JP4192363B2 - Playback apparatus and method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention receives, for example, a signal in which video data and audio data are broadcast in an MPEG (Moving Picture Experts Group) 2 system transport stream, and the transport stream is recorded on a digital video tape, an optical disk, a magnetic disk, or the like. Reproducing apparatus and method used in digital satellite broadcasting reception and recording / reproducing system for recording / reproducing on medium To the law Related.
[0002]
[Prior art]
In recent years, IEEE 1394 has begun to spread as a digital interface for transferring video data and audio data at high speed between digital video equipment and digital audio equipment. IEEE 1394 supports an isochronous transfer mode and an asynchronous transfer mode. In the isochronous transfer mode, a transmission delay time is guaranteed, which is suitable for high-speed transfer of temporally continuous data streams such as video data and audio data. The asynchronous transfer mode is guaranteed to always transmit data to the destination node, and is suitable for reliably transferring data such as commands.
[0003]
In recent years, digital satellite broadcasting has begun to spread. In digital satellite broadcasting, digital video data and audio data are compressed and packetized, and transmitted by an MPEG2 transport stream. A packet identifier called PID is provided in the header of the transmission packet. Then, video packets and audio packets of a plurality of programs are multiplexed and transmitted in the same stream.
[0004]
When receiving such a digital satellite broadcast, a decoder for receiving a digital satellite broadcast called an IRD (Integrated Receiver Decoder) is connected to the television receiver. A digital satellite broadcast signal received by the parabolic antenna is supplied to the IRD. The MPEG2 transport stream is demodulated by the IRD, and the video packet and the audio packet of the desired program are extracted from the MPEG2 transport stream by the PID, and the video signal and the audio signal are decoded from the video packet and the audio packet. Is done. The video signal and the audio signal are supplied from the IRD to the television receiver.
[0005]
It has been proposed to provide an IEEE 1394 digital interface to an IRD for receiving such digital satellite broadcasts. If an IRD digital interface is provided in the IRD, a digital satellite broadcast receiving and recording / reproducing system can be constructed by connecting the IRD and a device such as a recording / reproducing device. By constructing such a system, it becomes possible to record / reproduce the MPEG2 transport stream sent by digital satellite broadcasting as it is.
[0006]
That is, at the time of recording, the MPEG2 transport stream received on the IRD side is sent to the recording / reproducing apparatus via the IEEE1394 digital interface. The MPEG2 transport stream is recorded on a recording medium by a recording / reproducing device as it is. At the time of reproduction, an MPEG2 transport stream is reproduced from the recording medium, and the reproduced MPEG2 transport stream is sent to the IRD via the IEEE 1394 digital interface. The MPEG2 transport stream is decoded by the IRD.
[0007]
[Problems to be solved by the invention]
As described above, when the digital interface of IEEE 1394 is provided in the IRD and the IRD and the recording / reproducing apparatus are connected to construct a digital satellite broadcasting receiving and recording / reproducing system, the transport of MPEG2 transmitted by the digital satellite broadcasting is performed. The stream can be recorded / reproduced as it is on a recording medium such as a digital video tape, an optical disk or a magnetic disk.
[0008]
Incidentally, in digital satellite broadcasting, a plurality of program packets are multiplexed and transmitted on the same carrier frequency. Therefore, as described above, when recording / reproducing an MPEG2 transport stream sent by digital satellite broadcasting on a recording medium such as a tape cassette, the recording method includes video packets and audio packets of a desired program. Is extracted from the IRD side and sent to a digital recording / reproducing device for recording, and video packets and audio packets of a plurality of programs sent at one carrier frequency are sent from the IRD to the digital recording / reproducing apparatus. And a multi-program method for recording the data as it is.
[0009]
The multi-program method has an advantage that a plurality of programs can be recorded simultaneously. However, when the multi-program recording method is adopted, the IRD reproduces the data in a plurality of program packets that are reproduced by a recording / reproducing apparatus and received via a digital interface. Therefore, it is necessary to select a desired program and extract the video packet and audio packet of this program, which complicates the IRD circuit. Therefore, there is a high possibility of adopting a single program method for an inexpensive IRD.
[0010]
However, the multi-program method has an advantage that a plurality of programs can be recorded simultaneously, and there is a high possibility that the multi-program method is adopted for high-end models of IRD.
[0011]
Thus, when an IRD that supports multi-programs is released, recording media recorded by the multi-program method and recording media recorded by the single-program method are mixed. For this reason, there is a possibility that a recording medium recorded by the multi-program method is mounted on a recording / reproducing apparatus connected by IRD and IEEE 1394 that does not support the multi-program method and played back. As described above, when a multi-program transport stream is sent to an IRD that does not support the multi-program method, correct reproduction cannot be performed, which may cause confusion for the user.
[0012]
Therefore, an object of the present invention is to perform an appropriate reproduction process of a recording medium recorded in a multi-program method, regardless of whether the IRD connected via IEEE 1394 is a single program method or a multi-program method. Digital broadcasting Re It is to provide a raw apparatus and method.
[0013]
[Means for Solving the Problems]
The present invention relates to a reproducing apparatus for reproducing video / audio data from a recording medium, reproducing means for reproducing multiplexed data obtained by compressing and multiplexing video / audio data corresponding to a plurality of programs, and receiving digital broadcasts. Interface means for exchanging video / audio data with the device, and whether the receiving device can receive the reproduced multiplexed data via the interface and extract the video / audio data corresponding to the desired program. A discriminating unit for discriminating; and an extracting unit for extracting video / audio data corresponding to a desired program from the reproduced multiplexed data. If it is determined that the data cannot be extracted, the extraction means Extracting video and audio data corresponding to the program, a reproduction apparatus being characterized in that so as to output to the receiving device via the interface means video and audio data issued extract.
[0016]
When reproducing a transport stream in which a plurality of programs are multiplexed in a digital broadcast recording / reproducing apparatus, an appropriate one depends on whether the IRD connected via IEEE 1394 is compatible with the multi-program method. Perform proper playback processing. That is, when the IRD is compatible with the multi-program method, a transport stream in which a plurality of programs are multiplexed is directly output to the IRD via the IEEE 1394, and the IRD is not compatible with the multi-program method. Thus, in the case of reproducing a recording medium recorded by the multi-program method, the recording / reproducing apparatus allows the user to select a desired program and transmits only the transport stream of the selected program to the IRD. . As a result, even when a recording medium recorded in the multi-program system is mounted on the recording / reproducing apparatus and an MPEG2 transport stream is output to an IRD that does not support the multi-program system during reproduction, the user is confused. Disappears.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a digital satellite broadcast receiving and recording / reproducing system to which the present invention is applied.
[0018]
In FIG. 1, 1 is an IRD, 2 is a digital video cassette recording / reproducing apparatus, and 3 is a television receiver. The IRD 1, digital video cassette recording / reproducing apparatus 2, and television receiver 3 constitute a digital satellite broadcast receiving and recording / reproducing system. The IRD 1 and the digital video cassette recording / reproducing apparatus 2 include an IEEE 1394 digital interface, and the IRD 1 and the digital video cassette recording / reproducing apparatus 2 are connected to each other through a cable 8 of the IEEE 1394 digital interface.
[0019]
The IRD 1 decodes a digital satellite broadcast reception signal and forms, for example, an NTSC video signal and an audio signal. The antenna terminal of the IRD 1 is connected to the low noise converter 5 attached to the parabolic antenna 4 via the cable 6. Radio waves from the satellite are transmitted in the 12 GHz band, for example. Radio waves from this satellite are received by the parabolic antenna 4 and converted to, for example, a signal of 1 GHz band by the low noise converter 5 attached to the parabolic antenna 4.
[0020]
The output of the low noise converter 5 is supplied to the antenna terminal of the IRD 1 via the cable 6. In IRD1, a signal of a desired carrier is selected from the received signals, and an MPEG2 transport stream is demodulated. A video packet and an audio packet of a desired program are extracted from the transport stream, and the video packet and the audio packet are decoded. For example, an NTSC video signal and an audio signal are decoded.
[0021]
The video output terminal and audio output terminal of the IRD 1 are connected to the video input terminal and audio input terminal of the television receiver 3 via the cable 7. The video signal and audio signal decoded by the IRD 1 are supplied to the video input terminal and the audio input terminal of the television receiver 3, and a reception screen of a desired program is displayed on the television receiver 3. Audio is output.
[0022]
The digital video cassette recording / reproducing apparatus 2 can perform digital recording and analog recording with the same tape cassette. The IRD 1 and the digital video cassette recording / reproducing apparatus 2 are connected via a cable 8 of an IEEE1394 digital interface.
[0023]
The video output terminal and the audio output terminal of the digital video cassette recording / reproducing apparatus 2 are connected to the video input terminal and the audio input terminal of the television receiver 3 via the cable 9. The antenna terminal of the digital video cassette recording / reproducing apparatus 2 is connected to the terrestrial antenna 11 via the cable 10.
[0024]
In this system, a digital video cassette recording / reproducing apparatus 2 can record / reproduce the MPEG2 transport stream based on the received output of the digital satellite broadcast received by the IRD 1. The recording method at this time differs depending on the IRD model and is either a single program method or a multi-program method.
[0025]
When a single program type IRD is connected, a transport stream of one program is extracted by IRD from a plurality of multiplexed transport streams, and the extracted transport stream is connected to a digital interface. To the digital video cassette recording / reproducing apparatus 2 via the recording medium. When a multi-program type IRD is connected, a plurality of multiplexed transport streams are transmitted from the IRD to the digital video cassette recording / reproducing apparatus via a digital interface and recorded as they are. The digital video cassette recording / reproducing apparatus only records the transport stream transmitted through the digital interface as it is, and the transport stream multiplexed from the multi-program type IRD is transmitted; The processing at the time of recording is the same as when one transport stream is transmitted from a single program type IRD.
[0026]
In addition, the digital video cassette recording / reproducing apparatus 2 can perform analog processing on a terrestrial broadcast signal and record it in an attached tape cassette.
[0027]
When analog processing is performed on a terrestrial broadcast signal and the signal is recorded on a tape cassette, the terrestrial broadcast signal is received by the antenna 11, and this received signal is sent to the terrestrial tuner circuit in the digital video cassette recording / reproducing apparatus 2. Supplied. In this terrestrial tuner circuit, a signal of a desired channel is selected, and an analog video signal and an audio signal are demodulated from the received signal. The analog video signal and audio signal are recorded in an analog manner on a tape cassette mounted on the digital video cassette recording / reproducing apparatus 2.
[0028]
When reproducing a video cassette in which video signals and audio signals are recorded in analog, the video cassette is mounted on the digital video cassette recording / reproducing apparatus 2 and reproduced. In the digital video cassette recording / reproducing apparatus 2, this reproduction signal is sent to the television receiver 3 through the cable 9, and a reception screen based on the analog signal reproduced from the tape cassette is displayed on the television receiver 3. And the sound is output. Similarly, the digital video cassette recording / reproducing apparatus 2 can also input an analog video signal or an analog audio signal from an analog device such as an 8 mm VTR, and record the analog video signal in an attached tape cassette.
[0029]
In addition, the digital video cassette recording / reproducing apparatus 2 can digitally record a terrestrial broadcast signal and record it digitally on an attached tape cassette.
[0030]
When the analog terrestrial broadcast signal is digitally processed and recorded in the tape cassette, the terrestrial broadcast signal is received by the antenna 11, and the received signal is received by the terrestrial tuner circuit in the digital video cassette recording / reproducing apparatus 2. To be supplied. In this terrestrial tuner circuit, a signal of a desired channel is selected, and an analog video signal and an audio signal are demodulated from the received signal. The analog video signal and audio signal are compressed and encoded in accordance with the MPEG2 format and digitally recorded on a tape cassette mounted on the digital video cassette recording / reproducing apparatus 2.
[0031]
When reproducing a video cassette in which a video signal and an audio signal of analog terrestrial broadcasting are digitally recorded, this video cassette is mounted on the digital video cassette recording / reproducing apparatus 2 and reproduced. When this playback signal is digitally output by the digital video cassette recording / playback apparatus 2, it is output to the IRD 1 and played back via the IEEE1394 interface. Further, when this reproduction signal is output in analog, it is compressed and decoded according to the MPEG format, output in analog, and sent to the television receiver 3 via the cable 9, and is sent to the television receiver 3 to the tape cassette. A reception screen based on the analog signal reproduced from is displayed and the sound is output. Similarly, the digital video cassette recording / reproducing apparatus 2 can also digitally record an analog video signal and an analog audio signal input from an analog device such as an 8 mm VTR, and digitally record them on an attached tape cassette.
[0032]
FIG. 2 shows the configuration of the IRD 1. As shown in FIG. 1, for example, a digital satellite broadcast radio wave transmitted via a satellite with a 12 GHz band radio wave is received by a parabolic antenna 4 and is 1 GHz by a low noise converter 5 attached to the parabolic antenna 4. Converted to a band signal. The output of the low noise converter 5 is supplied to the tuner circuit 101 of the IRD 1 via the cable 6.
[0033]
The tuner circuit 101 selects a signal having a predetermined carrier frequency from the received signals based on a control signal from a control CPU (Central Processing Unit) 111. The signal of the selected carrier frequency is supplied to the demodulation circuit 102. In the demodulation circuit 102, for example, QPSK (Quadrature Phase Shift Keying) demodulation processing is performed. The demodulated signal is supplied to the error correction processing circuit 103. The error correction processing circuit 103 performs processes such as Reed-Solomon decoding and Viterbi decoding.
[0034]
The output of the error correction circuit 103 is supplied to the descrambler 104. The descrambler 104 receives the received ECM (Entitlement Control Message) data and EMM (Entitlement Management Message) data and uses the descrambler stored in the IC card 113 installed in the IC card slot 112. Key data is supplied. The descrambler 104 descrambles the MPEG transport stream using the received ECM data and EMM data and the key data of the IC card 113. The descrambled MPEG2 transport stream is sent to the demultiplexer 105.
[0035]
The demultiplexer 105 separates a desired packet from the stream from the descrambler 105 based on a command from the CPU 111. A packet identifier (PID) is provided in the header portion of the transmission packet. The demultiplexer 105 extracts a video packet and an audio packet of a desired program based on this PID. The video packet of the desired program is sent to the MPEG2 video decoder 106, and the audio packet is sent to the MPEG audio decoder 108.
[0036]
The MPEG2 video decoder 106 receives the video signal packet from the demultiplexer 105 and performs MPEG2 decoding to form video data. This video data is supplied to the format converter 107. The format converter 107 converts the digital video signal output from the MPEG2 video decoder 106 into, for example, an NTSC analog video signal.
[0037]
The output of the format converter 107 is supplied to the television receiver 3 via an analog video output terminal (not shown).
[0038]
The MPEG audio decoder 108 receives the audio packet from the demultiplexer 105, performs MPEG audio decoding processing, and forms audio data before data compression. The decoded audio data is converted into an analog audio signal by the D / A conversion circuit 109 and then supplied to the television receiver 3 via an analog audio output terminal (not shown).
[0039]
An operation instruction for the IRD 1 is performed by the remote controller 115, and a remote control signal from the remote controller 115 is received by the light receiving unit 114 and supplied to the CPU 111. Also, a modem 117 is provided, and charging information is sent by the modem 117 to a broadcasting station or a charging center via a telephone line.
[0040]
The carrier frequency of the received signal is set based on the channel setting signal input by the viewer. When setting to a desired program, the reception frequency of the tuner 101 is set to a predetermined carrier frequency by referring to the NIT (Network Information Table). Then, referring to a PAT (Program Association Table) that is information about a channel at the carrier frequency, a PID packet of PMT (Program Map Table) that is information about a desired channel is extracted. By referring to this PMT, the PID of the video, audio and additional data packets of the desired channel can be obtained.
[0041]
The IRD 1 is provided with an IEEE 1394 digital interface 110. A transport stream can be input / output between the demultiplexer 105 and the IEEE 1394 interface 110. In the case of an IRD that supports a single program system, the demultiplexer 105 extracts a video packet and an audio packet of a desired program. An MPEG2 transport stream composed of video packets and audio packets of the desired program is sent from the demultiplexer 105 to the digital video cassette recording / reproducing apparatus 2 via the IEEE1394 digital interface 110. In the case of an IRD compatible with the multi-program system, a plurality of multiplexed transport streams sent at one carrier frequency are directed to the digital video cassette recording / reproducing apparatus 2 via the IEEE 1394 digital interface 110. Sent.
[0042]
When an MPEG2 transport stream (single program) reproduced by the digital video cassette recording / reproducing apparatus 2 is decoded by an IRD corresponding to the single program system, the MPEG2 from the digital video cassette recording / reproducing apparatus 2 is decoded. The transport stream is input via the IEEE 1394 digital interface 110 and sent to the demultiplexer 105. The demultiplexer 105 separates video packets and audio packets from the MPEG2 transport stream. The video packet is sent to the MPEG2 video decoder 106 and decoded. The audio packet is sent to the MPEG audio decoder 108 and decoded. The case of decoding an MPEG2 transport stream (multi-program) reproduced by the digital video cassette recording / reproducing apparatus 2 with an IRD corresponding to the single program method will be described later.
[0043]
When an MPEG2 transport stream (multiprogram) reproduced by the digital video cassette recording / reproducing apparatus 2 is decoded by an IRD corresponding to the multiprogram system, the MPEG2 from the digital video cassette recording / reproducing apparatus 2 is decoded. The transport stream is input via the IEEE 1394 digital interface 110 and sent to the demultiplexer 105. The demultiplexer 105 separates a video packet and an audio packet of a desired program based on a control signal from the CPU 111. The video packet is sent to the MPEG2 video decoder 106 and decoded. The audio packet is sent to the MPEG audio decoder 108 and decoded.
[0044]
When an MPEG2 transport stream (single program) reproduced by the digital video cassette recording / reproducing apparatus 2 is decoded by an IRD compatible with the multi-program method, the MPEG2 transformer from the digital video cassette recording / reproducing apparatus 2 is decoded. The port stream is input via the IEEE 1394 digital interface 110 and sent to the demultiplexer 105. The demultiplexer 105 separates the video packet and the audio packet. The video packet is sent to the MPEG2 video decoder 106 and decoded. The audio packet is sent to the MPEG audio decoder 108 and decoded.
[0045]
FIG. 3 shows the configuration of the digital video cassette recording / reproducing apparatus 2. The digital video cassette recording / reproducing apparatus 2 can perform digital recording / reproducing and analog recording / reproducing as described above. In order to perform digital recording / reproduction, a digital recording processing circuit 213 and a digital reproduction processing circuit 218 are provided. In order to perform analog recording / reproduction, an analog recording processing circuit 204 and an analog reproduction processing circuit 208 are provided.
[0046]
Overall control is performed by the CPU 224. An operation instruction to the digital video cassette recording / reproducing apparatus 2 is performed by the remote controller 227, and a remote control signal from the remote controller 227 is received by the light receiving unit 226 and supplied to the CPU 224. A nonvolatile memory 225 is connected to the CPU 224.
[0047]
When a transport stream from the IRD 1 is recorded (common to both the single program system and the multi-program system), the MPE 2 transport stream from the IRD 1 is input via the IEEE 1394 digital interface 223. The MPEG2 transport stream is supplied to the digital recording processing circuit 213 via the switch circuit 212. The digital recording processing circuit 213 performs error correction encoding processing and recording modulation processing on the transport stream data. The output of the digital recording processing circuit 213 is supplied to the head 214. As a result, the transport stream from the IRD 1 is recorded on the tape 206 of the tape cassette attached to the digital video cassette recording / reproducing apparatus 2.
[0048]
When playing back a tape cassette on which an MPEG2 transport stream (single program system) is recorded, the playback signal of the tape 206 is played back by the head 217, and the output of the head 217 is supplied to the digital playback processing circuit 218. . The digital reproduction processing circuit 218 performs demodulation processing and error correction processing. The output of the digital reproduction processing circuit 218 is supplied to the IEEE1394 digital interface 223 via the demultiplexer 219 and the switch circuit 220, and the reproduced transport stream is supplied to the IRD1. In this case, the demultiplexer 219 does not perform any processing.
[0049]
The IRD 1 demultiplexer 105 (FIG. 2) separates this transport stream into video packets and audio packets. The video packet is decompressed by the MPEG2 video decoder 106, converted into an NTSC video signal by the format converter 107, and sent to the television receiver 3 from a video output terminal (not shown). The audio packet is decompressed by the MPEG audio decoder 108, converted to an analog signal by the D / A conversion circuit 109, and sent to the television receiver 3 from an audio output terminal (not shown). A process for reproducing a tape cassette in which an MPEG2 transport stream (multi-program system) is recorded will be described later.
[0050]
In FIG. 3, when analog recording terrestrial broadcasting, a signal received by the antenna 11 is supplied to the terrestrial tuner circuit 201. A terrestrial tuner circuit 201 selects a desired broadcast reception signal, and an NTSC analog video signal and audio signal, for example, are demodulated from the reception signal. The analog video signal and analog audio signal are supplied to the analog recording processing circuit 204 via the switch circuits 202 and 203. The analog recording processing circuit 204 performs video signal and audio signal recording processing. That is, the luminance signal is FM-modulated, the chroma signal is converted to a low frequency, and the audio signal is FM-modulated. These signals are multiplexed and this signal is supplied to the head 205. Analog video signals and audio signals are recorded by the head 205 on the tape 206 of the mounted tape cassette.
[0051]
Further, analog video signals and analog audio signals supplied from an externally connected analog device (for example, 8 mm VTR) can be recorded in analog form. The analog video signal and analog audio signal supplied from the analog external input terminal 215 are supplied to the analog recording processing circuit 204 via the switch circuit 203. The analog recording processing circuit 204 performs video signal and audio signal recording processing. The subsequent processing is the same as the case of analog recording of the above-mentioned terrestrial broadcast.
[0052]
When reproducing an analog recorded tape cassette, the signal on the tape 206 is reproduced by the head 207 and supplied to the analog reproduction processing circuit 208. The analog playback processing circuit 208 performs playback processing of NTSC video and audio signals. That is, an FM modulated luminance signal, a low frequency conversion chroma signal, and an FM modulated audio signal are extracted from the reproduction signal. FM demodulation processing is performed on the FM modulated luminance signal to demodulate the luminance signal, and the low-frequency conversion chroma signal is returned to a chroma signal having a carrier frequency of 3.58 MHz. An NTSC video signal is formed from the luminance signal and the chroma signal. Also, FM demodulation processing is performed on the FM modulated audio signal, and the audio signal is demodulated. The video signal and audio signal are output from the analog output terminal 210.
[0053]
The digital video cassette recording / reproducing apparatus 2 can also digitally record terrestrial broadcast signals and analog video signals and analog audio signals supplied from externally connected analog devices. When digitally recording a terrestrial broadcast signal, the output signal of the terrestrial tuner circuit 201 is supplied to the A / D conversion circuit 216 via the switch circuit 202 and converted into a digital video signal and a digital audio signal. , And supplied to the MPEG encoder circuit 211. The MPEG encoder circuit 211 performs compression encoding processing of the digital video signal and the digital audio signal in accordance with the MPEG2 format. The compressed and encoded digital video signal and digital audio signal are supplied to the digital signal processing circuit 213 via the switch circuit 212. In the digital signal processing circuit 213, error correction encoding processing and recording modulation processing are performed and supplied to the head 214. As a result, a terrestrial broadcast signal is digitally recorded on the tape 206 of the tape cassette attached to the digital video cassette recording / reproducing apparatus 2.
[0054]
When digitally recording a signal supplied from an externally connected analog device, the analog video signal and the analog audio signal supplied from the analog external input terminal 215 are supplied to the A / D conversion circuit 216 to be a digital video signal. After being converted into a digital audio signal, it is supplied to the MPEG encoder circuit 211. The subsequent recording process is the same as the digital recording process of the terrestrial broadcast signal described above.
[0055]
The reproduction of the terrestrial broadcast signal digitally recorded in this way and the signal supplied from an externally connected analog device will be described. The reproduction signal of the tape 206 is reproduced by the head 217, and the output of the head 217 is supplied to the digital reproduction processing circuit 218. In the digital reproduction processing circuit 52, demodulation processing and error correction processing are performed. The output of the digital reproduction processing circuit 218 is supplied to the MPEG decoder circuit 221 via the demultiplexer 219 and the switch circuit 220. The MPEG decoder circuit 221 performs compression / expansion processing of the compressed and encoded digital video signal and digital audio signal. The decoded digital video signal and digital audio signal are supplied to the D / A conversion circuit 222, converted into an analog video signal and an analog audio signal, and output from the analog output terminal 210 via the switch circuit 209. In this case, the demultiplexer 219 does not perform any processing.
[0056]
Also, (1) the transport stream received from the IRD 1 is recorded by the digital interface, and the reproduced transport stream is decoded by the MPEG decoder 221 and output to the analog output terminal 210. (2) the terrestrial broadcast signal and the external The analog video signal and the analog audio signal supplied from the analog device connected to the PC are digitally recorded, and the reproduced signal is transmitted to the IRD1 through the digital interface and decoded by the MPEG2 video decoder 106 and the MPEG audio decoder 108 in the IRD1. It is also possible to do.
[0057]
Next, a description will be given of a first embodiment of processing at the time of reproduction of a transport stream recorded by the multi-program method. FIG. 4 is a flowchart showing the processing at this time. As shown in FIG. 4, first, the user issues an instruction to the digital video cassette recording / reproducing apparatus 2 from a remote controller or the like to reproduce the digital tape cassette (step S1).
[0058]
The digital video cassette recording / reproducing apparatus 2 having received the instruction to reproduce the digital tape cassette communicates with the IRD 1 connected via the IEEE 1394 digital interface, and inquires whether the IRD 1 is compatible with the multi-program recording system ( Step S2). The IRD 1 checks whether it is compatible with the multi-program recording method (step S3).
[0059]
As a result of the confirmation in step S3, if the IRD1 is compatible with the multi-program recording method, a transport stream in which a plurality of programs are multiplexed is output to the IRD1 as it is through the IEEE 1394 digital interface (step S4).
As a result of the confirmation in step S3, if the IRD 1 does not support the multi-program recording method, the demultiplexer 219 relates to each program recorded on the digital tape cassette from the transport stream in which a plurality of programs are multiplexed. Information (program number, program name, recording date and time, etc.) is extracted, such information is output to the IRD 1 via the IEEE 1394 digital interface, and information about each program recorded as shown in FIG. 7 is displayed on the television screen. (Step S5).
[0060]
The user selects the number of the program to be reproduced while viewing the information about each program recorded on the digital tape cassette on the television screen, the selected program number is discriminated on the IRD 1 side, and the selected program number is IEEE 1394. Are sent to the digital video cassette recording / reproducing apparatus 2 via the digital interface (step S6).
[0061]
Upon receiving the program number selected by the user, the digital video cassette recording / reproducing apparatus 2 side extracts a transport stream packet corresponding to the program number selected by the user in the demultiplexer 219 and transmits it through the IEEE 1394 digital interface. The program output to the IRD 1 and selected by the user is reproduced (step S7).
[0062]
In the above-described embodiment, information related to each program recorded on the digital tape cassette is extracted from the multiplexed transport stream by the demultiplexer 219. However, information related to the memory attached to the digital tape cassette is recorded. If it has been read, it may be read from this memory and output to the IRD 1 side.
[0063]
Next, a second embodiment will be described. In the first embodiment, it is determined whether or not the IRD 1 connected to the digital video cassette recording / reproducing apparatus 2 is compatible with the multi-program recording method when reproducing the digital tape cassette. When the IRD 1 is connected to the cassette recording / reproducing apparatus 2, it is determined whether or not the pre-connected IRD 1 is compatible with the multi-program recording system, and whether or not it is supported is determined in the digital video cassette recording / reproducing apparatus 2 You may memorize | store in a non-volatile memory etc.
[0064]
That is, as shown in FIG. 5, first, the digital video cassette recording / reproducing apparatus 2 detects whether or not the IRD 1 is connected (step S10), and if connected, the connected IRD 1 is a multiprogram. An inquiry is made to the IRD 1 as to whether the recording method is supported (step S11). After inquiring, the digital video cassette recording / reproducing apparatus 2 informs the nonvolatile memory 225 in the digital video cassette recording / reproducing apparatus 2 together with the device ID of the IRD 1 and information indicating whether the IRD 1 supports the multi-program recording method. (Step S12).
[0065]
next. The operation when reproducing a digital tape cassette (a digital tape cassette recorded by a multi-program method) in which a transport stream in which a plurality of programs are multiplexed is recorded from the digital video cassette recording / reproducing apparatus 2 will be described. As shown in FIG. 6, the user first instructs the digital video cassette recording / reproducing apparatus 2 from a remote controller or the like to reproduce the digital tape cassette recorded by the multi-program method (step S20).
[0066]
The digital video cassette recording / reproducing apparatus 2 that has received the instruction to reproduce the digital tape cassette reads information on the IRD1 stored in the nonvolatile memory 225 (step S21), and the connected IRD1 corresponds to the multi-program recording method. It is checked whether or not (step S22).
[0067]
If the result of step S22 is that IRD1 is compatible with the multi-program recording method, a transport stream in which a plurality of programs are multiplexed is output as is to IRD1 via the IEEE 1394 digital interface (step S23).
If it is determined in step S22 that the IRD 1 does not support the multi-program recording method, the demultiplexer 219 uses information related to each program recorded on the digital tape cassette from the transport stream in which a plurality of programs are multiplexed ( The program number, program name, recording date / time, etc.) are extracted, such information is output to the IRD 1 via the IEEE 1394 digital interface, and information on each program recorded as shown in FIG. Step S24).
[0068]
The user selects the number of the program to be reproduced while viewing the information about each program recorded on the digital tape cassette on the television screen, the selected program number is discriminated on the IRD 1 side, and the selected program number is IEEE 1394. Are sent to the digital video cassette recording / reproducing apparatus 2 side (step S25).
[0069]
On the digital video cassette recording / reproducing apparatus 2 side that has received the program number selected by the user, the transport stream packet corresponding to the program number selected by the user is extracted by the demultiplexer 219 and is transmitted via the IEEE 1394 digital interface. The program output to the IRD 1 and selected by the user is reproduced (step S26).
[0070]
In the second embodiment, for each IRD1, the device ID of the IRD1 is stored together with information indicating whether the IRD1 supports the multi-program recording method. Even when connected to the cassette recording / reproducing apparatus 2, it is possible to determine whether or not each IRD1 is compatible with the multi-program recording method, and to perform appropriate reproduction processing for each IRD1. Can do.
[0071]
Next, processing of the CPU 113 on the IRD 1 side in the first and second embodiments described above will be described. That is, processing on the IRD 1 side when the transport stream recorded by the multi-program method is reproduced by the digital video cassette recording / reproducing apparatus 2 will be described. First, when the IRD 1 does not correspond to the multi-program method (steps S3 and S5 in FIG. 4 and steps S22 and S24 in FIG. 6), as shown in the flowchart in FIG. Information related to the program (program number, program name, recording date and time, etc.) is received from the digital video cassette recording / reproducing apparatus 2 via the IEEE 1394 digital interface (step S30) and recorded on the television screen as shown in FIG. Information about each program is displayed (step S31).
[0072]
The user selects the number of the program to be reproduced while viewing the information about each program recorded on the digital tape cassette on the television screen (step S32), the selected program number is discriminated on the IRD 1 side, and the digital video cassette is selected. The control signal is sent to the digital video cassette recording / reproducing apparatus 2 side via the IEEE1394 digital interface so as to extract the transport stream packet corresponding to the program number selected by the user in the demultiplexer 219 on the recording / reproducing apparatus 2 side. (Step S33). With this control signal, the program selected by the user in the demultiplexer 219 of the digital video cassette recording / reproducing apparatus 2 is extracted and transmitted to the IRD 1 via the IEEE 1394 digital interface.
[0073]
Next, when the IRD 1 is compatible with the multi-program method (steps S3 and S4 in FIG. 4 and steps S22 and S23 in FIG. 6), a plurality of programs are multiplexed from the digital video cassette recording / reproducing apparatus 2. The received transport stream is received via the IEEE 1394 digital interface, and information (program number, program name, recording date and time) related to each program recorded in the digital tape cassette is digitally recorded as shown in the flowchart of FIG. Information is received from the video cassette recording / reproducing apparatus 2 via the IEEE1394 digital interface (step S40), and information on each recorded program is displayed on the television screen as shown in FIG. 7 (step S41).
[0074]
The user selects the number of the program to be reproduced while viewing the information related to each program recorded on the digital tape cassette on the television screen (step S42), the selected program number is discriminated on the IRD1 side, and the program on the IRD1 side is selected. The transport stream packet corresponding to the program number selected by the user in the demultiplexer 106 is extracted and supplied to the MPEG video decoder 106 and the audio decoder 108, and the program selected by the user is reproduced on the television screen ( Steps S43 and 44).
[0075]
Also, in this embodiment, when the IRD 1 does not support the multi-program recording method, information (program number, program number) about each program from the transport stream in which a plurality of programs recorded on the digital tape cassette are multiplexed. (Name, date and time of recording, etc.) are extracted and displayed on the television screen, but such information may be displayed on the liquid crystal panel of the digital video cassette recording / reproducing apparatus 2, for example.
[0076]
Also, in this embodiment, when the IRD 1 does not support the multi-program recording method, information (program number, program number) about each program from the transport stream in which a plurality of programs recorded on the digital tape cassette are multiplexed. Name, recording date and time, etc.) are extracted and displayed on the television screen, and these pieces of information are stored in the non-volatile memory 225 in the digital video cassette recording / reproducing apparatus 2 together with the ID of the digital tape cassette in which the information is recorded. If the IRD 1 does not support the multi-program recording method, information related to the program corresponding to the ID of the digital tape cassette reproduced from the nonvolatile memory 225 is read out and output to the IRD 1 for display on the television screen. May be.
[0077]
In this embodiment, the MPEG2 transport stream from the IRD 1 is recorded / reproduced with respect to the digital video cassette. However, the MPEG2 transport stream from the IRD 1 is a DVD, CD-R or hard disk. Recording / reproducing may be performed on a recording medium such as the above.
[0078]
【The invention's effect】
According to the present invention, when a digital broadcast recording / reproducing apparatus reproduces a recording medium on which a transport stream in which a plurality of programs are multiplexed is recorded, an IRD connected via an IEEE 1394 digital interface is used. Appropriate playback processing can be performed depending on whether or not the multi-program recording method is supported. As a result, a recording medium recorded by the multi-program recording method is mounted on the recording / reproducing apparatus, and a transport stream in which a plurality of programs are multiplexed at the time of reproduction is an IRD that does not support the multi-program recording method or is compatible. Even when the data is output to the IRD, the user is not confused. Even when a plurality of IRDs are connected to the recording / reproducing apparatus, it is possible to perform appropriate reproduction processing for each IRD in order to determine whether each IRD is compatible with the multi-program recording method. it can.
[Brief description of the drawings]
FIG. 1 is a block diagram of an example of a digital satellite broadcast receiving and recording / reproducing system to which the present invention is applied.
FIG. 2 is a block diagram of an example of an IRD in a digital satellite broadcast receiving and recording / reproducing system to which the present invention is applied.
FIG. 3 is a block diagram of an example of a digital video cassette recording / reproducing apparatus in a digital satellite broadcast receiving and recording / reproducing system to which the present invention is applied.
FIG. 4 is a flowchart used for explaining an example of processing in the case of reproducing a recording medium on which a transport stream of a multi-program recording system is recorded.
FIG. 5 is a flowchart used for explaining an example of processing at the time of setting when an IRD is connected to the recording / reproducing apparatus.
FIG. 6 is a flowchart used for explaining another example of processing in the case of reproducing a recording medium on which a multi-program recording method transport stream is recorded.
FIG. 7 is a screen display example when information relating to each program recorded in the digital tape cassette is displayed on a television screen.
FIG. 8 is a flowchart used to describe the processing of an IRD CPU that supports a single program when a recording medium on which a multi-program recording transport stream is recorded is reproduced.
FIG. 9 is a flowchart used for explaining the processing of the CPU of the multiprogram-compatible IRD when a recording medium on which a transport stream of the multiprogram recording system is recorded is reproduced.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... IRD, 2 ... Digital video cassette recording / reproducing apparatus, 3 ... TV receiver

Claims (12)

In a playback device for playing back video / audio data from a recording medium,
Reproducing means for reproducing multiplexed data obtained by compressing and multiplexing video / audio data corresponding to a plurality of programs,
Interface means for exchanging video / audio data with a digital broadcast receiver;
Determining means for receiving the reproduced multiplexed data via the interface and determining whether video / audio data corresponding to a desired program can be extracted by the receiving device;
Extraction means for extracting video / audio data corresponding to a desired program from the reproduced multiplexed data,
When it is determined by the determining means that the receiving device cannot extract the video / audio data corresponding to the desired program, the extracting means extracts the video / audio data corresponding to the desired program, and the extracted video A reproduction apparatus characterized in that audio data is output to the reception apparatus via the interface means.   The determining means determines whether the receiving device can extract video / audio data corresponding to a desired program by inquiring whether the receiving device can demodulate the multiplexed data transport stream. The reproducing apparatus according to claim 1, which is configured to do so.   The reproducing apparatus according to claim 2, wherein an inquiry as to whether or not the multiplexed data transport stream can be demodulated is made when reproduction is started. Storing information on whether the receiving apparatus can demodulate the multiplexed data transport stream in a storage medium;
2. The reproducing apparatus according to claim 1, wherein the determining means determines whether or not the receiving apparatus can extract video / audio data corresponding to a desired program based on information read from the storage medium. .   When the receiving apparatus is mounted, the receiving apparatus inquires whether or not the multiplexed data transport stream can be demodulated, and whether or not the multiplexed data transport stream obtained by the inquiry can be demodulated. The reproducing apparatus according to claim 4, wherein information is stored in the storage medium. Along with information on whether or not the multiplexed data transport stream can be demodulated, ID information for identifying the device is stored in the storage medium,
The discriminating means identifies a device attached from the ID information when the receiving device is attached, and whether or not the device corresponding to the ID information can demodulate a multiplexed data transport stream from the storage medium. 2. The reproduction according to claim 1, wherein the information is read out, and whether or not the receiving apparatus can extract video / audio data corresponding to a desired program is determined based on the information read from the storage medium. apparatus. In a playback method for connecting video / audio data to / from a receiving device of digital broadcasting by connecting with interface means for exchanging video / audio data to the receiving device,
When reproducing multiplexed data by compressing video / audio data corresponding to multiple programs from a recording medium,
Determining whether the receiving device can extract video / audio data corresponding to a desired program;
When it is determined that the receiving apparatus cannot extract the video / audio data corresponding to the desired program, the video / audio data corresponding to the desired program is extracted, and the extracted video / audio data is used as the interface means. A playback method characterized in that the data is output to the receiving device via a receiver. A request for determining whether or not the receiving device can extract video / audio data corresponding to a desired program by inquiring whether or not the receiving device can demodulate a multiplexed data transport stream. Item 8. A reproduction method according to Item 7 . 9. The reproduction method according to claim 8 , wherein an inquiry as to whether or not the multiplexed data transport stream can be demodulated is made when reproduction is started. Storing information on whether the receiving apparatus can demodulate the multiplexed data transport stream in a storage medium;
8. The reproduction method according to claim 7 , wherein it is determined whether or not the receiving apparatus can extract video / audio data corresponding to a desired program based on information read from the storage medium. When the receiving apparatus is mounted, the receiving apparatus inquires whether or not the multiplexed data transport stream can be demodulated, and whether or not the multiplexed data transport stream obtained by the inquiry can be demodulated. The reproduction method according to claim 10 , wherein information is stored in the storage medium. Along with information on whether or not the multiplexed data transport stream can be demodulated, ID information for identifying the device is stored in the storage medium,
When the receiving device is attached, the attached device is identified from the ID information, and information on whether the device corresponding to the ID information can demodulate the multiplexed data transport stream is read from the storage medium. The reproduction method according to claim 7 , wherein it is determined whether or not the receiving apparatus can extract video / audio data corresponding to a desired program based on information read from the storage medium.

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