a deletion unit (for example, the system control unit 4 in FIG. 1) for deleting a CM from the video or audio information.
[0032]
The information processing apparatus according to claim 5, further comprising a recording unit (for example, the system control unit 4 in FIG. 1) for recording the video or audio information, and wherein the deletion unit includes the video or audio information by the recording unit. When recording the information, the CM is deleted from the video or audio information.
[0033]
7. The information processing apparatus according to claim 6, further comprising a reproduction unit (for example, the system control unit 4 in FIG. 1) for reproducing the video or audio information, and wherein the deletion unit includes the video or audio information by the reproduction unit. When playing back, the CM is deleted from the video or audio information.
[0034]
8. The information processing apparatus according to claim 7, wherein the second determination unit determines that the first determination unit determines that the video or audio information is the same as a part of a head portion of the CM video or audio information. If it is determined that there is a video (eg, YES in step S23 of FIG. 7), the video or audio information is the same as the remaining part other than the above part of the head of the video or audio information of the CM. The third determination means determines whether the video or audio information is the same as the remaining part other than the part of the head part of the video or audio information of the CM by the second determination means. When it is determined that they are the same (for example, in the case of YES in step S27 in FIG. 7), whether the video or audio information is the same as the subsequent part following the head part of the video or audio information of the CM please ~ Wherein the determining.
[0035]
9. The information processing apparatus according to claim 8, wherein the recording medium includes two or more recording media, and one of the two or more recording media (for example, a hard disk) includes the video or the audio. Video or audio information of a CM among information is recorded, and video or audio information other than the CM is recorded on another recording medium (for example, DVD).
[0036]
The information processing method according to the ninth aspect, the recording medium according to the tenth aspect, and the program according to the eleventh aspect include a video or audio information (for example, an input signal in FIG. 1) and a predetermined recording medium (for example, , An information identity detection step (e.g., step S23 in FIG. 7) for detecting identity with video or audio information of a CM recorded on the hard disk of the drive 6 in FIG. A determination step (for example, step S3 in FIG. 6) of determining whether the video or audio information is a CM based on a result of the identification performed by the processing; A first determining step (for example, step S in FIG. 7) for determining whether the video or audio information is the same as a part of the head of the video or audio information of the CM. 3) and a second determining step of determining whether the video or audio information is the same as the remaining part other than the part of the head of the video or audio information of the CM (for example, FIG. Step S27) and a third determining step of determining whether the video or audio information is the same as the succeeding part following the head part of the video or audio information of the CM (for example, step S30 in FIG. 7). And characterized in that:
[0037]
FIG. 1 is a block diagram illustrating a configuration example of a recording / reproducing apparatus 1 to which the present invention has been applied.
[0038]
The broadcast signal receiving unit 2 includes an antenna (not shown), a tuner (not shown), and the like. For example, the broadcast signal receiving unit 2 receives a radio wave such as a terrestrial television broadcast, and converts the received signal into a reception signal processing unit 3. To supply. The broadcast signal receiving section 2 has an external input terminal (not shown), and can input a signal supplied from outside such as another recording / reproducing apparatus from the terminal. The signal input from the outside is supplied to the received signal processing unit 3 in the same manner as the received signal. In this embodiment, it is assumed that AV information is input to the recording / reproducing apparatus 1 as an input signal.
[0039]
The reception signal processing unit 3 converts the input signal supplied from the broadcast signal reception unit 2 into a digital signal, compresses (encodes) the data according to an MPEG (Moving Picture Experts Group) method, performs stream multiplexing, and performs moving image processing. An image file (stream file) is generated, and the moving image file is supplied to the system control unit 4 and the information identity detection unit 5.
[0040]
The system control unit 4 controls recording (writing) or reproducing (reading) of AV information with respect to the drive 6 based on an operation command corresponding to an operation of a viewer (user) supplied from the operation processing unit 8. That is, when an operation command for recording an input signal is supplied from the operation processing unit 8 by a user operation, the system control unit 4 controls the drive 6 having a recording medium such as a hard disk or a DVD (Digital Versatile Disk). It controls and records (writes) the moving image file (AV information) supplied from the reception signal processing unit 3 on the recording medium of the drive 6.
[0041]
When the operation processing unit 8 supplies the system control unit 4 with an operation command for reproducing a (moving image file) of a predetermined broadcast program recorded on the recording medium of the drive 6, the system control unit 4 Controls the drive 6 to read a predetermined broadcast program recorded on the recording medium and supply (reproduce) it to the reproduction signal processing unit 7.
[0042]
Further, the system control unit 4 has a built-in timer for recognizing the current time, and reserves and records a broadcast program at a predetermined time (eg, in accordance with a broadcast program reservation operation specified by the operation processing unit 8 by the viewer). Recording).
[0043]
The information identity detection unit 5 detects the identity between the AV information supplied from the reception signal processing unit 3 and the AV information recorded on the recording medium of the drive 6 under the control of the system control unit 4. The detection result is supplied to the system control unit 4.
[0044]
The drive 6 can be composed of, for example, a hard disk or a DVD. In this embodiment, the drive 6 is described as a drive having a built-in hard disk. In the drive 6, AV information (moving image file) of a previously broadcasted CM (commercial message) and additional information (additional information file) such as the date and time when the CM was broadcast are recorded as initial data. Is (saved). When the CM skip mode described later is selected by the viewer, the drive 6 separates the AV information (moving image file) of the main program of the broadcast program and the AV information (moving image file) of the CM part into directories. And recorded (stored). In the drive 6, it is also possible to record the program (moving image file) including the CM between the main programs as it is, as usual. The method of creating the initial data and the structure of the data in which the AV information of the main program and the AV information of the CM part are recorded on the hard disk of the drive 6 will be described later.
[0045]
The reproduction signal processing unit 7 decodes the AV information (moving image file) supplied from the system control unit 4 by, for example, the MPEG method, converts the AV information into image data of the NTSC or PAL method, and outputs an output signal. And outputs it to a display device such as an external television receiver (not shown) or monitor (not shown).
[0046]
In the recording / reproducing apparatus 1 of FIG. 1 configured as described above, the AV information as the input signal is recorded on the hard disk of the drive 6 or recorded on the hard disk in a state (AV information) including the AV information of the CM part. The signal including the AV information of the CM portion thus reproduced can be reproduced as it is.
[0047]
Further, the recording / reproducing apparatus 1 of FIG. 1 has a function of skipping (deleting) the AV information of the CM portion of the AV information and recording or reproducing the information (hereinafter, referred to as a CM skip mode). The user can instruct the operation processing unit 8 to operate the CM skip mode, for example, by operating an operation button (not shown), and use the function.
[0048]
When the CM skip mode is specified by the viewer and a command to the CM skip mode is supplied from the operation processing unit 8 to the system control unit 4, the system control unit 4 controls the drive 6 and controls the drive 6. The head part (for example, the first second) of the moving image file of the AV information of the CM recorded on the hard disk and the additional information file are copied to the information identity detection unit 5 (read from the hard disk of the drive 6 and read the same information). To the sex detector 5).
[0049]
When recording the AV information as the input signal in the drive 6 in the CM skip mode, the system control unit 4 sends a CM part detection command to the information identity detection unit 5 to detect the CM part of the broadcast program. And outputs the AV information (moving image file) supplied from the reception signal processing unit 3 to the drive 6 based on the CM part detection result output from the information identity detection unit 5 in response to the CM part detection command. Control the recording. That is, when the system control unit 4 acquires from the information identity detection unit 5 that the CM portion of the AV information as the input signal has been detected, the system control unit 4 deletes the CM portion from the AV information and outputs the remaining AV information (main program information). Is recorded in the drive 6. At the same time, the system control unit 4 can add the additional information such as the date and time when the CM part was detected to the additional information file of the AV information of the CM recorded on the drive 6. The details of the additional information file will be described later.
[0050]
On the other hand, in the case of outputting (reproducing) a moving image file recorded in the drive 6 to an external display device in the CM skip mode, the system control unit 4 controls the AV information (moving image) recorded in the drive 6 File) is supplied to the information identity detection unit 5 and itself (the system control unit 4). Further, the system control unit 4 outputs a CM part detection command to the information identity detection unit 5 and, based on the CM part detection result supplied by the information identity detection unit 5, the AV information (moving image) read from the drive 6 The CM section of the file is skipped (deleted) and output to the reproduction signal processing section 7. If the main program from which the CM portion has been deleted is already recorded in the drive 6, the system control unit 4 reads the main program (the AV information of the main program) as it is from the drive 6 and sends it to the reproduction signal processing unit 7. It can also be output (played).
[0051]
Note that a moving image file for recording or reproduction is supplied from the reception signal processing unit 3 or the drive 6 to the system control unit 4 at the same timing as that supplied to the information identity detection unit 5. The system control unit 4 skips (deletes) the CM part according to the CM part detection result of the information identity detection unit 5, for example, a buffer memory (not shown) for temporarily storing (storing) a moving image file. ), The input moving image file is temporarily stored in the buffer memory, and the main program of the moving image file stored in the buffer memory is recorded according to the CM part detection result of the information identity detection unit 5 ( Playback) or skip (delete) the CM part.
[0052]
The information identity detection unit 5 temporarily stores, in a built-in memory (not shown), a head part of a moving image file of a CM part and an additional information file supplied from the drive 6 under the control of the system control unit 4. . Further, when a CM part detection command is supplied from the system control unit 4 at the time of recording AV information, the information identity detection unit 5 stores the AV information (moving image file) supplied from the reception signal processing unit 3 and a built-in It detects the identity with the AV information (moving image file) of the CM part stored in the memory to be processed, and outputs the detection result to the system control unit 8. When reproducing the AV information recorded on the drive 6, the information identity detection unit 5 supplies the AV information (moving image file) supplied from the drive 6 when a CM part detection command is supplied from the system control unit 4. Is detected with the AV information (moving image file) of the CM portion stored in the built-in memory, and the detection result is output to the system control unit 8.
[0053]
Here, in the configuration of the recording / reproducing apparatus 1 shown in FIG. 1, the information identity detection unit 5 is provided separately from the system control unit 4, but the information identity detection unit 5 is May be provided inside the system control unit 4 as a part of
[0054]
FIG. 2 shows an example of the data structure of the AV information recorded on the drive 6 and the initial data of the CM.
[0055]
In the hard disk of the drive 6, for example, a hierarchical directory structure similar to that used in a personal computer or the like is adopted as shown in FIG. That is, a root directory 21 is provided at the highest level of the hard disk, and as a subdirectory of the root directory 21, a program in which only the AV information of the main program of the input signal whose CM portion has been deleted in the CM skip mode is recorded. An information directory 22, a CM information directory 23 which is a directory in which AV information and additional information of CM as initial data are recorded, and the like are provided.
[0056]
In the program information directory 22, AV information of one program from which the CM part has been deleted in the CM skip mode is stored as one moving image file. In FIG. 2, the program information directory 22 stores a moving image file 31 of the program 1, a moving image file 32 of the program 2, and the like. The program information directory 22 can also store a moving image file of AV information including a CM part.
[0057]
On the other hand, the CM information directory 23 stores, for each CM, one moving image file and one additional information file of the CM. In FIG. 2, the CM information directory 23 contains, for CM1, a moving image file 41 and additional information file 42 of CM1, a CM2 moving image file 43 and an additional information file 44, and a CM3 moving image file 45 for CM3. And an additional information file 46 are stored.
[0058]
Here, as described above, the file stored in the CM information directory 23 is stored (set) in advance as initial data. However, the file is stored by the initial data acquisition method described later. Alternatively, the recording / reproducing device 1 itself can create or update.
[0059]
In addition to storing the AV information of the program including the CM portion in the program information directory 22, for example, a new directory is provided under the root directory 21 and, for example, one directory per program is provided in the directory. It can be saved as a file.
[0060]
The data structure shown in FIG. 2 is an example, and other structures may be used as long as a moving image file and an additional information file can be uniquely searched (acquired) for each main program and CM. . For example, one directory may be provided under the program information directory 22 for one program, and the moving image file of the main program may be divided into several moving image files and stored.
[0061]
FIG. 3 shows information recorded in the additional information file for one CM stored in the CM information directory 23 of FIG. 2, and shows, for example, the contents of the additional information file 42 of CM1.
[0062]
As shown in FIG. 3, for example, a date, a day of the week, a start time, an end time, and the like of CM1 broadcasted in the past are recorded in the additional information file 42.
[0063]
Therefore, according to the additional information file 42 shown in FIG. 3, the CM 1 has previously been recorded on Wednesday, March 5, 2003, for 1 minute from 22:54:00 to 55:00 seconds, and on Thursday, March 6, 2003, for 1 minute. 1 minute from 22:54:00 to 55:00 seconds, 1 minute from 22:54:00 to 55:00 seconds on Wednesday, March 12, 2003, 22:54 on Thursday, March 13, 2003 One minute from 00 seconds to 55:00 seconds, one minute from 22:54:00 to 55:00 seconds on Wednesday, March 19, 2003, and one hour from 22:54:00 to Thursday, March 20, 2003 It can be recognized that the broadcast was performed for one minute of 55:00 seconds.
[0064]
Further, from the additional information file 42 of FIG. 3, it can be predicted that the probability that the CM 1 will be broadcast around 23:00 on Wednesday or Thursday is high.
[0065]
FIG. 4 is a diagram illustrating a moving image file recorded on the drive 6 by the processing in the CM skip mode when a broadcast signal of a certain program 1 is input to the recording and reproducing apparatus 1 as an input signal.
[0066]
FIG. 4A shows a moving image file of a broadcast signal of the program 1 which is an input signal input to the recording / reproducing apparatus 1. T from broadcast start time ₁ As for the time, the main program 1-1 of the program 1 is input to the recording / reproducing apparatus 1 and the time T ₂ As for the time, CM1 is input to the recording / reproducing apparatus 1, and T ₃ As for the time, the CM 2 is input to the recording / reproducing apparatus 1 and the subsequent T ₄ As for the time, the main program 1-2 of the program 1 is input.
[0067]
At this time, in the CM skip mode, the broadcast signal of the program 1 of FIG. 4A is changed to a moving image of the program 1 composed of the program 1-1 and the program 1-2 from which the CM1 and the CM2 are deleted as shown in FIG. 4B. The image file 31 is separated into a moving image file 41 of CM1 as shown in FIG. 4C and a moving image file 43 of CM2 as shown in FIG. 4D. Then, the moving image file 31 of the program 1, the moving image file 41 of the CM1, and the moving image file 43 of the CM2 are recorded in a predetermined directory of the drive 6 as described above with reference to FIG. For CM1 and CM2, the system control unit 4 generates the additional information of CM1 and CM2 as shown in FIG. 3 based on the time measured by a timer incorporated therein, and outputs the information of each of CM1 and CM2. Add to the additional information file.
[0068]
FIG. 5 is a block diagram illustrating a functional configuration of the information identity detection unit 5.
[0069]
The information identity detection unit 5 includes a coincidence CM determination unit 61, a leading part identity determination unit 62, and a subsequent part identity determination unit 63. As described above, when the recording / reproducing apparatus 1 is in the CM skip mode, the head of the moving image file of the CM supplied from the drive 6 and the additional information file are temporarily stored in the memory of the information identity detection unit 5. Each of the matching CM discriminating unit 61, the leading part similarity discriminating unit 62, and the subsequent part similarity discriminating unit 63 processes while referring to the CM moving image file stored in the memory as necessary. I do.
[0070]
When a CM part detection command is input from the system control unit 4, the matching CM determination unit 61 determines the AV information of the moving image file of the input broadcast program for all the CMs in which the moving image file is stored in the memory. Is determined to be the same as a part (for example, one frame at the head) of the head part of the CM (moving image file) stored in the memory. Then, the coincident CM determination unit 61 notifies (supplies) the determination result to the system control unit 4.
[0071]
Further, when the moving image file of the input broadcast program matches a part of the leading part of the CM, the matching CM determining unit 61 outputs the CM specifying information for specifying the matched CM to the leading part identity determining unit. 62.
[0072]
When the CM identification information of the CM having a part of the head part of the CM is supplied from the matching CM determination part 61 to the head part identification part 62, the head part identification part 62 is stored in the memory. For the remaining part (for example, one second excluding the first one frame) of the leading part of the CM specified by the supplied CM specifying information, the moving image of the broadcast program subsequently input It determines whether the AV information is the same as the AV information of the image file, and notifies (supplies) the determination result to the system control unit 4.
[0073]
In addition, the head portion identity determination unit 62 determines, for the CM to which a part of the head portion of the CM supplied with the CM identification information from the matching CM determination unit 61 matches, the CM stored in the drive 6, The reading (writing to the memory) of the subsequent moving image file is started.
[0074]
When it is also determined that the remaining part of the head part of the CM determined by the head part identity determination unit 62 is the same as the moving image file of the input broadcast program, the head part identity determination unit 62 The CM identification information of the matched CM is supplied to the subsequent part identity determination unit 63.
[0075]
On the other hand, when the remaining part of the head of the CM does not match the moving image file of the input broadcast program, the head part identity determination unit 62 does not read the subsequent part of the CM, The occurrence of the mismatch is notified to the system control unit 4.
[0076]
The subsequent part identity determining unit 63 stores the moving image file of the broadcast program, which is subsequently input, for the CM supplied with the CM specifying information from the leading part identity determining unit 62 in the memory by the leading part identity determining unit 62. Are sequentially determined as to whether or not they are the same as the succeeding portion of the CM written in.
[0077]
When reproducing the AV information of the broadcast program recorded on the drive 6 in the CM skip mode, the information identity detection unit 5 supplies the AV information from the drive 6 instead of the moving image file of the input broadcast program. The moving image file of the broadcast program to be read and the moving image file of the CM stored in the memory are determined.
[0078]
Next, the operation of the system control section 4 when the recording of the input signal is instructed by the viewer in the CM skip mode will be described.
[0079]
Here, when the CM skip mode is specified in advance by the viewer (user) and the command is supplied from the operation processing unit 8 to the system control unit 4, the system control unit 4 controls the drive 6 to The head part (for example, the first second) of the moving image file of the CM recorded on the drive 6 and the additional information file are copied to (the memory of) the information identity detection unit 5 (read from the drive 6 and the information is identical). To the sex detector 5).
[0080]
The moving image file of the AV information stored in the memory of the information identity detection unit 5 may be either a digitally compressed state or an expanded state. If the moving image file is stored in a digitally compressed state, it will be described later. When determining the identity with the input signal to be processed, the moving image file is expanded and compared with the input signal (determined).
[0081]
When the user issues a command to record (record) the input broadcast program signal (broadcast signal) in the drive 6 and the command is supplied from the operation processing unit 8 to the system control unit 4, the system control unit 4 , The recording of the input signal is started, and the CM partial skip processing shown in FIG. 6 is started.
[0082]
Therefore, referring to the flowchart of FIG. 6, a description will be given of a CM partial skip process in recording an input signal of the system control unit 4.
[0083]
First, in step S1, the system control unit 4 outputs a command to start the CM part detection to the information identity detection unit 5, and proceeds to step S2. At this time, the system control unit 4 also supplies the current time to the information identity detection unit 5.
[0084]
Here, the information identity detection unit 5 starts a CM part detection process described later by receiving a CM part detection start command from the system control unit 4.
[0085]
In step S2, the system control unit 4 acquires a CM part detection result obtained by the CM part detection process performed by the information identity detection unit 5, and proceeds to step S3. The CM part detection process performed by the information identity detection unit 5 will be described later with reference to FIG.
[0086]
In step S3, the system control unit 4 determines whether or not the input signal is a CM part based on the CM part detection result obtained in step S2. When it is determined that the input signal is not the CM portion, the process proceeds to step S4, and the system control unit 4 records the input signal on the hard disk of the drive 6. More specifically, the AV information of the moving image file of the input signal supplied from the reception signal processing unit 3 is sequentially stored in the buffer memory of the system control unit 4, but the system control unit 4 stores the AV information in the buffer memory. The AV information of the moving image file of the input signal is recorded under the program information directory 22 of the drive 6 shown in FIG.
[0087]
On the other hand, if it is determined in step S3 that the input signal is the CM part, the process proceeds to step S5, and the system control unit 4 temporarily stops recording the input signal on the hard disk of the drive 6. Specifically, the AV information of the moving image file of the input signal supplied from the reception signal processing unit 3 is sequentially stored in the buffer memory of the system control unit 4, but the system control unit 4 stores the AV information in the buffer memory. The recording of the AV information of the moving image file of the input signal on the hard disk of the drive 6 is stopped. Further, the system control unit 4 can stop recording the input signal on the hard disk of the drive 6 and add the additional information of the detected CM to the additional information file in the drive 6.
[0088]
After step S4 or S5, the process proceeds to step S6, and the system control unit 4 determines whether or not the recording has been completed. For example, the system control unit 4 determines that the recording has ended, for example, when a recording end instruction is supplied from the operation processing unit 8.
[0089]
If it is determined in step S6 that the recording has not been completed, the system control unit 4 returns the process to step S2 and repeats the processes in steps S2 to S6.
[0090]
On the other hand, if it is determined in step S6 that the recording has been completed, the process proceeds to step S7, in which the system control unit 4 outputs a command for ending the CM part detection to the information identity detection unit 5 and ends the process.
[0091]
Here, the information identity detection unit 5 ends the CM part detection processing by receiving a command to end the CM part detection from the system control unit 4.
[0092]
The flowchart in FIG. 6 described above is an example in which the signal input to the recording / reproducing apparatus 1 is recorded (recorded) on the hard disk of the drive 6, but the CM portion of the broadcast program recorded on the drive 6 is skipped. And playback (supply to the playback signal processing unit 7), or when the CM portion of the broadcast program recorded on the drive 6 is deleted and recorded on the drive 6 again (editing of CM deletion) Also, the same processing as in the flowchart of FIG. 6 is performed.
[0093]
That is, when skipping the CM portion of the broadcast program recorded on the drive 6 and reproducing it, in step S3, when it is determined that the broadcast signal read from the drive 6 is not the CM portion, the system control is performed in step S4. The unit 4 supplies (reproduces) the read broadcast signal to the reproduction signal processing unit 7.
[0094]
On the other hand, when it is determined in step S3 that the broadcast signal read from the drive 6 is the CM portion, in step S5, the system control unit 4 supplies the read broadcast signal to the playback signal processing unit 7 (playback). ) Is temporarily stopped or skipped (fast forward).
[0095]
When the CM portion of the broadcast program recorded on the drive 6 is deleted and recorded again on the drive 6 (editing of CM deletion), the broadcast signal read from the drive 6 is not the CM portion in step S3. Is determined, the system control unit 4 records (writes) the read broadcast signal in the drive 6 in step S4.
[0096]
On the other hand, if it is determined in step S3 that the broadcast signal read from the drive 6 is the CM part, the system control unit 4 temporarily records (writes) the read broadcast signal in the drive 6 in step S5. Stop.
[0097]
Next, with reference to the flowchart of FIG. 7, the CM part detection processing of the information identity detection unit 5 will be described. This process is started when the system control unit 4 outputs a command to start CM part detection to the information identity detection unit 5 together with the current time in step S1 in FIG. Note that, similarly to the flowchart of FIG. 6, the CM part detection process of FIG. 7 will be described with an example of recording an input signal in the drive 6.
[0098]
First, in step S <b> 21, the information identity detection unit 5 determines whether or not a command to end the CM part detection has been supplied from the system control unit 4. When it is determined that the command to end the CM part detection has been supplied, the information identity detection unit 5 ends the processing.
[0099]
On the other hand, when it is determined in step S21 that the command to end the CM part detection has not been supplied, the process proceeds to step S22, and the coincidence CM determination unit 61 of the information identity detection unit 5 starts the drive 6 with the start of the CM skip mode. Then, a part (for example, one frame) of the CM, which is supplied from the storage unit 4 and stored in the memory of the information identity detection unit 5, is compared with a moving image file of a broadcast program which is an input signal, and step S23 is performed. Proceed to. Here, the matching CM determining unit 61 determines, from all the CMs supplied from the drive 6, from those having a high possibility of appearance (the possibility of being the same) with reference to the additional information of the CM. For example, the coincident CM determination unit 61 determines from CMs that have been broadcast in the past in a time zone close to the current time.
[0100]
In step S23, based on the comparison result in step S22, the matching CM determining unit 61 determines the identity between the input signal and a part of the head of the CM.
[0101]
In step S23, when the matching CM determination unit 61 determines that the input signal and a part of the head part of the CM (for example, one frame) are not the same, the process returns to step S21.
[0102]
On the other hand, in step S23, when the matching CM determining unit 61 determines that the input signal and a part of the head of the CM are the same, the process proceeds to step S24, and notifies the system control unit 4 of the occurrence of the matching. Further, the matching CM determining unit 61 supplies the CM specifying information of the matching CM to the head part similarity determining unit 62, and proceeds to step S25.
[0103]
In step S <b> 25, the leading part identity determining unit 62 determines the remaining part of the leading part of the CM specified by the CM specifying information supplied from the matching CM determining unit 61 that has not been determined yet ( For example, one second (excluding the first one frame) is compared with the input signal, and the process proceeds to step S26.
[0104]
In step S26, the head part identity determination unit 62 saves the CM in which a part of the head part of the CM specified by the CM specification information supplied from the matching CM determination unit 61 matches the CM, in the drive 6. Read of the moving image file of the subsequent portion of the CM (writing to the memory) is started, and the process proceeds to step S27.
[0105]
In step S27, based on the comparison result in step S25, the leading part identity determining unit 62 determines the remaining undetermined leading part of the CM specified by the CM specifying information supplied from the matching CM determining unit 61. The identity of a portion (for example, one second excluding the first one frame) and the input signal is determined.
[0106]
In step S27, when the leading part identity determining unit 62 determines that the remaining part of the leading part of the CM does not match the input signal, the process proceeds to step S28, and notifies the system control unit 4 of the occurrence of the mismatch, The reading of the moving image file of the subsequent part of the CM started in step S26 is stopped. Then, the process returns to step S21.
[0107]
On the other hand, in step S27, when the leading part identity determining unit 62 determines that the remaining part of the leading part of the CM matches the input signal, the leading part identity determining unit 62 determines the CM specifying information of the matched CM as the succeeding part identity determining unit 63. And the process proceeds to step S29.
[0108]
In step S29, the subsequent part identity determination unit 63 compares the input signal with the subsequent part of the CM that has been read from the drive 6 into the memory in step S26, and proceeds to step S30.
[0109]
In step S30, the subsequent part identity determination unit 63 determines the identity between the subsequent part of the CM and the input signal based on the comparison result in step S29.
[0110]
In step S30, when the subsequent part identity determining unit 63 determines that the subsequent part of the CM and the input signal do not match, the process proceeds to step S31, notifies the occurrence of mismatch to the system control unit 4, and proceeds to step S21. Return.
[0111]
On the other hand, in step S30, when the subsequent portion identity determination unit 63 determines that the subsequent portion of the CM matches the input signal, the process proceeds to step S32.
[0112]
In step S32, the subsequent part identity determination unit 63 notifies the system control unit 4 of the coincidence of the subsequent part of the CM, and returns the processing to step S21. Then, the subsequent processing is repeated.
[0113]
In the processing in steps S24, S28, S31, and S32 described above, the information indicating whether the input signal notified by the information identity detection unit 5 to the system control unit 4 matches or does not match the CM image file is determined in step S2 in FIG. , Is obtained as a CM part detection result by the system control unit 4.
[0114]
In the above-described step S24, when the matching CM discriminating unit 61 notifies the system control unit 4 of the occurrence of a match, for example, it also notifies the length of time during which the matching CM is broadcast from the additional information recorded in the memory. In this way, the system control unit 4 may recognize that the section of the CM part has ended unless a mismatch notification (CM part detection result) is obtained before the time of the CM has elapsed.
[0115]
In addition, when the CM portion of the broadcast program recorded on the drive 6 is reproduced by skipping, or the CM portion of the broadcast program recorded on the drive 6 is deleted and recorded on the drive 6 again (the CM deletion is edited. Also in the case, the signal (moving image file including the CM part) input to the information identity detection unit 5 differs only in whether it is supplied from the reception signal processing unit 3 or the drive 6. Yes, the same processing as in FIG. 7 is performed.
[0116]
As described above, in the recording / reproducing apparatus 1 of FIG. 1, the information identity detection unit 5 determines whether or not the input signal is the CM part based on the previous CM information stored in the drive 6, so that the input The CM portion of the signal can be detected more reliably.
[0117]
In the above-described embodiment, the memory of the information identity detection unit 5 stores the leading part of the moving image file of each CM in the CM information directory 23 and the additional information file supplied from the drive 6 for all CMs. In the case where the additional information file does not have the capacity, based on the time information of the additional information file, the head part of the moving image file of each CM and the additional information file are stored in order of CM having a high possibility of appearance, Items that are unlikely to appear may be discarded.
[0118]
Furthermore, since a CM having a high possibility of appearance may change depending on time, it is desirable that information stored in the memory of the information identity detection unit 5 be updated regularly or irregularly.
[0119]
The broadcast signal input to the recording / reproducing apparatus 1 shown in FIG. 1 is not limited to an analog broadcast, but may be a digital signal such as a CS (Communications Satellite) digital broadcast. In that case, the above-described A / D conversion processing in the reception signal processing unit 3 and the like are omitted.
[0120]
The recording medium for recording the moving image file is not limited to one recording medium such as a hard disk or a DVD, but may be two or more recording media. Further, even if the two or more recording media are of the same type, they may be different. Types may be used. For example, both the hard disk and the DVD are built in the drive 6, and the moving image file of each main program in the program information directory 22 shown in FIG. And the additional information file can be recorded on the hard disk. The recording medium driven by the drive 6 may be built in the drive 6 or may be removable from the drive 6.
[0121]
Further, the recording medium on which the moving image file of each main program is recorded is not limited to a randomly accessible recording medium, but may be a video tape or the like.
[0122]
By the way, the drive 6 stores, under the CM information directory 23 as shown in FIG. 2, AV information (moving image file) of a previously broadcasted CM and additional information (date and time when the CM was broadcasted). Each of the additional information files is previously recorded (stored) as initial data.
[0123]
Therefore, a method of collecting (acquiring) the initial data will be described. The initial data is, for example, information that is guaranteed to be CM information by a third-party organization such as a CM information provider via an external input terminal of the recording / reproducing apparatus 1 or a drive 6 such as the Internet. Recording can be performed on the drive 6 by connecting and supplying a network.
[0124]
Further, for example, a method of detecting a non-voice portion of a broadcast signal, a method of detecting a difference between a monaural system and a stereo system audio signal system, and the like based on a broadcast signal input to the recording / reproducing apparatus 1. The device 1 may generate initial data (AV information of a CM and a file of additional information such as the date and time when the CM was broadcast).
[0125]
Then, the viewer (user) operates the recording / reproducing device 1 to output and display (reproduce) the data of the generated CM information and the programs broadcasted in the past on an external display device to check the CM. Information can be edited and CM information can be created. In this case, the reliability of the CM information as the initial data stored in the recording / reproducing apparatus 1 can be improved.
[0126]
According to at least one of the above-described method of acquiring the initial data of the CM information or another method, the recording / reproducing apparatus 1 uses the CM information for determining the coincidence of the CM portion of the broadcast program as the initial data. It can be recorded on a medium. Therefore, the recording / reproducing apparatus 1 determines whether or not the input signal is the CM part based on the accurate CM information recorded on the drive 6, so that the part which is originally the CM part is not the CM part. The possibility of erroneous recognition or erroneous recognition of a part that is not originally a CM part as a CM part can be extremely reduced.
[0127]
By the way, in the recording / reproducing apparatus 1 described above, the previously broadcasted CM information is stored in the drive 6 as described with reference to FIG. 2, so that the recording area of the drive 6 is used. There is a concern that this will happen.
[0128]
However, since the CM information stored in the drive 6 is not AV information intended for viewing, it does not need to be of the same quality as viewing and listening. For example, by increasing the compression ratio, The required area can be minimized. Even when the compression ratio at the time of recording the CM information is increased, there is little adverse effect on the accuracy of the AV information identity determination.
[0129]
Further, when the recording / reproducing apparatus 1 creates the data of the CM information based on the input signal, when the viewer watches the same program, the CM broadcasted by the same program is broadcasted by the program in the past. Since it is considered that there are many identical CMs, required CM information is reduced.
[0130]
In addition, for example, information on the number of times that a CM is detected as a matching CM by the CM partial detection process is recorded as a history in the additional information file of each CM, and the recording capacity of the CM information is set to a predetermined specified amount. When the number exceeds the threshold, the history of the number of times of detection may be referred to, and the CM information with the lowest matching degree in the past may be deleted in order.
[0131]
Alternatively, based on the time information of the CM additional information file, the CM information may be deleted in order from the CM information that is broadcast only during a time period other than the time zone of the program that the viewer has designated to record or reproduce in the past.
[0132]
As described above, the capacity required for recording (storing) of the CM information directory 23 in FIG. 2 can be extremely small as compared with the capacity of the program information directory 22.
[0133]
Accordingly, the AV information of the broadcast program can be stored with the CM deleted, and the CM information for determining the coincidence of the CM portion of the broadcast program can be stored with an extremely small capacity. A recording area for recording a program can be used efficiently.
[0134]
Since the broadcast program to be recorded or reproduced has the CM portion deleted, the viewer can comfortably view the broadcast program.
[0135]
The above-described series of processes can be executed by hardware or can be executed by software. In this case, for example, the recording / reproducing apparatus 1 in FIG. 1 can be configured by a personal computer as shown in FIG.
[0136]
8, a CPU (Central Processing Unit) 101 executes various processes in accordance with a program stored in a ROM (Read Only Memory) 102 or a program loaded from a storage unit 108 into a RAM (Random Access Memory) 103. I do. The RAM 103 also stores data necessary for the CPU 101 to execute various processes as appropriate.
[0137]
The CPU 101, the ROM 102, and the RAM 103 are mutually connected via a bus 104. An input / output interface 105 is also connected to the bus 104.
[0138]
The input / output interface 105 includes an input unit 106 including a keyboard and a mouse, a display including a CRT (Cathode Ray Tube), an LCD (Liquid Crystal Display), an output unit 107 including a speaker, a hard disk, and the like. A communication unit 109 including a storage unit 108, a modem, a terminal adapter, and the like is connected. The communication unit 109 performs communication processing via a network such as the Internet. The CPU 101 performs processing of, for example, the system control unit 4 and the information identity detection unit 5 in FIG. The storage unit 108 performs a process corresponding to the drive 6 in FIG.
[0139]
A drive 110 is connected to the input / output interface 105 as necessary, and a magnetic disk 121, an optical disk 122, a magneto-optical disk 123, a semiconductor memory 124, or the like is appropriately mounted. It is installed in the storage unit 108 as needed.
[0140]
In this specification, a step of describing a program recorded on a recording medium may be performed in chronological order according to the described order, or may be performed in parallel or not necessarily in chronological order. This also includes processes executed individually.
[0141]
The information identity detection unit 5 may determine the identity between the input signal and the signal recorded on the recording medium of the drive 6 using both the video information and the audio information, Alternatively, it may be performed using only one of them.
[0142]
【The invention's effect】
As described above, according to the present invention, a commercial message portion of a broadcast signal can be more reliably detected.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of an embodiment of a recording / reproducing apparatus 1 to which the present invention has been applied.
FIG. 2 is a diagram showing an example of a data structure of a broadcast signal recorded in the recording / reproducing apparatus 1 of FIG.
FIG. 3 is a diagram illustrating a CM additional information file.
4 is a diagram illustrating a main program and a moving image file of a CM recorded in the recording / reproducing apparatus 1 of FIG. 1;
FIG. 5 is a block diagram illustrating a functional configuration example of an information identity detection unit 5;
FIG. 6 is a flowchart illustrating a CM partial skip process of a system control unit 4.
FIG. 7 is a flowchart illustrating a CM part detection process of the information identity detection unit 5;
FIG. 8 is a block diagram illustrating a configuration example of a computer according to an embodiment of the present invention.
[Explanation of symbols]
4 System control unit, 5 Information identity detection unit, 6 Drive, 61 Matching CM identification unit, 62 Head part identity identification unit, 63 Subsequent part identity identification unit

Claims (11)

Information identity detection means for detecting identity between video or audio information and video or audio information of a CM recorded on a predetermined recording medium;
A determination unit configured to determine whether the video or audio information is a CM based on a result of detection of the identity by the information identity detection unit,
The information identity detection means,
First determining means for determining whether the video or audio information is the same as a part of the head of the video or audio information of the CM;
Second determining means for determining whether the video or audio information is the same as the remaining part other than the part of the head part of the CM video or audio information,
An information processing apparatus comprising: a third determination unit configured to determine whether the video or audio information is the same as a subsequent part following the head of the CM video or audio information. The information processing apparatus according to claim 1, wherein the video or audio information is information to be broadcast. The information processing apparatus according to claim 1, wherein the video or audio information is reproduced information. The information processing apparatus according to claim 1, further comprising a deletion unit that deletes a CM from the video or audio information. 5. The apparatus according to claim 4, further comprising a recording unit that records the video or audio information, wherein the deletion unit deletes a CM from the video or audio information when the recording unit records the video or audio information. An information processing apparatus according to claim 1. 5. The apparatus according to claim 4, further comprising a reproducing unit for reproducing the video or audio information, wherein the deleting unit deletes a CM from the video or audio information when the reproducing unit reproduces the video or audio information. An information processing apparatus according to claim 1. The second discriminating means, when the first discriminating means determines that the video or audio information is the same as a part of the head part of the CM video or audio information, It is determined whether the audio information is the same as the remaining part other than the part of the head part of the video or audio information of the CM, and the third determination unit is configured to perform the second determination by the second determination unit. If it is determined that the video or audio information is the same as the remaining part other than the part at the beginning of the video or audio information of the CM, the video or audio information is replaced with the video or audio information of the CM. 2. The information processing apparatus according to claim 1, wherein it is determined whether or not a subsequent part following the head part is the same. The recording medium is composed of two or more recording media,
In one of the two or more recording media, video or audio information of a CM of the video or audio information is recorded, and in the other recording medium, video or audio information other than the CM is recorded. The information processing apparatus according to claim 1, wherein is recorded. An information identity detection step of detecting identity between the video or audio information and the video or audio information of a CM recorded on a predetermined recording medium;
A determination step of determining whether the video or audio information is a CM based on a result of the identification performed by the information identity detection step,
The information identity detecting step includes:
A first determining step of determining whether the video or audio information is the same as a part of a head portion of the video or audio information of the CM;
A second determining step of determining whether the video or audio information is the same as the remaining part other than the part of the head of the video or audio information of the CM; and A third determining step of determining whether or not the CM video or audio information is the same as the subsequent part following the head part. An information identity detection step of detecting identity between the video or audio information and the video or audio information of a CM recorded on a predetermined recording medium;
A determination step of determining whether the video or audio information is a CM based on a result of the identification performed by the information identity detection step,
The information identity detecting step includes:
A first determining step of determining whether the video or audio information is the same as a part of a head portion of the video or audio information of the CM;
A second determining step of determining whether the video or audio information is the same as the remaining part other than the part of the head of the video or audio information of the CM; and A third determining step of determining whether or not the subsequent part following the head part of the video or audio information of the CM is the same as that of the commercial part. An information identity detection step of detecting identity between the video or audio information and the video or audio information of a CM recorded on a predetermined recording medium;
A determination step of determining whether the video or audio information is a CM based on a result of the identification performed by the information identity detection step,
The information identity detecting step includes:
A first determining step of determining whether the video or audio information is the same as a part of a head portion of the video or audio information of the CM;
A second determining step of determining whether the video or audio information is the same as the remaining part other than the part of the head of the video or audio information of the CM; and A third determining step of determining whether or not the subsequent portion of the video or audio information of the CM is the same as the subsequent portion following the head portion.

Images