JP3540706B2 - Information receiving / recording / reproducing device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information receiving / recording / reproducing apparatus that realizes time-shift reproduction using a disk recording medium that can be accessed randomly, and particularly when executing special reproduction such as high-speed forward reproduction or high-speed reverse reproduction, input When changing from a state in which the video and audio signal is reproduced in real time to a special reproduction and from the special reproduction to a state in which the input video and audio signal is reproduced in real time, it has a feature of realizing smooth switching of the reproduction state.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as an information receiving / recording / reproducing apparatus for realizing time shift reproduction using a random accessible disk recording medium, a television program is recorded in real time as described in JP-A-7-30851. Methods and devices for playing at any time are known.
[0003]
Hereinafter, the configuration and operation of the information receiving / recording / reproducing apparatus according to the related art will be described with reference to FIG.
[0004]
As shown in the figure, a conventional information receiving / recording / reproducing apparatus includes a time shift unit 1900 for temporarily recording and reproducing an analog input video signal such as a television broadcast, and a video output from the time shift unit 1900. The switching unit 1908 is configured to receive an input of a signal and a video signal transmitted in real time and selectively output one of them, and a display unit that displays the video signal output from the switching unit 1908. .
[0005]
Next, processing of the input video signal in the time shift means 1900 is as follows. That is, the AD converter 1901 converts the video signal into a digital signal, and the compression processing unit 1903 compresses the digitally converted video data and records the compressed data in a recording device 1904 that is a recording medium that can be accessed randomly. Here, the video data recorded in the recording device 1904 can be read at any time.
[0006]
The video data recorded in the recording device 1904 at an arbitrarily settable time at which reproduction is desired is output to the decompression processing unit 1905. Next, the video data is expanded from the compressed state by the expansion processing unit 1905, the digital video data is converted into an analog video signal by the DA converter 1907, and output to the switching unit 1908.
[0007]
[Problems to be solved by the invention]
By the way, in an apparatus using a recording medium such as a magnetic disk and a magneto-optical disk, which is randomly accessible, which is an example of the time shift reproducing means 1900, reproduction pause, forward high-speed reproduction, forward slow reproduction, reverse Special reproduction such as high-speed reproduction can be easily realized.
[0008]
Means for reproducing the video and audio data recorded on such a recording medium, that is, when viewing the video and audio signal by constantly using the time shift reproducing means 1900, when switching the reproduction state from normal reproduction to the special reproduction, or When switching the reproduction state from the special reproduction to the normal reproduction, the reproduction state can be smoothly switched.
[0009]
However, between the input video / audio signal originally transmitted in real time and the video / audio signal output from the time shift reproducing means 1900 for reproducing data once recorded on the recording medium, the time shift reproducing means 1900 side Since the time lag due to the signal processing time occurs, it may be difficult to smoothly switch the playback state when the time shift playback unit 1900 is always used.
[0010]
For example, when the input video / audio signal is a television broadcast, when the channel to be viewed (at a television station) is switched, the output is switched from the input video / audio signal transmitted in real time to the video / audio signal output from the time shift unit 1900. Is performed, it takes time to process the signal of the switched channel before the video / audio signal is output from the time shift unit 1900. This processing time is the time of the time lag, during which a blank screen is displayed on the display unit 1909, and as a result, the input video and audio signals are not smoothly switched.
[0011]
The switching unit 1908 responds to the above situation, and a time lag occurs in consideration of the reproduction state of the two means, the time shift reproduction unit 1900 and the unit for reproducing the input video / audio signal in real time. The input of a signal from a means for reproducing in real time at a timing is received so that both signals are switched.
[0012]
However, when switching from normal playback to special playback is performed, that is, when shifting from a state in which the input video / audio signal is played in real time to a state in which reverse high-speed playback or forward low-speed playback is performed, or from a recording medium. When switching from the forward high-speed reproduction to the real-time reproduction of the input video / audio signal is performed, even with the above method, the influence of the time lag cannot be removed, and a smooth reproduction state switching can be realized. Can not.
[0013]
The present invention has been made in view of the above-described problems, and has been made to be able to smoothly switch a reproduction state without giving a user a sense of incongruity and to switch an input video / audio signal due to the influence of the time lag. It is an object of the present invention to provide an information receiving / recording / reproducing apparatus.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, a first present invention (corresponding to claim 1) is an information receiving / recording / reproducing apparatus for performing time-shift reproduction for temporarily recording and reproducing a video / audio signal,
Recording the video / audio signal for performing the time-shift reproduction operation, a first recording unit capable of random access, and a second recording unit capable of random access at a higher speed than the first recording unit;
Real-time transmission means for transmitting the video and audio signals in real time,
An information receiving / recording / reproducing apparatus comprising at least switching means for switching and outputting an output from the first recording means, an output from the second recording means, and an output from the real-time transmission means. is there.
[0015]
The second invention (corresponding to claim 2) is the invention as described above, wherein the switching means performs a switching operation based on a monitor state of the video / audio signal.
[0016]
Further, according to a third aspect of the present invention (corresponding to claim 3), the output from the second recording means is:
The present invention is characterized by being used at least during output switching between the output from the first recording means and the output from the real-time transmission means.
[0017]
In a fourth aspect of the present invention (corresponding to claim 4), an analog signal is input as the video / audio signal,
First encoding means for digitally encoding the analog signal to generate encoded data;
First decoding means for decoding the encoded data to obtain a digital signal, and converting the digital signal into an analog signal,
The present invention is characterized in that the first recording means and / or the second recording means record and reproduce the video / audio signal in the form of the encoded data and / or the digital signal.
[0018]
A fifth aspect of the present invention (corresponding to claim 5) receives digitally encoded data as the video / audio signal,
A second decoding unit that decodes the encoded data to obtain a digital signal and further converts the digital signal into an analog signal;
The present invention is characterized in that the first recording means and / or the second recording means record and reproduce the video / audio signal in the form of the encoded data and / or the digital signal. It is.
[0019]
According to a sixth aspect of the present invention (corresponding to claim 6), all or a part of the video signal / audio signal is extracted as a special reproduction signal to be used for special reproduction based on a reproduction state of the video / audio signal. Further comprising extraction means,
The present invention is characterized in that the second recording means records and reproduces the special reproduction signal.
[0020]
A seventh aspect of the present invention (corresponding to claim 7) is characterized in that the extraction means changes an interval of an extraction time of the signal for special reproduction according to a speed of special reproduction. The above is the present invention.
[0021]
An eighth aspect of the present invention (corresponding to claim 8) is the above-described aspect of the present invention, wherein the extracting means extracts the special reproduction signal at least in the form of the encoded data.
[0022]
According to a ninth aspect of the present invention (corresponding to claim 9), the extracting means extracts the special reproduction signal at least in the form of a digital signal before the encoded data is encoded. The present invention is described above.
[0023]
According to a tenth aspect of the present invention (corresponding to claim 10), the second recording means is configured to determine whether the encoded data as the special reproduction signal and the encoded data before encoding are based on a reproduction state of the video / audio signal. The present invention is characterized in that the order of reproducing digital data is changed.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
Hereinafter, first to fourth embodiments of the present invention will be described with reference to FIG. 1, FIG. 2, FIG. 3, FIG. 4, and FIG.
[0025]
Unlike the related art, the information receiving / recording / reproducing apparatus according to the first embodiment includes a means for recording and reproducing the input video / audio signal on a random accessible disk recording medium and reproducing the input video / audio signal. The present invention relates to an information receiving / recording / reproducing apparatus which prepares means for reproducing after recording on a semiconductor recording medium, and means for reproducing without recording on a recording medium, and switches and reproduces these reproducing means according to a reproducing state. .
[0026]
FIG. 1 is a block diagram of an information receiving / recording / reproducing apparatus when an analog video / audio signal is input according to an embodiment of the present invention. As shown in FIG. 1, 101 is an ADC (analog-digital converter), 102 is an encoding unit, 103 is a disk recording medium unit, 104 is a recording control unit, 105 is a semiconductor recording medium unit, and 106 is a switch of decoded data. 107, a switching control unit, 108, a decoding unit, 109, a DAC (digital-analog converter), 110, a user interface unit, 111, an output switching unit, and 112, a real-time transmission path.
[0027]
Next, the operation of the information receiving / recording / reproducing apparatus according to the present embodiment having the above configuration will be described. The input analog video / audio signal is converted into digital video / audio data by the AD converter 101. The digitized video / audio data is encoded by the encoding unit 102, and the encoded data is recorded by the disk recording medium unit 103 and the semiconductor recording medium unit 105. At this time, the data recording on the semiconductor recording medium unit 105 is an endless recording in which the latest data is overwritten at any time under the control of the recording control unit 104.
[0028]
Next, in accordance with the current playback state of the analog video / audio signal and an instruction such as a playback state change instruction from the user notified from the user interface section 110, the switching control section 107 switches the encoded data switching section 106 to output switching. The control of the unit 111 is performed.
[0029]
If the switching control unit 107 specifies that data from the disk recording medium unit 103 or the semiconductor recording medium unit 105 is to be reproduced, the encoded data read from the recording medium unit 103 or 105 is decoded. The digital data is sent to the decoding unit 108 and decoded, and the decoded digital data is converted into analog data by the DA conversion unit 109 and output as an analog video / audio signal.
[0030]
When the switching control unit 107 specifies that an analog video / audio signal is output in real time, the input analog video / audio signal is output as it is via the real-time transmission path 112.
[0031]
Next, FIG. 2 shows a relationship between the reproduction state in the switching control unit 107 and the control states of the encoded data switching unit 106 and the output switching unit 111.
[0032]
In FIG. 2, a reproduction state 201 indicates a current reproduction state of the video / audio signal or a transition of the reproduction state due to a reproduction state change instruction from the user notified from the user interface unit 110 or the like.
[0033]
The reproduction state is roughly classified into a real-time reproduction state and a recorded data reproduction state. The real-time reproduction state is a state in which an input video / audio signal is output as it is via the real-time transmission path 112. The state indicates a state in which the video and audio data read from the recording medium unit 103 or 105 is reproduced and output. All of the special reproduction states such as forward high-speed reproduction, reverse high-speed reproduction, and forward low-speed reproduction are included in the recorded data reproduction state.
[0034]
The decoded data switching unit control 202 indicates a control state of the decoded data switching unit 106 accompanying the reproduction state 201. The control state of the decrypted data switching unit control 202 includes control of setting to use data read from the disk recording medium unit 103 as a decoding target and data reading from the semiconductor recording medium unit 105 as a decoding target. This is the control of the setting to be used and the control state of switching between these two settings.
[0035]
An output switching unit control 203 indicates a control state of the output switching unit 111 accompanying the reproduction state 201. The control state of the output switching unit control 203 includes the control of setting the input video / audio signal as it is in real time via the real-time transmission line 112 and the setting of the video read from the recording medium unit 103 or 105. This is a control for setting the means for reproducing and outputting audio data, and a control state for switching between these two settings.
[0036]
Next, FIG. 3 is a chart showing a process at the time of transition from the recorded data reproduction state to the real time reproduction state due to catching up with the real time reproduction at the time of forward high speed reproduction in the reproduction state 201 in FIG.
[0037]
First, in the forward high-speed reproduction, the data in the disk recording medium unit 103 is reproduced until reproducible data remains in the disk recording medium unit 103 (steps 301 and 302). When there is no more reproducible data in the disk recording medium unit 103, it is checked whether or not reproduction is being performed simultaneously with recording (step 302).
[0038]
If the reproduction is not being performed simultaneously with the recording, the data stored and recorded previously has been reproduced, and the reproduction cannot be continuously performed.
[0039]
When the reproduction is performed at the same time as the recording, the reproduction is in a state of catching up with the real-time reproduction state by the forward high-speed reproduction. First, the switching control unit 107 changes the setting of the decrypted data switching unit 106 from using data from the disk recording medium unit 103 as a decoding target to using data from the semiconductor recording medium unit 105 as a decoding target. Then, control is performed to switch to the setting to be performed (step 304), and the data in the semiconductor recording medium unit 105 is reproduced until the reproducible data remains in the semiconductor recording medium unit 105 (step 305, step 307).
[0040]
When there is no more reproducible data in the semiconductor recording medium unit 105, the switching control unit 107 sets the output switching unit 111 to the unit for reproducing and outputting the video and audio data read from the recording medium. Then, control is performed to switch the setting to the means for outputting the input video / audio signal in real time without recording it on the recording medium, and the mode is switched to real-time reproduction (step 306).
[0041]
Next, FIG. 4 is a chart showing a process at the time of transition of the reproduction state from the real-time reproduction state to the recorded data reproduction state according to the reverse high-speed reproduction start command in the reproduction state 201 in FIG.
[0042]
When start of reverse high-speed playback is instructed, it is checked whether the current playback state is a real-time playback state (step 401). If the current playback state is not the real-time playback state, the setting of the decoded data switching unit 106 has already been set to use the data from the disk recording medium unit 103 as the object of decoding, and the setting of the output switching unit 111 has been set from the recording medium. Since the setting for the means for reproducing and outputting the read video / audio data is set, the switching control by the switching control unit 107 is not performed, and the data in the disk recording medium unit 103 is stored in the current setting. Reproduction is performed (step 407).
[0043]
When the current playback state is the real-time playback state, first, the switching control unit 107 changes the setting of the output switching unit 111 from the setting of the means for outputting the input video / audio signal in real time without recording it on the recording medium. Control is performed to switch the setting to the means for reproducing and outputting the video and audio data read from the recording medium unit, and the data from the semiconductor recording medium unit 105 is set with the setting of the decoding data switching unit 106 as the object of decoding. Control for setting to use is performed, and the state is switched to the recording data reproduction state (step 402).
[0044]
Next, the semiconductor recording medium unit 105 reproduces the data in the semiconductor recording medium unit 105 until reproducible data remains (steps 404 and 406). When there is no more reproducible data in the semiconductor recording medium unit 105, the switching control unit 107 changes the setting of the decoded data switching unit 106 to the setting of using the data from the semiconductor recording medium unit 105 as a decoding target. Then, control is performed to switch to a setting for using data from the disk recording medium unit 103 as a decoding target, and reproduction of data in the disk recording medium unit 103 is started (step 405). After that, the operations of step 407 and step 408 described above are performed.
[0045]
Next, FIG. 5 is a chart diagram showing processing at the time of transition of the reproduction state from the real-time reproduction state to the recorded data reproduction state in accordance with the forward low-speed reproduction start command in the reproduction state 201 in FIG.
[0046]
When the start of forward low-speed playback is instructed, it is checked whether the current playback state is a real-time playback state (step 501). If the current playback state is not the real-time playback state, the setting of the decoded data switching unit 106 has already been set to use data from the disk recording medium unit 103 as a decoding target, and the setting of the output switching unit 111 has been set to recording. Since the setting for the means for reproducing and outputting the video and audio data read from the medium unit is set, the switching control by the switching control unit 107 is not performed, and the current setting is stored in the disk recording medium unit 103. Is reproduced (steps 508 and 509).
[0047]
If the current reproduction state is the real-time reproduction state, first, the recording control unit 104 temporarily stops writing data to the semiconductor recording medium unit 105 (step 502). This is because the latest data is usually overwritten and recorded on the semiconductor recording medium unit 105 at any time, and is prevented from being overwritten on the latest data before reproducing data to be reproduced for low-speed reproduction.
[0048]
Subsequently, the setting of the output switching unit 111 was read from the recording medium unit by the switching control unit 107 from the setting of the means for outputting the input video / audio signal in real time without recording it on the recording medium unit. Control is performed to switch the setting to the means for reproducing and outputting the video and audio data, and control is performed to set the setting of the decoded data switching unit 106 to use the data from the semiconductor recording medium unit 105 as a decoding target. Then, the state is switched to the recording data reproduction state (step 503).
[0049]
Next, the data in the semiconductor recording medium unit 105 is reproduced until data that can be reproduced remains in the semiconductor recording medium unit 105 (steps 505 and 507). When there is no more reproducible data in the semiconductor recording medium unit 105, the switching control unit 107 changes the setting of the decoded data switching unit 106 to the setting of using the data from the semiconductor recording medium unit 105 as a decoding target. Then, control is performed to switch to a setting to use data from the disk recording medium unit 103 as a decoding target, and reproduction of data in the disk recording medium unit 105 is started (steps 508 and 509).
[0050]
As described above, according to the present embodiment, in order to reproduce an input analog video / audio signal, a means for reproducing after recording on a random accessible disk recording medium and a high speed accessible semiconductor recording medium A means for reproducing after recording and a means for reproducing without recording on a recording medium are prepared, and by switching these reproducing means according to the reproducing state and reproducing, information capable of smoothly switching the reproducing state. A receiving recording / reproducing device can be realized.
[0051]
(Embodiment 2)
Hereinafter, a fifth embodiment of the present invention will be described with reference to FIGS. 6, 7, 8, 9, and 10. FIG.
[0052]
The second embodiment is different from the first embodiment in that an analog video / audio signal is used as an input video / audio signal, but information reception / recording / reproduction is performed when a digitally encoded video / audio signal is used. It concerns the device.
[0053]
FIG. 6 is a block diagram showing an information receiving / recording / reproducing apparatus when a digitally encoded video / audio signal is input according to the second embodiment of the present invention. As shown in FIG. 6, 601 is a disk recording medium unit, 602 is a recording control unit, 603 is a semiconductor recording medium unit, 604 is a decoded data switching unit, 604 is a recording control unit, 605 is a decoding unit, and 607 is a DAC. (Digital-analog converter), 608 is a user interface unit, and 609 is a real-time transmission path.
[0054]
The operation of the information receiving / recording / reproducing apparatus according to the present embodiment having the above configuration will be described below. The input digitally encoded video / audio signal is sent to the disk recording medium unit 601 and the semiconductor recording medium unit 603 and recorded. At this time, the data recording on the semiconductor recording medium unit 603 is an endless recording in which the latest data is overwritten at any time under the control of the recording control unit 602.
[0055]
Next, the switching control unit 605 controls the encoded data switching unit 604 in accordance with the current playback state and an instruction such as a playback state change instruction from the user notified from the user interface unit 608.
[0056]
The switching control unit 605 determines whether to reproduce the data from the disk recording medium unit 601 or the data from the semiconductor recording medium unit 603, and to switch the real-time transmission path 609 without using the data from any recording medium unit. To directly reproduce the digitally encoded video / audio signal via the control unit. The data of the designated path is sent to the decoding unit 606 and decoded, and the decoded digital data is converted into an analog signal by the DA conversion unit 607 and output.
[0057]
Next, FIG. 7 shows the relationship between the reproduction state in the switching control section 605 and the control state of the encoded data switching section 604.
[0058]
In FIG. 7, the playback state 701 is the same as the content of the playback state 201 in FIG. 2, and the description thereof will be omitted. A decoded data switching unit control 702 indicates a control state of the decoded data switching unit 604 accompanying the reproduction state 701.
[0059]
The control state of the decryption data switching unit control 702 is control of setting to use data from the disk recording medium unit 601 as a decoding target and using data from the semiconductor recording medium unit 603 as a decoding target. This is a control state in which settings are controlled, a setting in which input digitally encoded video and audio data is used in real time, and a control state in which these three settings are switched.
[0060]
FIG. 8 is a chart showing a process at the time of transition from the recorded data reproduction state to the real-time reproduction state due to catching up with the real-time reproduction in the forward high-speed reproduction in the reproduction state 701 in FIG.
[0061]
First, in the forward high-speed reproduction, data in the disk recording medium unit 601 is reproduced until reproducible data remains in the disk recording medium unit 601 (steps 801 and 803). When there is no more reproducible data in the disc recording medium unit 601, it is checked whether or not reproduction is being performed simultaneously with recording (step 802). If the reproduction is not being performed simultaneously with the recording, the data stored and recorded previously has been reproduced, and the reproduction cannot be continuously performed. When the reproduction is performed at the same time as the recording, the reproduction is in a state of catching up with the real-time reproduction state by the forward high-speed reproduction.
[0062]
In a state in which the real-time reproduction state has been caught, first, the setting of the encoded data switching section 604 is changed by the switching control section 605 from the setting of using the data from the disk recording medium section 601 as a decoding target to the decoding target. Control is performed to switch to a setting using data from the semiconductor recording medium unit 603 (step 804), and data in the semiconductor recording medium unit 603 is reproduced until reproducible data remains in the semiconductor recording medium unit 603 (step 804). Steps 805 and 807).
[0063]
When there is no more reproducible data in the semiconductor recording medium unit 603, the switching control unit 605 changes the setting of the encoded data switching unit 604 to use the data from the semiconductor recording medium unit 603 as a decoding target. Then, control is performed to switch the setting of digitally encoded video and audio data input as a decoding target to use in real time, and to switch to real time reproduction.
[0064]
Next, FIG. 9 is a chart showing a process at the time of transition from the real-time reproduction state to the recording data reproduction state in the reproduction state 701 in FIG.
[0065]
When start of reverse high-speed playback is instructed, it is checked whether the current playback state is a real-time playback state (step 901). If the current playback state is not the real-time playback state, the setting of the encoded data switching unit 604 has already been set to use data from the disk recording medium unit 601 as a decoding target, and therefore the switching control unit 605 , The data in the disk recording medium unit 601 is reproduced with the current settings (steps 906 and 907).
[0066]
When the current playback state is the real-time playback state, first, the switching control unit 605 changes the setting of the encoded data switching unit 604 from the setting of using digitally encoded video and audio data input as a decoding target in real time. Control is performed to set to use data from the semiconductor recording medium unit 603 as a decoding target, and the state is switched to a recorded data reproduction state (step 902). Data in the semiconductor recording medium unit 603 is reproduced until reproducible data remains in the semiconductor recording medium unit 603 (steps 903 and 905).
[0067]
When there is no more reproducible data in the semiconductor recording medium unit 603, the switching control unit 605 then sets the coded data switching unit 604 to use the data from the semiconductor recording medium unit 603 as a decoding target. Then, control is performed to switch the setting to use data from the disk recording medium unit 601 as a decoding target (step 904), and reproduction of data in the disk recording medium unit 601 is started. After that, the operations of Steps 906 and 907 described above are performed.
[0068]
Next, FIG. 10 is a chart showing the processing at the time of transition from the real-time reproduction state to the recorded data reproduction state in the reproduction state 701 in FIG.
[0069]
When the start of forward low-speed playback is instructed, it is checked whether the current playback state is a real-time playback state (step 1001). If the current playback state is not the real-time playback state, the setting of the encoded data switching unit 604 has already been set to use data from the disk recording medium unit 601 as a decoding target, and therefore the switching control unit 605 , The data in the disk recording medium unit 601 is reproduced with the current settings (steps 1007 and 1008).
[0070]
When the current reproduction state is the real-time reproduction state, first, the writing of data to the semiconductor recording medium unit 603 is temporarily stopped by the recording control unit 602 (step 1002). This is because the latest data is usually overwritten and recorded on the semiconductor recording medium unit 603 at any time, so as to prevent overwriting and recording on the latest data before reproducing data to be reproduced for low-speed reproduction.
[0071]
Subsequently, the switching control unit 605 changes the setting of the encoded data switching unit 604 from the setting of using the digitally encoded video / audio data input as the decoding target in real time to the setting of the semiconductor recording medium unit as the decoding target. Control is performed to set to use the data from 603, and the mode is switched to the recorded data reproduction state (step 1003). The data in the semiconductor recording medium unit 603 is reproduced until reproducible data remains in the semiconductor recording medium unit 603 (step 1004, step 1006).
[0072]
When there is no more reproducible data in the semiconductor recording medium unit 603, the switching control unit 605 then sets the coded data switching unit 604 to use the data from the semiconductor recording medium unit 603 as a decoding target. Then, control is performed to switch to a setting to use data from the disk recording medium unit 601 as a decoding target (step 1005), and reproduction of data in the disk recording medium unit is started.
[0073]
As described above, according to the present embodiment, in order to reproduce an input digitally encoded video / audio signal, a means for recording and reproducing on a random accessible disk recording medium, A means for reproducing after recording on a semiconductor recording medium and a means for reproducing without recording on a recording medium are prepared, and by switching these reproducing means according to the reproducing state and reproducing, the switching of the reproducing state smoothly. An information receiving / recording / reproducing apparatus capable of performing the above can be realized.
[0074]
(Embodiment 3)
Hereinafter, sixth to eighth embodiments of the present invention will be described with reference to FIGS. 1, 2, and 11. FIG.
[0075]
In the third embodiment, when data is recorded on the semiconductor recording medium portion in the first embodiment, a means for extracting only data to be used at the time of trick play is provided. The present invention relates to an information receiving / recording / reproducing apparatus which efficiently uses a semiconductor recording medium by extracting and recording coded data.
[0076]
The configuration and operation of the information receiving / recording / reproducing apparatus at the time of inputting an analog video / audio signal according to the third embodiment of the present invention are the same as those of the first embodiment, and thus redundant description will be omitted with reference to FIG. However, it is assumed that the extracting means for extracting the data used at the time of trick play is provided in the semiconductor recording medium unit 603.
[0077]
Further, regarding the relationship between the playback state and the control states of the encoded data switching unit 106 and the output switching unit 111 according to the present embodiment, the configuration and operation thereof are the same as those of the first embodiment, and therefore FIG. Therefore, duplicate description will be omitted.
[0078]
Next, FIG. 11 shows a relationship between the current playback state and the video / audio data extracted by the recording control unit 104.
[0079]
In FIG. 11, a reproduction state 1101 indicates a current reproduction state. As shown in FIG. 2, when the current state shifts from the real-time reproduction state to another reproduction state, the data from the semiconductor recording medium unit 105 is used at the start of the reverse high-speed reproduction and at the start of the forward low-speed reproduction. . Therefore, when the reproduction state 1101 is the real-time reproduction state, it is necessary to record data in the semiconductor recording medium unit 105 in preparation for the start of the backward high-speed reproduction and the start of the forward low-speed reproduction. Is set to extract all video data.
[0080]
In the case of reverse high-speed playback, there is no problem if intermittent video data is used, but in the case of forward low-speed playback, all video data is required, and either reverse high-speed playback or forward low-speed playback is specified. Since it is unknown, it is necessary to make settings for extracting video data. In general, no audio data is output during reverse high-speed reproduction and forward low-speed reproduction, so that no audio data is recorded.
[0081]
Further, from FIG. 2, when the current state shifts from the recording / reproduction state to the real-time reproduction state, the data from the semiconductor recording medium unit 105 is used when catching up with the real-time reproduction at the time of forward high-speed reproduction. Therefore, when the reproduction state 1101 is the forward high-speed reproduction state, it is necessary to record data in the semiconductor recording medium unit 105 in preparation for shifting to the real-time reproduction state. For example, the setting is such that video data and audio data intermittently extracted in frame units are extracted.
[0082]
Since the interval of video data used for reproduction changes depending on the reproduction speed of the forward high-speed reproduction, the reproduction speed of the forward high-speed reproduction is m (m is high-speed reproduction faster than n) in the reproduction state 1101. In this case, the video / audio data 1102 to be extracted is video data extracted with a large time interval. If the reproduction speed of the forward high-speed reproduction is n (n is a high-speed reproduction slower than m) in the reproduction state 1101, the video / audio to be extracted is Data 1102 is video data extracted at small time intervals.
[0083]
In addition, since some slow forward high-speed reproductions output intermittent audio, if the reproduction speed of the forward high-speed reproduction is n (n is high-speed reproduction slower than m) in the reproduction state 1101, The video / audio data 1102 to be extracted may be video data and audio data extracted at small time intervals.
[0084]
As described above, according to the present embodiment, when recording data on the semiconductor recording medium unit, the semiconductor recording medium unit includes means for extracting only data used during special reproduction, and the means is coded. By extracting and recording the digitally encoded data later, it is possible to realize an information receiving / recording / reproducing apparatus in which the semiconductor recording medium is used efficiently.
[0085]
By extracting the encoded digital data, there is the advantage that the digital data can be used for a long time when switching the reproduction state. In addition, by changing the data to be extracted according to the current reproduction state, an information receiving / recording / reproducing apparatus can be realized in which the semiconductor recording medium is used more efficiently.
(Embodiment 4)
Hereinafter, sixth, seventh, and ninth embodiments of the present invention will be described with reference to FIGS. 11, 12, and 13. FIG.
[0086]
The fourth embodiment differs from the first embodiment in that, when data is recorded on a semiconductor recording medium, there is provided means for extracting only data used at the time of trick play, and the means extracts digital data before being encoded. The present invention relates to an information receiving / recording / reproducing apparatus in which a semiconductor recording medium is efficiently used by extracting and recording.
[0087]
FIG. 12 shows a semiconductor recording medium unit having means for extracting only data to be used at the time of special reproduction when digital data is recorded on a semiconductor recording medium when an analog video / audio signal is input according to an embodiment of the present invention. 1 shows a block diagram of an information receiving / recording / reproducing apparatus which is a means for extracting digital data before being encoded. As shown in FIG. 12, 1201 is an ADC (analog-digital converter), 1202 is an encoding unit, 1203 is a disk recording medium unit, 1204 is a decoding unit, 1205 is a recording control unit, 1206 is a semiconductor recording medium unit, Reference numeral 1207 denotes an output data switching unit, 1208 denotes a DAC (digital-analog converter), 1209 denotes a switching control unit, 1210 denotes a user interface unit, 1211 denotes an output switching unit, and 1212 denotes a real-time transmission path. Here, it is assumed that the extracting means for extracting data used at the time of trick play is provided in the semiconductor recording medium unit 1206.
[0088]
The operation of the information receiving / recording / reproducing apparatus according to the present embodiment having the above configuration will be described below. The input analog video / audio signal is converted into digital video / audio data by the AD converter 1201. The digitized video / audio data is encoded by the encoding unit 1202, and the encoded data is recorded in the disk recording medium unit 1203. The video / audio data digitized by the AD conversion unit 1201 is extracted as video / audio data according to the current reproduction state by the recording control unit 1205, and is recorded in the semiconductor recording medium unit 1206. At this time, data recording on the semiconductor recording medium unit 1206 is endless recording in which overwrite recording is performed on the latest data at any time under the control of the recording control unit 1205.
[0089]
Next, in accordance with the current playback state and an instruction such as a playback state change instruction from the user notified from the user interface unit 1210, the switching control unit 1209 controls the output digital data switching unit 1207 and the output switching unit 1211. Execute control.
[0090]
When the switching control unit 1209 specifies that data from the disk recording medium unit 1203 is to be reproduced, the encoded data read from the disk recording medium unit 1203 is sent to the decoding unit 1204 to be decoded and decoded. The converted digital data is converted into analog data by the DA converter 1208 and then output.
[0091]
When the switching control unit 1209 specifies that data from the semiconductor recording medium unit 1206 is to be reproduced, the digital data read from the semiconductor recording medium unit 1206 is converted into analog data by the DA conversion unit 1208, and Output. If it is specified by the switching control unit 1209 to output an analog video / audio signal in real time, the input analog video / audio signal is output as it is via the real-time transmission path 1212.
[0092]
Next, FIG. 11 is a diagram showing the relationship between the current playback state and the video / audio data to be extracted in the recording control unit 1205, and the contents are the same as those in the third embodiment. Omitted.
[0093]
Next, FIG. 13 is a diagram showing the relationship between the reproduction state in the switching control unit 1209 and the control states of the output digital data switching unit 1207 and the output switching unit 1211. However, in FIG. 13, the contents of the reproduction state 1301 and the output switching unit control 1303 are the same as those of the reproduction state 201 and the output switching unit control 203 of FIG.
[0094]
The output digital data switching unit control 1302 indicates a control state of the output digital data switching unit 1207 accompanying the reproduction state 1301. The control state of the output digital data switching unit control 1302 is a combination of the control of the setting using the uncoded digital data from the semiconductor recording medium unit 1206 and the digitally encoded data from the disk recording medium unit 1203. This is the control of setting using digital data later and the control state of switching between these two settings.
[0095]
With such a configuration, when recording data on the semiconductor recording medium, a means for extracting only data to be used at the time of special reproduction is provided in the semiconductor recording medium portion, and the means extracts and records digital data before being encoded. By doing so, it is possible to realize an information receiving / recording / reproducing apparatus in which a semiconductor recording medium is used efficiently.
[0096]
By extracting digital data before being encoded, there is the convenience that video / audio data closer to real-time reproduction can be used when switching the reproduction state. In addition, by changing the data to be extracted according to the current reproduction state, an information receiving / recording / reproducing apparatus can be realized in which the semiconductor recording medium is used more efficiently.
[0097]
(Embodiment 5)
Hereinafter, ninth and tenth embodiments of the present invention will be described with reference to FIGS. 11, 14, 15, 16, 17, and 18. FIG.
[0098]
The fifth embodiment differs from the first embodiment in that, when data is recorded on a semiconductor recording medium, there is provided means for extracting only data to be used at the time of trick play, and the means comprises digital encoding after encoding. The present invention relates to an information receiving / recording / reproducing apparatus which is both a means for extracting data and a means for extracting digital data before being encoded, and records the extracted data so that the semiconductor recording medium can be used efficiently. Things.
[0099]
FIG. 14 shows a semiconductor recording medium unit having means for extracting only data to be used during special reproduction when digital data is recorded on the semiconductor recording medium unit 1405 when an analog video / audio signal is input according to an embodiment of the present invention; The means is a block diagram of an information receiving / recording / reproducing apparatus which is both means for extracting digitally encoded data after being encoded and means for extracting digital data before being encoded. As shown in FIG. 14, reference numeral 1401 denotes an ADC (analog-digital converter); 1402, an encoding unit; 1403, a disk recording medium unit; 1404, a recording control unit; 1405, a semiconductor recording medium unit; Unit, 1407 is a decoding unit, 1408 is an output digital data switching unit, 1409 is a DAC (digital-analog converter), 1410 is a user interface unit, 1411 is a switching control unit, 1412 is an output switching unit, and 1413 is a real-time transmission path. It is. Here, it is assumed that extraction means for extracting data used at the time of trick play is provided in the semiconductor recording medium unit 1405.
[0100]
The operation of the information receiving / recording / reproducing apparatus according to the present embodiment having the above configuration will be described below. In FIG. 14, an input analog video / audio signal is converted into digital video / audio data by an AD converter 1401. The digitized video / audio data is encoded by an encoding unit 1402, and the encoded data is recorded on a disk recording medium unit 1403, and is recorded by a recording control unit 1404 from the encoded data to the current playback. Video / audio data corresponding to the state is extracted and recorded in the semiconductor recording medium unit 1405.
[0101]
Further, from the video / audio data digitized by the AD conversion unit 1401, video / audio data corresponding to the current reproduction state is extracted by the recording control unit 1404, and is recorded on the semiconductor recording medium unit 1405.
[0102]
In the above operation, the data recording on the semiconductor recording medium unit 1405 is an endless recording in which the latest data is overwritten at any time under the control of the recording control unit 1404.
[0103]
Next, in accordance with the current reproduction state of the analog video / audio signal and an instruction such as a reproduction state change instruction from the user notified from the user interface unit 1410, the switching control unit 1411 causes the decoded data switching unit 1406 to The output digital data switching unit 1408 and the output switching unit 1412 are controlled.
[0104]
If the switching control unit 1411 specifies that data from the disk recording medium unit 1403 is to be reproduced, the encoded data read from the disk recording medium unit 1403 is decoded by the decoding unit 1407 and further decoded. The converted digital data is converted into analog data by a DA converter 1409 and output as an analog video / audio signal.
[0105]
If the switching control unit 1411 specifies to reproduce data from the semiconductor recording medium unit 1405, the data in the semiconductor recording medium unit 1405 is read according to the current reproduction state. At this time, if the data read from the semiconductor recording medium unit 1405 is coded digital coded data, the data is sent to the coding unit 1407 for decoding, and the decoded digital data is converted to analog data by the DA conversion unit 1409. And then output. If the data read from the semiconductor recording medium unit 1405 is uncoded digital data, the read digital data is converted into analog data by the DA converter 1409 and then output.
[0106]
On the other hand, when it is specified by the switching control unit 1411 to output the analog video / audio signal in real time, the input analog video / audio signal is output as it is via the real-time transmission path 1413.
[0107]
FIG. 11 is a diagram showing the relationship between the current playback state and the video / audio data to be extracted by the recording control unit 1404. The contents are the same as in the third embodiment, and a description thereof will be omitted.
[0108]
Next, FIG. 15 shows the relationship between the playback state and the control states of the decoded data switching unit 1406, the output digital data switching unit 1408, and the output switching unit 1412.
[0109]
15, the contents of the reproduction state 1501, the decoded data switching unit control 1502, and the output switching unit control 1504 in the first embodiment shown in FIG. 2 are the reproduction state 201, the decoded data switching unit control 202, and the output switching unit control. Since it is the same as 203, its description is omitted. An output digital data switching unit control 1502 indicates a control state of the output digital data switching unit 1408 associated with the reproduction state 1501.
[0110]
The control state of the output digital data switching unit control 1502 includes the control of the setting using the uncoded digital data from the semiconductor recording medium unit 1405 and the control of the digital code from the disk recording medium unit 1403 or the semiconductor recording medium unit 1405. This is the control of the setting using the digital data after the compounded data is combined, and the control state of switching between these two settings.
[0111]
Next, FIG. 16 is a chart showing a process at the time of transition from the recorded data reproduction state to the real time reproduction state due to catching up with the real time reproduction at the time of forward high speed reproduction in the reproduction state 1501 in FIG.
[0112]
First, in the forward high-speed reproduction, data in the disk recording medium unit 1403 is reproduced until reproducible data remains in the disk recording medium unit 1403 (steps 1601 and 1603). When there is no more reproducible data in the disc recording medium unit 1403, it is checked whether the data is being reproduced simultaneously with recording (step 1602). If the reproduction is not being performed simultaneously with the recording, the data stored and recorded previously has been reproduced, and the reproduction cannot be continuously performed.
[0113]
When the reproduction is performed at the same time as the recording, the reproduction is in a state of catching up with the real-time reproduction state by the forward high-speed reproduction. First, the switching control unit 1411 changes the setting of the decrypted data switching unit 1406 from the setting of using the data from the disk recording medium unit 1403 as the object of decoding to the data from the semiconductor recording medium unit 1405 as the object of decoding. Control for switching to the setting to be used is performed (step 1604), and the digitally encoded data in the semiconductor recording medium unit 1405 is reproduced until reproducible digitally encoded data remains in the semiconductor recording medium unit 1405 (step 1605). Step 1607).
[0114]
When there is no more digitally encoded data that can be reproduced in the semiconductor recording medium unit 1405, the switching control unit 1411 changes the setting of the output digital data switching unit 1408 to the unencoded digital data from the semiconductor recording medium unit 1405. Is performed (step 1606), and the unencoded digital data in the semiconductor recording medium unit 1405 remains until the reproducible unencoded digital data remains in the semiconductor recording medium unit 1405. Is reproduced (steps 1608 and 1610).
[0115]
When there is no more unencoded digital data that can be reproduced in the semiconductor recording medium unit 1405, the switching control unit 1411 reproduces the video / audio data read from the recording medium and outputs the setting of the output switching unit 1412. From the setting of the means, the control is switched to the setting of the means for outputting the input video / audio signal in real time without being recorded on the recording medium, and the real time reproduction is switched (step 1609).
[0116]
Next, FIG. 17 is a chart showing a process at the time of transition from the real-time reproduction state to the recorded data reproduction state in the reproduction state 1501 in FIG.
[0117]
When start of reverse high-speed playback is instructed, it is checked whether or not the current playback state is a real-time playback state (step 1701). When the current reproduction state is not the real-time reproduction state, the setting of the decoded data switching unit 1406 is already set to use the data from the disk recording medium unit 1403 as a decoding target, and the setting of the output digital data switching unit 1408 is set to The setting of the output switching unit 1412 is such that the video / audio data read from the recording medium is set to use the digital data obtained by decoding the digitally encoded data from the semiconductor recording medium unit 1405 or the disk recording medium unit 1403. Since the settings for the means for reproducing and outputting are set respectively, the switching control by the switching control unit 1411 is not performed, and the data in the disk recording medium unit 1403 is reproduced with the current settings (step 1712, step 1712). 1713).
[0118]
When the current playback state is the real-time playback state, first, the switching control unit 1411 changes the setting of the output switching unit 1412 from the setting of the means for outputting the input video / audio signal in real time without recording it on the recording medium unit. Then, control is performed to switch the setting to the means for reproducing and outputting the video and audio data read from the recording medium unit (step 1703), and the setting of the output digital data switching unit 1408 is changed by the code from the semiconductor recording medium unit 1405. Control is performed to set to use digital data that has not been converted, and the recording data is switched to the recording data reproduction state (similarly, step 1703) until the non-encoded digital data that can be reproduced remains in the semiconductor recording medium unit 1405. The unencoded digital data in the semiconductor recording medium unit 1405 is reproduced (step 1704). Step 1706).
[0119]
Next, when there is no more unencoded digital data that can be reproduced in the semiconductor recording medium unit 1405, the switching control unit 1411 sets the output digital data switching unit 1408 to the semiconductor recording medium unit 1405 or the disk recording medium unit 14036. (Step 1707), and the setting of the decoded data switching unit 1406 is changed to the data from the semiconductor recording medium unit 1405 as a decoding target. Is performed, and the data in the semiconductor recording medium unit 1405 is reproduced until reproducible digitally encoded data remains in the semiconductor recording medium unit 1405 (steps 1708 and 1710).
[0120]
When there is no more digitally encoded data that can be reproduced in the semiconductor recording medium unit 1405, the switching control unit 1411 then changes the setting of the decoded data switching unit 1406 and sets the data from the semiconductor recording medium unit 1405 as a decoding target. Control is performed to switch from the setting to use to the setting to use data from the disk recording medium unit 1403 as a decryption target (step 1709), and reproduction of data in the disk recording medium unit 1403 is started (step 1711, step 1711). 1712).
[0121]
Next, FIG. 18 is a chart showing the processing at the time of transition from the real-time reproduction state to the recorded data reproduction state in response to the forward low-speed reproduction start instruction in the reproduction state 1501 in FIG.
[0122]
When the start of forward low-speed reproduction is instructed, it is checked whether the current reproduction state is a real-time reproduction state (step 1801). When the current reproduction state is not the real-time reproduction state, the setting of the decoded data switching unit 1406 is already set to use the data from the disk recording medium unit 1403 as a decoding target, and the setting of the output digital data switching unit 1408 is set to The setting of switching the digitally encoded data from the semiconductor recording medium unit 1405 or the disk recording medium unit 1403 to the digital data after decoding and using the same is used as the setting of the output switching unit 1412. Is set to the means for reproducing and outputting the data, so that the switching control by the switching control unit 1411 is not performed, and the data in the disk recording medium unit 1403 is reproduced with the current setting (step 1812, step 1813).
[0123]
If the current reproduction state is the real-time reproduction state, first, the recording control unit 1404 temporarily stops writing data to the semiconductor recording medium unit 1405 (step 1802). This is because the latest data is usually overwritten and recorded on the semiconductor recording medium unit 1405 at any time, so as to prevent overwriting and recording on the latest data before reproducing data to be reproduced for low-speed reproduction.
[0124]
The switching control unit 1411 reproduces the video / audio data read from the recording medium from the setting of the means for outputting the video / audio signal in which the setting of the output switching unit 1412 is input in real time without recording it on the recording medium. (Step 1803), and the setting of the output digital data switching unit 1408 is set to use the uncoded digital data from the semiconductor recording medium unit 1405. The state is switched to the recorded data reproduction state (step 1804), and the uncoded digital data in the semiconductor recording medium unit 1405 is reproduced until the reproducible uncoded digital data remains in the semiconductor recording medium unit 1405. (Step 1805, Step 1807).
[0125]
Next, when there is no more unencoded digital data that can be reproduced in the semiconductor recording medium unit 1405, the switching control unit 1411 changes the setting of the output digital data switching unit 1408 from the semiconductor recording medium unit 1405 or the disk recording medium unit 14036. (Step 1806), and the setting of the decoded data switching unit 1406 is used as a decoding target to use the data from the semiconductor recording medium unit 1405. Then, control is performed to make the setting (step 1808), and the data in the semiconductor recording medium unit 1405 is reproduced until the reproducible digitally encoded data remains in the semiconductor recording medium unit 1405 (step 1809, step 1811).
[0126]
When there is no more digitally encoded data that can be reproduced in the semiconductor recording medium unit 1405, the switching control unit 1411 then changes the setting of the decoded data switching unit 1406 and sets the data from the semiconductor recording medium unit 1405 as a decoding target. Control is performed to switch from the setting to use to the setting to use data from the disk recording medium unit 1403 as a decoding target (step 1810), and reproduction of data in the disk recording medium unit 1403 is started (step 1812, step 1813).
[0127]
As described above, according to the present embodiment, when data is recorded on a semiconductor recording medium, a means for extracting only data used at the time of trick play is provided in the semiconductor recording medium unit, and the means is provided after encoding. Means for extracting digitally encoded data and means for extracting digital data before being encoded. By recording the extracted data, it is possible to receive information by using a semiconductor recording medium efficiently. A recording and reproducing device can be realized.
[0128]
By extracting digital data before encoding, video / audio data closer to real-time playback can be used at the time of switching the playback state, and longer than extracting digital data after encoding. It has both the convenience that the video and audio data for time can be used when switching the playback state, and the smoother switching of the playback state is possible by using data that makes use of both characteristics depending on the playback state An information receiving / recording / reproducing apparatus can be realized.
[0129]
In addition, by changing the data to be extracted according to the current reproduction state, an information receiving / recording / reproducing apparatus can be realized in which the semiconductor recording medium is used more efficiently.
[0130]
As described above, according to the first embodiment of the present invention, in the information receiving / recording / reproducing apparatus which records / reproduces at least one of digital video and digital audio on a randomly accessible disk recording medium, the input analog video / audio signal Or, for reproducing digital video and audio signals, means for recording and reproducing on a random accessible disk recording medium, means for recording and reproducing on a high speed accessible semiconductor recording medium, and without recording on a recording medium By preparing a reproduction means, and switching between these reproduction means in accordance with the reproduction state for reproduction, an advantageous effect that the reproduction state can be smoothly switched can be obtained.
[0131]
According to the second embodiment of the present invention, in the information receiving / recording / reproducing apparatus for recording / reproducing at least one of digital video and digital audio on the random accessible disk recording medium, digital data is recorded on the semiconductor recording medium. Means for extracting, according to the current playback state, means for extracting only digital data to be used at the time of trick play, and by recording only digital data to be used at the time of trick play on the semiconductor recording medium, the semiconductor recording medium can be efficiently stored. The advantageous effect that it can be used is obtained.
[0132]
According to the third embodiment of the present invention, in the information receiving / recording / reproducing apparatus for recording / reproducing at least one of digital video and digital audio on the random accessible disk recording medium, only data used at the time of special reproduction is extracted. Since the means for extracting the digitally encoded data after the encoding, the advantageous effect that the semiconductor recording medium can be used more efficiently can be obtained.
[0133]
According to the fourth embodiment of the present invention, in the information receiving / recording / reproducing apparatus for recording / reproducing at least one of digital video and digital audio on the random accessible disk recording medium, only data used at the time of special reproduction is extracted. Since the means for extracting digital data before encoding is a means for extracting digital data before encoding, an advantageous effect that video and audio data closer to real-time reproduction can be used when switching the reproduction state is obtained.
[0134]
According to the fifth embodiment of the present invention, in the information receiving / recording / reproducing apparatus for recording / reproducing at least one of digital video and digital audio on the random accessible disk recording medium, the information is recorded in the semiconductor recording medium. By having a function of changing the order of data used for playback of unencoded digital data and digitally encoded data after being encoded according to the current playback state, digital data that is not encoded may be changed depending on the playback state. By using data that makes use of the characteristics of both the data and the encoded digitally encoded data, an advantageous effect that the playback state can be switched more smoothly can be obtained.
It is.
[0135]
In each of the above embodiments, the disk medium recording unit corresponds to the first recording unit of the present invention, and the recording control unit and the semiconductor recording medium unit correspond to the second recording unit of the present invention. The data switching unit, the switching control unit, the user interface unit, the output digital data switching unit and the output conversion unit correspond to the switching unit of the present invention, and the ADC and the encoding unit correspond to the first encoding unit of the present invention. The decoding unit and the DAC correspond to the first decoding unit of the present invention, and the real-time transmission path corresponds to the real-time transmission unit of the present invention. However, the decoding unit 606 and the DAC 607 in Embodiment 2 correspond to the second decoding unit of the present invention.
[0136]
【The invention's effect】
As is apparent from the above description, according to the present invention, even when the reproduction state changes from normal reproduction to special reproduction or from special reproduction to normal reproduction, the information reception recording / reproduction that can smoothly switch the reproduction state is performed. A device is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram of an information receiving / recording / reproducing apparatus according to Embodiments 1 and 3 of the present invention.
FIG. 2 is a diagram showing a control state of a switching control unit according to the first and third embodiments of the present invention.
FIG. 3 is a chart showing processing when catching up with real-time reproduction during forward high-speed reproduction according to the first embodiment of the present invention;
FIG. 4 is a chart showing processing at the time of a backward high-speed reproduction start command according to the first embodiment of the present invention;
FIG. 5 is a chart showing processing at the time of a forward low-speed reproduction start command according to the first embodiment of the present invention;
FIG. 6 is a block diagram of an information receiving / recording / reproducing apparatus according to a second embodiment of the present invention.
FIG. 7 is a diagram showing a control state of a switching control unit according to a second embodiment of the present invention.
FIG. 8 is a chart showing processing when catching up with real-time reproduction during forward high-speed reproduction according to the second embodiment of the present invention;
FIG. 9 is a chart showing processing at the time of a backward high-speed reproduction start command according to the second embodiment of the present invention;
FIG. 10 is a chart showing processing at the time of a forward low-speed reproduction start command according to the second embodiment of the present invention;
FIG. 11 is a diagram showing extracted data of a recording control unit according to the third, fourth, and fifth embodiments of the present invention.
FIG. 12 is a block diagram of an information receiving / recording / reproducing apparatus according to a fourth embodiment of the present invention.
FIG. 13 is a diagram showing a control state of a switching control unit according to a fourth embodiment of the present invention.
FIG. 14 is a block diagram of an information receiving / recording / reproducing apparatus according to a fifth embodiment of the present invention.
FIG. 15 is a diagram showing a control state of a switching control unit according to a fifth embodiment of the present invention.
FIG. 16 is a chart showing processing when catching up with real-time reproduction during forward high-speed reproduction according to the fifth embodiment of the present invention.
FIG. 17 is a chart showing processing at the time of a backward high-speed reproduction start command according to the fifth embodiment of the present invention.
FIG. 18 is a chart showing processing at the time of a forward low-speed reproduction start command according to the fifth embodiment of the present invention.
FIG.
Diagram showing a conventional information receiving, recording and reproducing apparatus
[Explanation of symbols]
101, 1201, 1401, 1901 AD conversion unit
102, 1202, 1402 encoder
103, 601, 1203, 1403 disk recording medium unit
104, 602, 1205, 1404 Recording control unit
105, 603, 1206, 1405 Semiconductor recording medium section
106, 604, 1406 Decoded data switching unit
107, 605, 1209, 1411 switching control unit
108, 606, 1204, 1407 Decoding unit
109, 607, 1208, 1409, 1907 DA converter
110, 608, 1210, 1410 User interface unit
111, 1211, 1412 Output switching unit
1207, 1408 output digital data switching unit
201, 701, 1101, 1301, 1501 Playback state
202, 702, 1502 Decryption data switching control
203, 1303, 1504 Output switching unit control
1302, 1503 Output digital data switching unit control
1102 Video and audio data to be extracted
1902, 1906 Frame memory
1903 Compression processing unit
1904 Recording device
1905 Decompression processing unit
1908 Switching unit
1909 Display
1910 control unit

Claims (10)

An information reception recording / reproducing apparatus for performing time shift reproduction for temporarily recording and reproducing a video / audio signal,
Recording the video / audio signal for performing the time-shift reproduction operation, a first recording unit capable of random access, and a second recording unit capable of random access at a higher speed than the first recording unit;
Real-time transmission means for transmitting the video and audio signals in real time,
An information receiving / recording / reproducing apparatus comprising at least switching means for switching and outputting the output from the first recording means, the output from the second recording means, and the output from the real-time transmission means. 2. The information receiving / recording / reproducing apparatus according to claim 1, wherein the switching unit performs a switching operation based on a monitor state of the video / audio signal. The output from the second recording means is:
The information receiving / recording / reproducing apparatus according to claim 1, wherein the information receiving / recording / reproducing apparatus is used at least during output switching between an output from the first recording unit and an output from the real-time transmission unit. Receiving an input of an analog signal as the video / audio signal,
First encoding means for digitally encoding the analog signal to generate encoded data;
First decoding means for decoding the encoded data to obtain a digital signal, and converting the digital signal into an analog signal,
4. The recording apparatus according to claim 1, wherein the first recording unit and / or the second recording unit records and reproduces the video / audio signal in the form of the encoded data and / or the digital signal. An information receiving / recording / reproducing apparatus according to any one of the above. Receiving digitally encoded data as the video / audio signal,
A second decoding unit that decodes the encoded data to obtain a digital signal and further converts the digital signal into an analog signal;
2. The recording apparatus according to claim 1, wherein the first recording unit and / or the second recording unit records and reproduces the video / audio signal in the form of the encoded data and / or the digital signal. 4. The information receiving / recording / reproducing apparatus according to any one of items 3 to 3. Extraction means for extracting all or part of the video signal and audio signal as a special reproduction signal for use in special reproduction based on the reproduction state of the video and audio signal,
6. The information receiving / recording / reproducing apparatus according to claim 4, wherein the second recording unit records and reproduces the special reproduction signal. 7. The information receiving / recording / reproducing apparatus according to claim 6, wherein the extracting means changes an interval of an extraction time of the special reproduction signal according to a speed of the special reproduction. 8. The information receiving / recording / reproducing apparatus according to claim 6, wherein the extracting means extracts the special reproduction signal at least in the form of the encoded data. 9. The information receiving / recording apparatus according to claim 6, wherein the extracting unit extracts the special reproduction signal at least in a form of a digital signal before the encoded data is encoded. Playback device. 2. The apparatus according to claim 1, wherein the second recording unit changes a reproduction order of the encoded data as the special reproduction signal and the digital data before being encoded, based on a reproduction state of the video / audio signal. 10. The information receiving / recording / reproducing device according to item 9.

Images