WO2005101824A1 - 情報記録装置及び情報記録方法、情報再生装置及び情報再生方法、情報記録用プログラム及び情報再生用プログラム - Google Patents
情報記録装置及び情報記録方法、情報再生装置及び情報再生方法、情報記録用プログラム及び情報再生用プログラム Download PDFInfo
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- WO2005101824A1 WO2005101824A1 PCT/JP2005/006844 JP2005006844W WO2005101824A1 WO 2005101824 A1 WO2005101824 A1 WO 2005101824A1 JP 2005006844 W JP2005006844 W JP 2005006844W WO 2005101824 A1 WO2005101824 A1 WO 2005101824A1
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- information
- recording
- scene
- recorded
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/76—Television signal recording
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/10—Digital recording or reproducing
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/76—Television signal recording
- H04N5/78—Television signal recording using magnetic recording
- H04N5/781—Television signal recording using magnetic recording on disks or drums
Definitions
- Information recording apparatus and information recording method information reproducing apparatus and information reproducing method, information recording program and information reproducing program
- the present application belongs to the technical field of an information recording device and an information recording method, an information reproducing device and an information reproducing method, an information recording program, and an information reproducing program.
- the hard disk recorder is a player having a playback function such as so-called chase playback or cache playback utilizing the random accessibility of a hard disk as a built-in recording medium. In the future, it will be introduced in large quantities in the factory and considered to be spider.
- the above-described conventional hard disk recorder and the like are provided with the above-described commercial cut function and the like, but programs such as a serial drama and the like that are broadcast weekly or monthly are continuously stored on the hard disk.
- programs such as a serial drama and the like that are broadcast weekly or monthly are continuously stored on the hard disk.
- many programs often have exactly the same contents at the beginning and end of each program (for example, the opening section of a theme song, the ending section of an ending song, etc.).
- the present application has been made in view of the above circumstances, and one example of the problem is the convenience in reproducing a program broadcast including the same portion every time, such as an open jung section or an ending section.
- Information reproducing device and information reproducing method capable of improving performance, information reproducing program used for the reproducing, information recording device capable of recording each program so as to improve the convenience, and information recording
- An object of the present invention is to provide a method, the information recording program, or an information recording medium on which the respective programs are recorded.
- the invention according to claim 1 provides an information reproducing apparatus that reproduces a plurality of pieces of recorded information that are partially recorded with the same contents.
- a detecting means such as a same scene detecting section for detecting the part of each piece of the recording information for each piece of the recording information, and a recording apparatus for reproducing the recording information excluding the detected part.
- Reproduction means such as a raw control unit.
- an invention according to claim 5 is directed to an information recording apparatus that records a plurality of pieces of recording information partially having the same contents.
- Acquiring means such as a tuner section for acquiring recording information; detecting means such as a same scene detecting section for detecting the part of the acquired recording information for each recording information; and detecting the detected part.
- Recording means for recording the excluded recording information such as a recording Z playback control unit.
- an invention according to claim 9 relates to an information reproducing method for reproducing a plurality of pieces of recorded information that are partially recorded with the same contents.
- the method further includes a detecting step of detecting the part of each piece of the recorded information for each piece of the recorded information, and a reproducing step of reproducing the recorded information excluding the detected part.
- an invention according to claim 10 is directed to an information recording method for recording a plurality of pieces of recording information partially having the same content as each other.
- the invention according to claim 11 provides a computer for storing a plurality of pieces of recording information of a plurality of pieces of recording information which are partially recorded with the same content as each other. And a reproducing unit that reproduces the recorded information excluding the detected part.
- the invention according to claim 12 provides a computer which acquires a plurality of pieces of recording information of a plurality of pieces of recording information partially having the same contents,
- the information processing apparatus functions as detection means for detecting the part of each of the acquired pieces of recording information for each piece of the recording information, and recording means for recording the recording information excluding the detected part.
- FIG. 1 is a block diagram showing a schematic configuration of an information processing apparatus according to an embodiment.
- FIG. 2 is a block diagram showing an internal configuration of a scene change detection unit according to the embodiment.
- FIG. 3 is a block diagram showing an internal configuration of the same scene detection unit according to the embodiment.
- FIG. 4 is a diagram showing a recording example of a program according to the embodiment.
- FIG. 5 is a flowchart showing a scene change detection process and an identical scene detection process in the reproduction process according to the first embodiment.
- FIG. 6 is a diagram illustrating contents of the same scene recording table according to the first embodiment.
- FIG. 7 is a flowchart showing a reproduction process according to the first embodiment.
- FIG. 8 is a diagram illustrating a reproduction process according to the first embodiment.
- FIG. 9 is a flowchart showing a recording process according to a second embodiment.
- AV Audio Visual
- BS Broadcasting Satellite
- FIG. 1 is a block diagram illustrating an information processing apparatus according to the first embodiment
- FIG. 2 is a block diagram illustrating an internal configuration of a scene change detection unit included in the information processing apparatus
- 3 is a block diagram showing an internal configuration of the same scene detection unit included in the information processing device.
- the information processing apparatus 1 includes an antenna 10 for receiving a broadcast wave of a digital broadcast, a tuner unit 11 as an acquisition unit, a TS demodulation unit 12, a hard disk (Hereinafter referred to as HD) 13a
- a scene change detection unit 16 includes a DC (direct current) coefficient extraction unit 21, a buffer circuit 22, a difference extraction circuit 23, an absolute value conversion circuit 24, a scene change determination And a circuit 25.
- the coding coefficient video signal is input from the HDD 13 to the DC coefficient extraction unit 21, while the frame signal is input to the buffer circuit 22 and the threshold control signal power is input to the scene change determination circuit 25. Input from control unit 14.
- the same scene detection unit 17 includes a DC coefficient extraction unit 26, a buffer circuit 27, a difference extraction circuit 28, an absolute value conversion circuit 29, and a same scene determination circuit 30. It consists of In this configuration, as in FIG. 2, the coding coefficient video signal is input from the HDD 13 to the DC coefficient extraction unit 26, while the frame'clock signal power is applied to the same scene determination circuit 30 to the buffer circuit 27.
- the threshold control signals are input to the recording Z playback control unit 14 respectively.
- the “scene” refers to one group (chunk) having temporal continuity in content in moving image information received and recorded on the HD 13a.
- scene change refers to a boundary portion of the scene.
- moving image information that constitutes a program has an opening section and an end section in addition to the main section, which is the program itself, and a boundary portion between the opening section and the main section and the main section.
- An example of scene change detection in which a CM portion is often present at each of the boundary portions between the CM and the ending portion is to detect a boundary portion between the CM portion and another portion.
- the CM section can be identified by detecting a silent section of several hundred milliseconds that is normally provided immediately before the start of the CM section.
- detecting the CM section it is well known that the audio signal included in the CM section is always in the stereo mode and the other main section is in the monaural mode.
- the CM unit is identified based on the difference between the two.
- the TS demodulation unit 12 demodulates the encoded video signal and the encoded audio signal included in the output received signal and outputs the demodulated video signal and the encoded audio signal to the HDD 13.
- the HDD 13 records the demodulated encoded video signal and encoded audio signal in the HD 13a.
- the recording mode in this case will be described later in detail with reference to FIGS.
- the encoded video signal and the encoded audio signal read from the HD 13a at a predetermined timing are output to the television signal generation unit 18. Then, the television signal generation unit 18 decodes the output encoded video signal and encoded audio signal as a television signal, and outputs the television signal to the TV monitor 3.
- the TV monitor 3 When the decoded video signal is input, the TV monitor 3 outputs an image corresponding to the input video signal, and when the decoded audio signal is input, the TV monitor 3 outputs the image.
- the sound corresponding to the sound signal is emitted by a speaker (not shown).
- the encoded video signal is also output from the HD 13a to the scene change detection unit 16 and the same scene detection unit 17.
- the scene change detection unit 16 detects a scene change in the video displayed by the encoding video signal, generates a scene change detection signal indicating the detection result, and generates a recording Z playback control unit. Output to 14.
- the same scene detection unit 17 The video signals are compared with each other, and it is detected whether or not the scenes corresponding to the compared video signals have the same contents, and the same scene detection signal indicating the detection result is detected. Generate and output to recording Z playback control unit 14.
- the recording / playback control unit 14 generates a control signal and the like necessary for executing a playback process of a first embodiment described later based on the scene change detection signal and the same scene detection signal. Output to each of the above components.
- the DC coefficient extraction unit 21 in the scene change detection unit 16 outputs the above-mentioned encoded video signal power 3 ⁇ 4C (direct current) coefficient and AC encoded in accordance with the MPEG2 standard. Utilizing the fact that (AC) coefficients are included, only the DC coefficients are extracted for each block in each frame constituting the encoded video signal.
- the extracted DC coefficient is output as it is to the difference extraction circuit 23 and also to the buffer circuit 22, and the buffer circuit 22 outputs only the time corresponding to one frame based on the clock signal.
- the signal is delayed and output to the difference extracting circuit 23.
- the DC coefficient D ( ⁇ 1) of the encoded video signal at the timing ( ⁇ 1) of one frame before and input by being delayed by one frame in the buffer circuit 22 ) ( ⁇ indicates the timing of the current frame, and D indicates the DC coefficient.
- ⁇ indicates the timing of the current frame
- D indicates the DC coefficient.
- the difference is compared for each block, and the difference, D ( ⁇ ) D ( ⁇ -1), is calculated for each block and output to the absolute value circuit 24.
- the absolute value driving circuit 24 calculates the absolute value of the difference “ID ( ⁇ ) D ( ⁇ 1)
- the absolute value of the difference between the DC coefficients for each block in the two frames is calculated.
- the continuity between the frame immediately before the scene change and the frame immediately after the scene change is significantly different, and the absolute value of the difference is large.
- the above-described difference elimination is performed on all blocks in the compared frames. Since the state where the pair value is large occurs, the number of blocks for which the absolute value of the difference is large also increases.
- the scene change determination circuit 25 determines that the absolute value of the difference I ⁇ ( ⁇ )- ⁇ ( ⁇ - ⁇ ) I is larger than the preset threshold ⁇ in a frame at a certain timing ⁇ . If the number of blocks exceeds a preset threshold value B, it is determined that a scene change has occurred between the timing and the immediately preceding timing (T1), and the above scene indicating that fact has occurred. A change detection signal is generated and output to the recording Z playback control unit 14. In these processes, the threshold values A and B are experimentally preset, respectively, and the recording Z playback control unit 14 also outputs a threshold control signal.
- the same scene detection unit 17 determines the DC coefficient for one frame in the coded video signal constituting the comparison reference scene and the scene to be compared with the comparison reference.
- the DC coefficient of one frame in the coded video signal to be composed is compared with the DC coefficient of one frame, and a coded video signal corresponding to a scene to be compared from the HD 13a is alternately input to the scene change detection unit 17. For example, when comparing scene 1 with scene 5, the corresponding frame of scene 1 is input, and the frame 'clock signal is input to the buffer circuit 27. , Input the corresponding frame of scene 5.
- the DC coefficient extraction unit 26 extracts only the DC coefficient for each block in each frame constituting each of the alternately input encoded video signals.
- the DC coefficient Dl ( ⁇ ) of the encoded video signal at the scene 1 timing ( ⁇ ) which is buffered and input in the notifier circuit 27 and the scene 5 timing ( ⁇ ) Is compared with the DC coefficient D5 ( ⁇ ) of each block, and the difference, Dl ( ⁇ ) D5 ( ⁇ ), is calculated for each block, and the absolute value is calculated.
- the absolute value conversion circuit 29 calculates the absolute value of the difference “IDl ( ⁇ ) D5 ( ⁇ )
- Each block in the frame Calculate the absolute value of the DC coefficient difference for each step.
- the absolute value of the difference is extremely close to zero.
- the same scene determination circuit 30 determines that the absolute difference value ID1 (T) -D5 (T) I is smaller than the predetermined threshold value C in the frame at a certain timing ⁇ .
- a preset threshold value D it is determined that the contents of the scene 1 at the timing and the contents of the scene 5 are the same, and the above-mentioned same sheet indicating that fact is the same.
- a recording detection signal is generated and output to the recording Z playback control unit 14.
- the thresholds C and D are experimentally preset, respectively, and are output from the recording Z playback control unit 14 as threshold control signals.
- the recording process itself according to the first embodiment is basically the same as the conventional one.
- the broadcast of each episode is encoded into the HD13a as it is while being divided for each episode It is recorded as a video signal and an encoded audio signal.
- each broadcast portion of the serial drama will be referred to as a "title".
- Each title is composed of an opening part, a main part following it, and an ending part following it.
- each title is recorded as a coded video signal and a coded audio signal as they are broadcasted, which will be described later.
- each title is assumed to have a scene configuration as shown in FIG. 4, and each scene is detected in the reproduction processing.
- FIG. 4 is a diagram exemplifying a state in which an encoded video signal corresponding to the serial drama is recorded on the HD 13a, and the above-described CM unit is not shown.
- scenes indicated by scene numbers 9 and 10 described later are in the opening section
- scenes indicated by scene number 11 described later are in the main section
- scenes indicated by scene number 12 described later are in the main section.
- Each corresponds to an ending section.
- the opening part and ending part of each title have the same scene content between the titles.
- FIG. 5 is a flowchart showing the scene change detection process and the same scene detection process according to the first embodiment.
- FIG. 6 is a flowchart showing the first embodiment corresponding to each title recorded in the mode shown in FIG.
- FIG. 7 is a diagram exemplifying the contents of the same scene recording table according to the embodiment,
- FIG. 7 is a flowchart showing a reproduction process in consideration of the scene identity according to the first embodiment, and FIG. FIG.
- the detection and detection of each scene itself in the above-described encoded video signal, in which only the title is divided and recorded in the HD 13a, is performed before the actual playback processing.
- the same scene in each scene is detected based on the processing shown in FIG. 5, and the result is recorded on the HD 13a as the same scene recording table shown in FIG.
- parameter N is a parameter indicating the number of each scene to be detected later
- parameter I is a comparison reference when detecting whether or not two scenes are the same
- the parameter L is a parameter indicating the number of the scene to be compared with the scene serving as the comparison reference.
- the process shown in FIG. 5 is a scene change detection process for identifying and detecting each scene in the encoded video signal in which only the title is sectioned and recorded (step SI to S7) and the same scene detection processing (steps S8 to S12) for comparing each of the detected scenes with each other to detect a scene having the same contents (steps S8 to S12).
- Step Sl the parameter N is initialized (Step Sl), and the encoded video signal recorded on the HD 13a is converted to the title 1 Read in order of force (step S2).
- the recording start position information indicating the recording start position of the title 1 on the HD 13a is set to the start address of the scene of the scene number “1” (the recording start position of each scene on the HD 13a is referred to as a start address (SA)). And the recording end position of each scene on the HD 13a is hereinafter referred to as an end address (EA). The same applies hereinafter)) and recorded in a scene address table described later in the same scene recording table (step S3). Next, it is checked whether reading of all the encoded video signals on the HD 13a has been completed (step S4).
- step S4 Since all readings have not been completed at present (step S4; NO), next, the current reading is performed to determine whether or not a scene change has occurred in the frame of the encoded video signal.
- the scene change is detected by the scene change detector 16 (step S5).
- step S5 When a scene change is not detected (step S5; NO), reading of the encoded video signal is continued as it is, while when a scene change is detected (step S5; YES), the scene change is not performed. Since one scene has been detected until immediately before, the position information indicating the timing of the detected scene change is recorded in the scene address table as the end address of the scene with the scene number “1”.
- the parameter N is incremented (step S6), and the process returns to step S3 to detect the next scene.
- steps S3 to S6 are performed for all the encoded video signals recorded on the HD 13a.
- the recording position of the last read encoded video signal on the HD 13a is configured as the encoded video signal.
- the end address of the scene with the last scene number to be recorded is recorded in the scene address table (step S7).
- step S1 to S7 the scene address table shown on the left in FIG. 6 is completed.
- a start address and an end address of each scene constituting the title are recorded in frame units for each title.
- each of the 12 scenes shown in FIG. 4 has a unit of time (h), minute (m), second (s) and frame (f). Start address and end address are recorded!
- each of the scenes of scene numbers “1” and “2” included in the opening part of title 1 has a start address of “title 1:
- the scene with the scene number “3”, which is the main part of title 1, has a start address “Title 1: 00h05m30s00f” and an end address “Title 1: 00h25m30s00f”! /.
- the scene with the scene number “4” as the ending part of the title 1 has the start address “title 1: 00h25m30s00f” and the end address “title 1: 00h30m00s00f”.
- the scene with the scene number "5" included in the opening portion of title 2 has a start address of "title 2: 00h00m00s00f", an end address of "title2: 00h05m00s00fJ, In the opening part of scene No.
- the start address is “Title 2: 00h05m00s00f”
- the end address is “Title 2: 00h05m30s00f”
- the scene number “7” which is the main part of Title 2
- the end address is “Title 2: 00h30m00s00fJ, and the scene included in the opening part of Title 3 Scene No.
- the parameter N indicates the maximum value of the scene numbers (total number of scenes) in all the scenes recorded in the HD 13a.
- Step S7 When all scenes are detected for each title recorded in the HD 13a (step S7), it is next determined whether or not all scenes have been set as comparison standards in the same scene detection process. (Step S8), the scene of scene number "1" is currently used as the reference (Step S8; NO). Then, it is checked whether or not all scenes are compared with each other (Step S9).
- step S9 the scene with the scene number "1" is currently the comparison target (step S9; NO). It is checked whether the scene number of the reference scene is the same as the scene number (step S10) .Since both are currently “1” (step S10; YES), since the scenes are not subjected to the same scene detection processing, the above steps are performed.
- the parameter L is incremented to “2” (step S9). Then, not all scenes have been set as the comparison and contrast (step S9; NO), and are set as the comparison reference, and are compared with the scene number (currently “1”) of the scene!
- step S10 Since the scene number of the current scene (currently “2”) is not the same as the current scene (step S10; NO), the scene number “1”, which is currently used as the comparison reference, and the current scene number are “1”.
- the same scene detection unit 17 confirms the identity with the scene of the scene number “2” to be compared (step Sll). As a result, the scene with the current scene number “1” is not the same as the scene with the scene number “2” (see FIG. 4. Step Sl l; NO). Steps S9 to S11 are repeated using the scene 3 ”as a comparison.
- step S9 When the above processing of steps S9 to S11 is repeated until all scenes are compared and compared (step S9; YES), when scenes of scene numbers “5” and “9” are compared and compared, Since the scene content is the same as that of the current comparison reference scene (scene number “1”) (see FIG. 4. Step Sl l; YES), the same scene description corresponding to the current comparison reference scene will be described later.
- the scene numbers "5" and "9" of the same content are added to the scene number table (step S12), and the process returns to step S9.
- step S9 After all other scenes of the scene with the scene number "1" serving as the comparison reference are set as the comparison reference (step S9; YES), the scene serving as the comparison reference is incremented, and the next scene is incremented.
- the processing of steps S9 to S12 described above is executed using the scene of number “2” as a reference. Thereafter, all the other scenes are repeatedly set as the comparison reference for one comparison reference scene, and after all the scenes are set as the comparison reference (step S8; YES), the process shifts to a reproduction process described later.
- step S8 to S12 After the same scene detection process (steps S8 to S12) shown in FIG. 5 is completed, the same scene number table shown on the right in FIG. 6 is completed. At this time, in the same scene number tape, a scene number having the same content as that scene is recorded for each scene.
- scenes having the same contents as the scene with the scene number “1” of the title 1 (the first half of the opening section), the scene numbers “5” and “9” Scenes having the same content as the scene No. 2 of the title 1 (the latter half of the opening section) are the scenes Nos. 6 and 10 and the scene of the title 1 Scenes with the same content as scene 3 (main part) have the same content as scene 1 with title number 4 (ending part). And "12" scenes.
- scenes having the same contents as the scene of the scene number “5” of the title 2 are the scenes of the scene numbers “1” and “9”, and the scene of the scene number “6” of the title 2 Scenes having the same contents as the scenes of scene numbers "2” and “10”, and there is no scene having the same contents as the scene of scene number "7” of title 2, and the scene number of title 2 Scenes having the same contents as the scenes of “8” are scenes of scene numbers “4” and “12”.
- scenes having the same content as the scene with the scene number “9” of the title 3 are the scenes with the scene numbers “1” and “5”, and have the same contents as the scene with the scene number “10” of the title 3
- the scene numbers are "4" and "8".
- the same scene recording table shown in FIG. 6 is completed by the above processing of steps S1 to S12, and in the following reproduction processing, the reproduction processing according to the first embodiment is executed using this same scene recording table. .
- the parameter N is initialized and the flag SF is turned off (step S13).
- the flag SF is a flag indicating that the reproduction of the scene having the same content detected by the processing shown in FIG. 5 is skipped and the reproduction processing is continued, and is set in the recording Z reproduction control unit 14. It is a thing.
- the start address and the end address of the scene having the current scene number “1” are also read out from the scene address table shown in FIG. 6, and the parameters SA (indicating the start address) are respectively read. (Parameter) and parameter EA (parameter indicating the end address) (step S14).
- step S15 it is checked whether or not the current parameter SA has a substance. Since the start address of the scene with the scene number "1" is currently set in the parameter SA, (Step S15; NO) Then, based on the same scene number table shown in FIG. 6, it is confirmed whether or not the scene of the number indicated by the current value of the parameter N has another scene having the same content (Step S15). S16). At this time, since the scene having the current scene number “1” includes the scenes of the scene numbers “5” and “9” having the same contents (step S16; NO), it is next determined whether the flag SF is currently on. It is confirmed whether or not (step S18). Then, since the current flag SF is not on!
- Step S18 the scene of the scene number indicated by the value of the parameter N at that time (currently “1”) is reproduced from the start address to the end address. And output (Step S19), increment the value of parameter N (Step S20) Returning to step S14, the processing of steps S14 to S20 is repeated for the next scene number "2".
- step S16 With respect to the scene with the scene number “2”, there are other scenes with the same contents (scenes with the scene numbers “6” and “10”) (step S16; NO), and the flag SF is not yet set. Since it is not on (step S18; NO), the scene of the scene number "2" is reproduced from the start address to the end address and output (step S19), and the value of the parameter N is incremented. (Step S20).
- Step S14 when steps S14 to S16 are executed when the scene number is “3”, the scene having the current scene number “3” has no other scene with the same content (step S14).
- the flag SF is turned off and the parameter M is set to the current value of the parameter N (step S17).
- the parameter M is a parameter indicating the maximum value of the scene number at which the reproduction process ends when the reproduction process is in progress while skipping the reproduction of the same scene.
- step S19 When the scene of the scene number "3" is reproduced by the process of step S19, the parameter N is incremented (step S20), and the process returns to step S14 again.
- step S14 When steps S14 to S16 are executed when the scene number becomes “4”, the scene having the current scene number “4” includes a scene having the same content as the scene number (step S14). (S16; NO) Further, since the flag SF is currently ON (step S18; YES), the scene of the scene number "4" is skipped without being reproduced, and the process proceeds to step S20.
- step S 19 the reproduction process in step S 19 is completed for the second to last scene (at this stage, the parameter M is equal to the scene number of the second to last scene). ), And then increment the scene number (step S 20)
- step S16 The processes in steps S14 to S16 are executed.
- the processing in step S16 for the last scene is “NO”, and the determination in step S18 is “YES”, so the last scene (the scene with the scene number “12” in FIG. 4) is The scene number is incremented without being reproduced (step S20), and the processing of steps S14 and S15 is executed again for the incremented scene number.
- step S15 the determination is made on the scene number that does not actually exist, so that the start address does not exist (step S15; YES), and then the value of the parameter M (currently Is set to (11)) plus (1) (that is, the scene number of the last scene in the example of FIG. 4) as the parameter N, and the flag SF is also turned off (step S21).
- the start address and the end address are set in the parameters SA and EA, respectively (step S22).
- step S23 it is checked whether the parameter SA has a substance or not (step S23). Since the start address of the last scene is currently set (step S23; NO), the last The scene is reproduced (step S24), and the parameter N is incremented (step S25. In the case of FIG. 4, the parameter N is set to "13"), and the process returns to the step S22 again.
- Step S22 and S23 are executed with respect to the current value of the parameter N.
- the current parameter N does not exist! Since the start address of the scene is set, the parameter SA has no substance.
- Step S23; YES the reproduction processing according to the first embodiment ends, assuming that reproduction of all scenes has been completed.
- steps S21 to S25 is performed in the same manner as the ending section in a series of titles, in which another scene having the same content exists, and This is a process for reproducing only the data.
- a scene having the same content as another title is detected in each title, and the same scene is skipped. Since only other scenes can be reproduced, it is possible to improve the convenience in reproducing a program that is broadcast including the same part every time, such as an opening part or an ending part. [0094] Even if the title is recorded before and after in time, the skip playback is automatically performed when the title is continuously played back. You can play and watch.
- FIG. 9 is a flowchart showing a recording process according to the second embodiment.
- the configuration of the information processing apparatus according to the second embodiment is basically the same as that of the information processing apparatus 1 according to the first embodiment. And a detailed description of each member will be omitted. Also, it is assumed that the encoded video signal to be subjected to the recording processing of the second embodiment is transmitted with the same title and scene configuration as in the example shown in FIG.
- each title is recorded in the HD 13a as it is received, and the same is recorded during the reproduction process.
- all scenes are recorded for each title, and after the scenes have been recorded, the scenes are replayed. , One of the scenes having the same content is deleted. Then, as a reproduction process of each title, a reproduction process is performed in the same recording order as in the related art.
- the definitions of parameters I and L are the same as those in the first embodiment.
- the parameter M is the same as that after deleting scenes having the same contents. Used in the process of moving up the scene number.
- the process shown in FIG. 9 includes a scene change detection process (steps S31 to S38) for identifying and detecting each scene in the received encoded video signal, and a process for detecting each of the detected scenes. Are compared with each other to detect scenes having the same contents and delete one of them (steps S39 to S45), and a force.
- step S31 when the recording process according to the second embodiment is started, first, the received encoded video signals are recorded in the order of reception (step S31), and the recording process is continued. It is checked whether or not it is the first recording of the program (step S32). And the first If the recording is to be performed (step S32; YES), the parameter N is initialized (step S33), and it is confirmed whether or not the recording of all the encoded video signals to be recorded at that time has been completed. (Step S34).
- step S32 if it is not the first recording in the determination in step S32 (step S32; NO), the flow shifts to step S34 using the value of the parameter N recorded at that time.
- step S34 the recording start position indicating the recording start position on the HD 13a of the encoded video signal corresponding to title 1
- the information is recorded as a start address of the scene with the scene number "1" in a memory area (not shown) in the recording Z playback control unit 14 (step S35), and then the currently recorded frame of the encoded video signal is recorded.
- step S36 the scene change detecting unit 16 checks whether or not a force has caused a scene change (step S36).
- step S36 If a scene change is not detected (step S36; NO), the reception and recording processing of the encoded video signal is continued as it is, while if a scene change is detected (step S36; YES), Since one scene has been detected just before the scene change, the position information indicating the timing of the detected scene change is recorded in the memory as the end address of the scene with the scene number "1".
- the parameter N is incremented (step S37), and the process returns to step S34 to detect the next scene in the continuously received encoded video signal.
- steps S34 to S37 are performed for all the coded video signals received.
- the recording position of the last recorded encoded video signal on the HD 13a constitutes the encoded video signal.
- the last scene number of the scene to be recorded is recorded in the memory as the end address of the scene, and the parameter N at that time is incremented (step S38).
- step S38 When all scenes are detected for each title recorded on the HD 13a (step S38), next, "2 total” scenes are set as comparison standards in the same scene detection process. It is confirmed whether or not there is a key (step S39) .Since the scene with the scene number “1” is currently used as the reference (step S39; NO), it is used as the reference at that time. For scenes, whether the scenes up to the last scene number (current parameter N is the value of “total number of scenes + 1”! /, ⁇ ) after the scene that is the reference standard were compared and compared. Confirm whether or not (step S40).
- step S40 the scene of the scene number "2" is currently the comparison target (step S39; NO).
- the same scene detector 17 confirms the identity of the scene with the scene of the scene number “2” that is currently compared and compared (step S41).
- the scene with the current scene number “1” is not the same as the scene with the scene number “2” (see FIG. 4; step S41; NO).
- Steps S40 and S41 described above are repeated using the scene “3” as a comparison.
- step S40; YES when scenes of scene numbers “5” and “9” are compared, the current comparison reference is used. (See Figure 4; step S41; YES), which corresponds to scenes with scene numbers "5" and "9” to be compared.
- the video signal to be encoded is deleted from the HD 13a (step S42).
- Step S43 a parameter M indicating the number of the scene whose scene number is to be incremented after the scene is deleted is checked, and whether or not the deleted scene force is the force for which the scene number incrementing process has been completed up to the last scene ( (Step S43) If it is not completed, for one scene from which the encoded video signal has been deleted in Step S42, the start address and the end address of the next scene of the scene are replaced by the encoded video signal, respectively.
- the scene number is substantially increased by copying the deleted scene as the start address and end address (step S45), and this processing is performed from the scene from which the encoded video signal is deleted. And repeat (step S43).
- step S43 When the carry-up process of the scene number for one deleted scene is completed (step S43; YES), the current value of the parameter N is decremented (step S44), and the process returns to step S40 again.
- step S40 After the scene of the scene number "1" serving as the comparison reference is compared with another scene (step S40; YES), the number of the scene serving as the comparison reference is incremented, and the next scene is incremented.
- the processing of steps S40 to S45 described above is executed using the scene of number “2” as a comparison reference. Thereafter, the other scenes are repeatedly set as the comparison reference for one comparison reference scene, and after all the scenes are set as the comparison reference (step S39; YES), the recording process according to the second embodiment ends.
- the same scene is detected from all recorded scenes, and one of the same detected scenes is deleted to increase the scene number.
- the scene numbers are serialized with the scene numbers “4”, “5”, “6”, “8”, “9”, and “10” deleted. Will be recorded on HD 13a.
- the present application can be variously modified without being limited to the above embodiments.
- the power of receiving a radio wave such as a BS digital broadcast and acquiring a video signal or the like is also used.
- the radio wave of an analog terrestrial TV broadcast, the Internet or a dedicated line is used. Get video signals from the server VOD (Video On Demand) via the Internet.
- VOD Video On Demand
- a program corresponding to the flowcharts shown in FIGS. 5, 7, and 9 is recorded on an information recording medium such as a flexible disk or HD, or the program is obtained via a network such as the Internet.
- the microcomputer can be made to function as the recording Z reproduction control unit 14 or the like according to the embodiment.
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- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Multimedia (AREA)
- Television Signal Processing For Recording (AREA)
- Management Or Editing Of Information On Record Carriers (AREA)
- Indexing, Searching, Synchronizing, And The Amount Of Synchronization Travel Of Record Carriers (AREA)
Abstract
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JP2006229566A (ja) * | 2005-02-17 | 2006-08-31 | Sony Corp | 再生装置、再生方法、再生プログラム、記録再生装置および記録再生方法 |
JP2009124693A (ja) * | 2007-10-25 | 2009-06-04 | Hitachi Ltd | 録画装置及びコンテンツ管理方法 |
JP2015119286A (ja) * | 2013-12-17 | 2015-06-25 | 株式会社Nttぷらら | コンテンツサーバ、コンテンツ再生装置、コンテンツ再生制御方法、コンテンツ再生制御プログラム |
JP2018526837A (ja) * | 2015-07-31 | 2018-09-13 | ロヴィ ガイズ, インコーポレイテッド | メディアのシーケンスを消費するときのユーザ視聴経験を向上させるための方法 |
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JP2001266548A (ja) * | 2000-03-24 | 2001-09-28 | Toshiba Corp | 映像音声データ記録管理方法 |
JP2003052005A (ja) * | 2001-08-06 | 2003-02-21 | Sony Corp | 信号処理方法及び信号処理装置 |
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JP2000132951A (ja) * | 1998-10-23 | 2000-05-12 | Sony Corp | 再生装置 |
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JP2001266548A (ja) * | 2000-03-24 | 2001-09-28 | Toshiba Corp | 映像音声データ記録管理方法 |
JP2003052005A (ja) * | 2001-08-06 | 2003-02-21 | Sony Corp | 信号処理方法及び信号処理装置 |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2006229566A (ja) * | 2005-02-17 | 2006-08-31 | Sony Corp | 再生装置、再生方法、再生プログラム、記録再生装置および記録再生方法 |
JP2009124693A (ja) * | 2007-10-25 | 2009-06-04 | Hitachi Ltd | 録画装置及びコンテンツ管理方法 |
JP2015119286A (ja) * | 2013-12-17 | 2015-06-25 | 株式会社Nttぷらら | コンテンツサーバ、コンテンツ再生装置、コンテンツ再生制御方法、コンテンツ再生制御プログラム |
JP2018526837A (ja) * | 2015-07-31 | 2018-09-13 | ロヴィ ガイズ, インコーポレイテッド | メディアのシーケンスを消費するときのユーザ視聴経験を向上させるための方法 |
US11032611B2 (en) | 2015-07-31 | 2021-06-08 | Rovi Guides, Inc. | Method for enhancing a user viewing experience when consuming a sequence of media |
US11523182B2 (en) | 2015-07-31 | 2022-12-06 | Rovi Guides, Inc. | Method for enhancing a user viewing experience when consuming a sequence of media |
US11849182B2 (en) | 2015-07-31 | 2023-12-19 | Rovi Guides, Inc. | Method for providing identifying portions for playback at user-selected playback rate |
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JP4675885B2 (ja) | 2011-04-27 |
JPWO2005101824A1 (ja) | 2008-07-31 |
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