JP3921887B2 - Recording / reproducing apparatus and recording / reproducing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a first recording / reproducing apparatus for recording and / or reproducing data via a large-capacity recording medium such as a video tape recorder and a high-speed accessible recording medium such as a hard disk drive or a semiconductor memory. The present invention relates to a recording / reproducing apparatus and a recording / reproducing method for seamlessly recording and / or reproducing data by using a second recording / reproducing apparatus for recording and / or reproducing data together.
[0002]
[Prior art]
Conventionally, video tape recorders (hereinafter referred to as VTRs) using magnetic tape as a recording medium have been widely used as video / audio recording apparatuses. This VTR has an excellent feature that it has a larger storage capacity than a magnetic disk device and can record a video signal with a large amount of information for a long time. However, compared with, for example, a hard disk drive (hereinafter referred to as HDD) or a semiconductor memory, the VTR is remarkably superior in terms of storage capacity, but has a drawback that random access is not possible. Therefore, in the conventional VTR, when a recorded program is reproduced, a waiting time for rewinding the tape to a predetermined part is required.
[0003]
Therefore, in order to continuously record and / or reproduce data for a long time, a VTR having a large storage capacity is used. Further, in order to simultaneously record and / or reproduce data, high-speed accessibility is achieved. For example, excellent HDDs or semiconductor memories have been used.
[0004]
[Problems to be solved by the invention]
By the way, improvement in high-speed accessibility and increase in storage capacity in a recording / reproducing apparatus are in a trade-off relationship, and conventionally, high-speed accessibility and large capacity cannot be satisfied at the same time. Conventionally, even in a system that has both high-speed accessible disk media and large-capacity tape media, discrete computer data is recorded on the disk media, and continuous video and music data is recorded on the tape media. For example, it is difficult to store a large amount of video and music information and perform cueing at a high speed because the media is properly used depending on the content attributes.
[0005]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a recording / recording that can be seamlessly recorded and / or reproduced via a large-capacity recording medium such as a tape-shaped recording medium and a high-speed accessible recording medium such as a hard disk. To provide a reproducing apparatus and a recording / reproducing method.
[0006]
Another object of the present invention is that high-speed access and / or random access is possible without being conscious of the fact that a plurality of types of recording media are used, and has a large storage capacity and good operability. To provide a recording / reproducing apparatus and a recording / reproducing method.
[0007]
[Means for Solving the Problems]
The recording / reproducing apparatus according to the present invention includes a first recording / reproducing means for recording and / or reproducing data via a large-capacity recording medium, and a data recording and / or reproducing via a high-speed accessible recording medium. When recording and / or reproducing data with the second recording / reproducing means for performing reproduction, the data at the head portion is recorded and / or recorded via a recording medium that can be accessed at high speed by the second recording / reproducing means. The operation of the first and second recording / reproducing means is switched so that the data following the head portion is recorded and / or reproduced via the large-capacity recording medium by the first recording / reproducing means. Control means, wherein the control means records the first and second data such that the data of the head portion and the data following the head portion are partially overlapped and recorded on a high-speed accessible recording medium and a large-capacity recording medium. Switching the operation of the recording / reproducing means, The entire program is recorded by the first recording / reproducing means, the head portion of the program is recorded by the second recording / reproducing means, The first and second recording / reproducing means perform seamless data recording and / or reproduction.
[0008]
The present invention also provides a first recording / reproducing means for recording and / or reproducing data via a large-capacity recording medium and a first recording / reproducing means for recording and / or reproducing data via a high-speed accessible recording medium. The operation of the recording / reproducing means 2 is switched based on the time information added to the data to be recorded and / or reproduced, and the head portion data is recorded and / or reproduced via the recording medium which can be accessed at high speed. A recording / reproducing method for performing seamless recording and / or reproduction of the data by recording and / or reproducing data following the leading part via a large-capacity recording medium, The operation of the first and second recording / reproducing means is switched so that the data following the head portion is partially overlapped and recorded on a high-speed accessible recording medium and a large-capacity recording medium, The entire program is recorded by the first recording / reproducing means, the head portion of the program is recorded by the second recording / reproducing means, The data is recorded and / or reproduced seamlessly.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0010]
The present invention is applied to, for example, a recording / reproducing apparatus configured as shown in FIG.
[0011]
The recording / reproducing apparatus 100 shown in FIG. 1 performs recording / reproduction of a video / audio signal (hereinafter referred to as an AV signal), and includes a first signal input / output terminal 1 for analog input / output, and digital input / output. The second signal input / output terminal 2, the encoding / decoding unit 3 connected to the first signal input / output terminal 1, and the signal switching connected to the second signal input / output terminal 2 and the encoding / decoding unit 3 Unit 4, time information adding unit 5 connected to the signal switching unit 4, first and second buffer memories 6 and 7, first and second time information detecting units 8 and 9, and time information adding unit 5 Connected to the time information generating unit 10, the first and second recording / reproducing units 11 and 12 connected to the first and second buffer memories 6 and 7, and the first and second buffer memories 6 , 7 and the first and second recording / reproducing units 1 Comprises, system controller 13, the synchronization detecting unit 14 connected to the system controller 13 that controls the 12.
[0012]
The encoding / decoding unit 3 switches the operation mode by the system controller 13, and for the analog AV signal input / output via the first signal input / output terminal 1, the input AV signal is digitally recorded for recording in the recording mode. An AV signal is encoded and supplied to the signal switching unit 4. In the reproduction mode, the reproduction digital AV signal supplied from the signal switching unit 4 is decoded and an analog AV signal is output via the first signal input / output terminal 1. Output a signal.
[0013]
The signal switching unit 4 switches between the first changeover switch 4A for switching between the second signal input / output terminal 2 and the encoding / decoding unit 3, and the first and second buffer memories 6 and 7. It consists of a second changeover switch 4B. The first switch 4A is controlled by the system controller 13 so as to select the encode / decode unit 3 in the analog mode and to select the second signal input / output terminal 2 in the digital mode. The movable terminal of the first changeover switch 4A is connected to the movable terminal of the second changeover switch 4B and to the time information adding unit 5. The second changeover switch 4B is a reproduction digital AV signal output from the first and second recording / reproduction units 11 and 12 via the first and second buffer memories 6 and 7 in the reproduction mode. Are switched by the synchronization detection unit 14 connected to the system controller 13 so as to be switched seamlessly.
[0014]
The time information adding unit 5 adds the time information given by the time information generating unit 10 to the recording digital AV signal supplied via the first changeover switch 4A of the signal switching unit 4 in the recording mode. The digital AV signal with the time information added is supplied to the first and second buffer memories 6 and 7.
[0015]
The first and second buffer memories 6 and 7 store the digital AV signal to which the time information is added by the time information adding unit 5 in the recording mode, in which data writing / reading is controlled by the system controller 13. The time axis is corrected and supplied to the first and second recording / reproducing units 11 and 12, and the reproduced digital AV signal obtained by the first and second recording / reproducing units 11 and 12 in the reproduction mode. Is stored and corrected with time axis.
[0016]
The first recording / reproducing unit 11 is composed of, for example, a digital tape recorder (DVR) that performs recording / reproduction of a digital AV signal using a tape medium having a large storage capacity as a recording medium. The playback operation is controlled by the system controller 13.
[0017]
The second recording / reproducing unit 12 includes, for example, a hard disk drive (HDD) that performs recording / reproducing of digital AV signals using a disk medium having excellent high-speed accessibility as a recording medium. The recording operation and the reproducing operation are controlled by the system controller 13.
[0018]
The first and second time information detectors 8 and 9 detect time information added to the reproduction digital AV signal output via the first and second buffer memories 6 and 7 in the reproduction mode. Then, the detected time information is supplied to the system controller 13.
[0019]
The system controller 13 includes, for example, a CPU (Central Processing Unit), reads a control program from a memory (not shown), and performs control operations according to various operation modes based on the read control program.
[0020]
That is, the system controller 13 selects the encode / decode unit 3 in the analog mode according to the mode setting for selecting whether the AV signal handled by the recording / reproducing apparatus 100 is an analog AV signal or a digital AV signal. In the digital mode, switching control is performed so that the second signal input / output terminal 2 is selected.
[0021]
When the recording mode is set, the system controller 13 causes the encoding / decoding unit 3 to function as an encoder, and the recording digital AV signal to which time information is added by the time information adding unit 5 is Digital AV signals for the first and second buffer memories 6 and 7 to be supplied to the first and second recording / reproducing units 11 and 12 via the first and second buffer memories 6 and 7. Control writing / reading. In the recording mode, the system controller 13 controls the writing / reading of the digital AV signal with respect to the first and second buffer memories 6, 7, thereby the first and second recording / reproducing units 11, 12. The time axis of the digital AV signal is corrected so that it can be recorded. Further, the system controller 13 controls the switching of the second selector switch 4B of the signal switching unit 4 in order to seamlessly record the digital AV signal by the first and second recording / reproducing units 11 and 12. The first and second recording / reproducing units 11 and 12 are controlled to switch the recording operation. For example, as shown in FIG. 2, the first recording / reproducing using a tape medium having a large storage capacity as a recording medium is performed. The entire program A, B, C, D is recorded by the unit 11, and the head of each program A, B, C, D is recorded by the second recording / reproducing unit 12 that uses a disk medium having excellent high-speed accessibility as a recording medium. Record parts a, b, c, d.
[0022]
The length of the head portion of the program recorded by the second recording / reproducing unit 12 is an amount obtained by adding a slight margin to the high-speed access time that takes the longest time for recording by the first recording / reproducing unit 11. .
[0023]
Further, when the reproduction mode is set, the system controller 13 causes the encoding / decoding unit 3 to function as a decoder, and sets the first and second recording / reproducing units 11 and 12 to a reproduction operation state. The first and second recording / reproducing units 11 and 12 reproduce digital AV signals obtained by the first and second buffer memories 6 and 7 and supply them to the signal switching unit 4. Controls writing / reading of digital AV signals to the first and second buffer memories 6 and 7. In the reproduction mode, the system controller 13 outputs each time information detected by the first and second time information detectors 8 and 9, that is, via the first and second buffer memories 6 and 7. The time information added to the reproduced digital AV signal is monitored, and the time interval of the reproduced digital AV signal obtained by the first and second recording / reproducing units 11 and 12 is the same as that at the time of recording. As described above, the writing / reading of the reproduction digital AV signal to the first and second buffer memories 6 and 7 is controlled. Then, the system controller 13 performs switching control of the second changeover switch 4B of the signal switching unit 4 and switching control of the reproduction operation of the first and second recording / reproducing units 11 and 12, and the signal A seamless playback digital AV signal is output from the switching unit 4.
[0024]
In this recording / reproducing apparatus 100, for example, as shown in FIG. 3, when the initial tape position Pin in the first recording / reproducing unit 11 is in the middle of the program A, there is a reproduction request for the program C. In the first recording / reproducing unit 11, the program C on the tape from the initial tape position Pin cannot be reproduced immediately because the tape position is different. The program C is reproduced by accessing the tape position of the program C at high speed. Will do. Therefore, the second recording / reproducing unit 12 immediately reproduces the reproduction of the head part c of the program C and outputs it via the second buffer memory 7. Then, the first recording / reproducing unit 11 accesses the tape position of the program C at high speed during the period in which the second recording / reproducing unit 12 is reproducing the head portion c of the program C, and the predetermined tape position. When it comes to Ppb, the program C is reproduced and outputted through the first buffer memory 7. That is, the system controller 13 performs seamless playback of the program C by switching the operation modes of the first and second recording / reproducing units 11 and 12 on the time axis as shown in FIG.
[0025]
In the recording / reproducing apparatus 100, seamless reproduction is performed according to the procedure shown in the flowchart of FIG.
[0026]
That is, when the system controller 13 in the recording / reproducing apparatus 100 enters the reproduction mode in response to a reproduction request of the program C, for example, the second recording / reproducing unit 12 immediately reproduces the head part c of the program C. Then, the data string at the head part c of the program C is output from the second buffer memory 7 via the signal switching part 4 (step S1).
[0027]
Next, the system controller 13 grasps the tape position at which the tape is decelerated from the high speed search (step S2), and performs the high speed search by the first recording / reproducing unit 11 (step S3).
[0028]
Next, the system controller 13 repeatedly determines whether or not a predetermined deceleration position has been reached (step S4). When the system controller 13 reaches the predetermined deceleration position, the system controller 13 decelerates (step S5), waits for a predetermined time, and plays the reproduction data. 1 is stored in one buffer memory (step S6).
[0029]
That is, as shown in FIG. 6, when the data string of the program C is a number (7, 8, 9...), The system controller 13 immediately responds to the second request in response to the reproduction request of the program C. The data string (7, 8, 9,...) Of the head portion c of the program C reproduced by the recording / reproducing unit 12 is output via the second buffer memory 7, and the first recording / reproducing unit in the meantime 11, the program C is accessed at high speed to the tape position of the program C, and reproduction of the data string of the program C is started from the number (16), for example.
[0030]
Next, the system controller 13 reads the time information of the data string of the program C output via the second buffer memory 7 and the data of the program C output via the first buffer memory 7. It is determined whether or not the time information of the columns match (step S7).
[0031]
The determination in step S4 is NO, that is, the time information of the data sequence of the program C output via the first buffer memory 7 and the data sequence of the program C output via the second buffer memory 7 If the time information does not coincide with the time information, the system controller 13 controls reading of data from the first buffer memory 6 according to the delay amount or advance amount of the time information (step S8). Then, the determination in step S4 is YES, that is, the time information of the data string of the program C output via the first buffer memory 7 and the program C output via the second buffer memory 7 If it matches the time information of the data string, the system controller 13 gives a signal indicating that to the synchronization detector 14 and is output from the first recording / reproducing unit 11 via the first buffer memory 7. Switching control of the second selector switch 4B of the signal switching unit 4 is performed so that the data string of the program C is output as a reproduced digital AV signal (step S9).
[0032]
Thereafter, the reproduction of the head portion c of the program C by the second recording / reproducing unit 12 is stopped (step S10).
[0033]
In order to perform such a seamless reproduction operation, the first recording / reproducing unit 11 performs high-speed access to the tape and the data in the head portion corresponding to the time required to reach a predetermined position is recorded in the second recording. / The disk needs to be accessed and played by the playback unit 12. The minimum recording area necessary for the seamless reproduction operation is called a minimum recording area (RDA: Requisite Data area for tape fast access).
[0034]
Here, seamless recording cannot be performed by the recording method shown in FIG. That is, for example, as shown in FIG. 7, when the tape position is in the middle of program A and recording is performed after program B, recording on the tape cannot be performed while the tape is being accessed. Although it is possible to store data on the way of accessing the tape somewhere and insert it on the tape later, it is not easy to control so that the joints of the tape tracks can be kept continuous.
[0035]
Therefore, in the recording / reproducing apparatus 100, when performing seamless recording, for example, as shown in FIG. 8, one program P is completely divided into a head part PA and a main body part PB other than the head part PA, While the first recording / reproducing unit 11 is accessing at high speed, the second recording / reproducing unit 12 records the head portion PA, and when the high-speed access is completed, the first recording / reproducing unit 11 uses the first recording / reproducing unit 11 to Record. The length of the head portion PA recorded by the second recording / reproducing unit 12 is equal to the fastest access time that takes the longest time by the first recording / reproducing unit 11. With this method, for example, as shown in FIG. 9, when the tape position is in the middle of the program A and the program C is recorded after the program B, the head of the program B recorded by the second recording / reproducing unit 12 is recorded. The first part c of the program C is recorded after the part b, and the first recording / reproducing part 11 can perform high speed access and seamless recording during that period.
[0036]
In this method, one program P is completely divided into the head part PA and the main body part PB other than the head part PA, and data is not recorded redundantly, so that the amount of media used is minimized. Can do.
[0037]
Further, as shown in FIG. 8 described above, one program P is not completely divided into the head part PA and the main body part PB other than the head part PA, but as shown in FIG. In the middle of high-speed access of the playback unit 11, the head part PA recorded by the second recording / playback unit 12 and the main body part PB recorded by the first recording / playback unit 11 when the high-speed access is completed If data that partially overlaps (RRD: Redundant Recording Data) is used, the amount of media used is not minimized, but a switching margin can be secured to ensure seamless switching during playback. In this case, the length of the head portion PA recorded by the second recording / reproducing unit 12 is equal to the length obtained by adding a margin to the fastest access time that takes the longest time by the first recording / reproducing unit 11.
[0038]
The recording / reproducing apparatus 100 performs seamless recording according to the procedure shown in the flowchart of FIG. Here, for example, as shown in FIG. 11, the seamless recording operation will be described by taking as an example a case where the tape position is in the middle of the program A and the user records the program C after the program B.
[0039]
That is, when the system controller 13 in the recording / reproducing apparatus 100 enters the recording mode in response to the recording request of the program C, the system controller 13 immediately starts the recording operation of the second recording / reproducing unit 12 and The data string at the head part c is recorded after the program B on the disk side via the second buffer memory 7 (step S21).
[0040]
Next, the system controller 13 grasps the end position of the program B on the tape, grasps the tape position where the tape is decelerated from the high-speed search (step S22), and the first recording / reproducing unit 11 A high speed search is performed (step S23).
[0041]
Next, the system controller 13 repeatedly determines whether or not a predetermined deceleration position has been reached (step S24). When the system controller 13 reaches the predetermined deceleration position, the system controller 13 decelerates (step S25), and the first recording / reproducing unit 11 Thus, the tape is reproduced and the data to be recorded is stored in the first buffer memory 6 (step S26).
[0042]
Then, the system controller 13 determines whether or not the first recording / reproducing unit 11 reproduces the tape and reaches the end position of the program B (step S27).
[0043]
If the determination in step S27 is NO, that is, if the end position of the program B has not been reached on the tape, the system controller 13 repeats the determination process in step S27, and the determination is YES, that is, the program on the tape When the end position of B is reached, predetermined data is read from the first buffer memory 6, and the first recording / reproducing unit 11 records the program C after the program B on the tape (step S28).
[0044]
When the system controller 13 reaches the predetermined recording position on the disk side, the recording of the head portion c of the program C by the second recording / reproducing unit 12 is finished (step S29).
[0045]
In this recording / reproducing apparatus 100, as shown in FIG. 13, after the tape feed speed V [m / s] reaches the reproducing speed Vp, the recording / reproducing apparatus 100 performs seamless recording / reproducing by reproducing for a certain time Tr. The data should be ready. The first buffer memory 6 has a Tready (worst) -Tready (best) time determined by mechanical variations of an access mechanism that performs high-speed access to the tape position of the target program on the tape in the first recording / reproducing apparatus 100. Minimum storage capacity is required. The high-speed access control of the tape position in the first recording / reproducing apparatus 100 manages only the deceleration point of the high-speed access to the access mechanism and absorbs the fine adjustment amount near the target position by the first buffer memory 6. To do.
[0046]
When the data to be recorded / reproduced is an MPEG transport stream, the recording / reproducing apparatus 200 configured as shown in FIG. 14 can perform the same operation as that of the recording / reproducing apparatus 100.
[0047]
That is, since the MPEG transport stream includes a program clock reference (PCR) indicating time information, the time information in the recording / reproducing apparatus 100 described above is detected by detecting this PCR. Used as
[0048]
In the recording / reproducing apparatus 200 shown in FIG. 14, the time information adding unit 5 and the time information generating unit 10 in the recording / reproducing apparatus 100 are omitted, and the first and second time information detecting units 8 and 9 are replaced. Since the PCR detection units 208 and 209 are used and other components are the same as those of the recording / reproducing apparatus 100, the same reference numerals are given in FIG.
[0049]
In the recording / reproducing apparatus 200, the system controller 13 monitors the PCR detected by the first and second PCR detection units 208 and 209 and controls the read timing of the first buffer memory 6 in the reproduction mode. Then, while returning to the same time interval as at the time of recording, the buffer control is performed so that the PCRs detected by the first and second PCR detection units 208 and 209 coincide with each other, thereby performing seamless reproduction.
[0050]
【The invention's effect】
As described above, according to the recording / reproducing apparatus and the recording / reproducing method of the present invention, data recording and recording can be performed seamlessly via a large-capacity recording medium such as a tape-shaped recording medium and a high-speed accessible recording medium such as a hard disk. One type of recording medium capable of high-speed access and / or random access and having a large storage capacity without being aware that a plurality of types of recording media can be used. The operation can be performed in the same manner as in the case of use, and the operability can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a recording / reproducing apparatus to which the present invention is applied.
FIG. 2 is a diagram schematically showing a basic data recording method in the recording / reproducing apparatus.
FIG. 3 is a diagram schematically showing a method of seamless reproduction of data in the recording / reproducing apparatus.
FIG. 4 is a diagram schematically showing the operation modes of the first and second recording / reproducing units in the seamless reproduction on the time axis.
FIG. 5 is a flowchart showing an algorithm of a seamless reproduction operation in the recording / reproducing apparatus.
FIG. 6 is a diagram schematically showing a specific example of a seamless reproduction operation in the recording / reproducing apparatus.
FIG. 7 is a diagram schematically showing a problem in the case of seamless recording in the recording / reproducing apparatus.
FIG. 8 is a diagram schematically showing a basic method of seamless recording of data in the recording / reproducing apparatus.
FIG. 9 is a diagram schematically showing a specific example of seamless recording of data in the recording / reproducing apparatus.
FIG. 10 is a diagram schematically showing another basic method of seamless recording of data in the recording / reproducing apparatus.
FIG. 11 is a diagram schematically showing a specific example of seamless recording of data in the recording / reproducing apparatus.
FIG. 12 is a flowchart showing an algorithm of seamless recording operation in the recording / reproducing apparatus.
FIG. 13 is a diagram schematically showing a tape feeding control method in the recording / reproducing apparatus.
FIG. 14 is a block diagram showing a configuration of a recording / reproducing apparatus for recording / reproducing an MPEG transport stream.
[Explanation of symbols]

Claims (4)

First recording / reproducing means for recording and / or reproducing data via a large-capacity recording medium, and second recording / reproducing means for recording and / or reproducing data via a high-speed accessible recording medium When recording and / or reproducing data, the head portion data is recorded and / or reproduced via a recording medium that can be accessed at high speed by the second recording / reproducing means, and the data following the head portion is recorded. Control means for switching the operations of the first and second recording / reproducing means so that the first recording / reproducing means records and / or reproduces via a large-capacity recording medium;
The control means includes the first and second recording / reproducing means so as to record the data of the head portion and the data following the head portion on a recording medium and a high-capacity recording medium that can be accessed at a high speed by partially overlapping the data. The first recording / reproducing means records the entire program, the second recording / reproducing means records the beginning of the program, and the first and second recording / reproducing means A recording / reproducing apparatus for performing seamless recording and / or reproduction of data. The length of the head portion of the program recorded by the second recording / reproducing means is an amount obtained by adding a slight margin to the high-speed access time that takes the longest time for recording by the first recording / reproducing means. 2. The recording / reproducing apparatus according to claim 1, wherein   Data writing and reading are controlled by the control means, and a buffer memory for temporarily storing data to be recorded and / or reproduced by the first and second recording / reproducing means is provided, and the first and second 2. The recording / reproducing apparatus according to claim 1, wherein the recording / reproducing means performs seamless recording and / or reproduction of data via the buffer memory. First recording / reproducing means for recording and / or reproducing data via a large-capacity recording medium, and second recording / reproducing means for recording and / or reproducing data via a high-speed accessible recording medium Is switched based on the time information added to the data to be recorded and / or reproduced, and the data in the head part is recorded and / or reproduced via the recording medium that can be accessed at high speed. A recording / reproducing method for recording and / or reproducing subsequent data via a large-capacity recording medium and performing seamless recording and / or reproduction of the data,
The operation of the first and second recording / reproducing means is switched so as to record data on a high-speed accessible recording medium and a large-capacity recording medium by partially overlapping the data of the head part and data following the head part, The entire program is recorded by the first recording / reproducing means, and the head portion of the program is recorded by the second recording / reproducing means, so that the data can be seamlessly recorded and / or reproduced. Recording / playback method.

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