JP4580473B2 - Transmitting apparatus, receiving apparatus, and information storage system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission device, a reception device, and an information storage system suitable for use in music broadcasting by digital satellite broadcasting.
[0002]
[Prior art]
Digital satellite broadcasting is spreading. Digital satellite broadcasts are more resistant to noise and fading than existing analog broadcasts, can transmit high quality signals, improve frequency utilization efficiency, and increase the number of channels. For example, in digital satellite broadcasting, it is possible to secure several hundred channels with one satellite. In such digital satellite broadcasting, dedicated channels for sports, movies, music, news, etc. are prepared, and programs of specialized contents are broadcast all day on these specialized channels.
[0003]
Among these specialized channels, the music channel is one of the popular channels. In conventional music channels, promotional videos are mainly broadcast and new song introductions and hit song programs are broadcast.
[0004]
As described above, conventionally, on music channels, new song introductions and hit song programs are sent as moving images and sounds. When viewers watch a music channel like this and find a song they like, they often want to purchase and enjoy the CD (Compact Disc) of the song being introduced. In addition, it is often desirable to know information on the artist of the music and information on the album in which the music is stored. If you are watching a music program and want to know the artist information of the song and the information about the album that contains the song, you can get that information on the spot. It is very convenient if you can download music data.
[0005]
Accordingly, the applicant of the present application transmits music using a plurality of audio channels, and also transmits data for forming a screen of a list page of music to be transmitted and an information page of each music, and audio data for download. Then, when a list page or information page is displayed on the screen and a song is selected, the system is switched to an audio channel through which the desired song is transmitted, and further, a desired song can be downloaded. In such a system, if there is a favorite song by looking at a list page or an information page, the audio channel of the song is selected, and the signal of this audio channel is stored in a storage device such as an MD (Mini Disc) recorder / player. Can be recorded.
[0006]
[Problems to be solved by the invention]
However, in digital satellite broadcasting, a signal is sent in one direction from a broadcasting station to a receiving station. For this reason, when recording a sent music piece with a storage device, unless the timing is carefully set, the head is cut off or the recording ends in the middle of the music piece.
[0007]
In other words, in the case of recording a broadcasted music piece with an MD recorder / player or the like, conventionally, the user sets the MD recorder / player or the like to a recording pause state and starts broadcasting the music piece. When the music starts broadcasting, the pause state is canceled and recording is started. When the music is broadcast, the recording is stopped and recording is ended. However, the operation of setting the recording start and recording end by the user in this way is troublesome for the user, and if the user pays no attention to set the timing, the beginning of the music is interrupted or recording is performed in the middle of the music. It ends.
[0008]
Accordingly, an object of the present invention is to provide a transmission device, a reception device, and an information storage system that can be surely recorded from the beginning to the end of a broadcasted music piece with a simple operation.
[0009]
[Means for Solving the Problems]
  The invention according to claim 1Multiple channel channelsChannelEveryThe same music is repeatedly transmitted within a predetermined period, and is included in audio digital data consisting of multiple music of multiple channels and audio digital dataAt least some of the songsTo musicSekiDataPressureShrinkageBy encodingCompressed,Compressed and encoded data is grouped into units for transmission of audio digital data.Unit within a predetermined period through a channel different from the channelRepeatedAudio data for download to be sent,To display a list of songs to be sent and information related to the songsIn a receiving apparatus for receiving a signal multiplexed with digital data for forming an information screen,
  digitalDecode the dataThrough multiple channelsMultiple songs that can be receivedoflistWhen a song to be stored is selected from the list, information related to the song is displayed.DisplayScreenProjectInformation screen displayMeans,
  Desired music in the list of multiple songs to be shownSongAccumulated by specifyingEasyAn input means for selecting a song;
  A specific channelReceivedPlayback means for repeatedly playing the selected music through a specific channel;
  Played repeatedlySelected musicConcerningAudio digital dataInserted for easySong start positionAnd end position respectivelyAn identification signal detecting means for detecting a head identification signal and an end identification signal,
  Accumulated selected from voice digital dataEasyThe head identification signal for the songBy identification signal detection meansDetectedWhenGenerated and accumulated recording start commandEasyThe end identification signal for the songBy identification signal detection meansDetectedWhenControl means for generating a recording end command;With
  A recording start command and a recording end signal from the control means are output to the storage means.This is a receiving device.
[0010]
  The invention according to claim 2Multiple channel channelsChannelEveryThe same music is repeatedly transmitted within a predetermined period, and is included in audio digital data consisting of multiple music of multiple channels and audio digital dataAt least some of the songsTo musicSekiDataPressureShrinkageBy encodingCompressed,Compressed and encoded data is grouped into units for transmission of audio digital data.Unit within a predetermined period through a channel different from the channelRepeatedAudio data for download to be sent,To display a list of songs to be sent and information related to the songsA receiving device for receiving a signal multiplexed with digital data for forming an information screen;
  It consists of a storage device that stores the output of the receiving device,
  The receiving device
  digitalDecode the dataThrough multiple channelsMultiple songs that can be receivedoflistWhen a song to be stored is selected from the list, information related to the song is displayed.DisplayScreenProjectInformation screen displayMeans,
  Desired music in the list of multiple songs to be shownSongAccumulated by specifyingEasyAn input means for selecting a song;
  A specific channelReceivedPlayback means for repeatedly playing the selected music through a specific channel;
  Played repeatedlySelected musicConcerningAudio digital dataInserted for easySong start positionAnd end position respectivelyAn identification signal detecting means for detecting a head identification signal and an end identification signal,
  Accumulated selected from voice digital dataEasyThe head identification signal for the songBy identification signal detection meansDetectedWhenGenerated and accumulated recording start commandEasyThe end identification signal for the songBy identification signal detection meansDetectedWhenControl means for generating a recording end command;With
  The storage device receives a recording start command from the receiving device,Selected musicRecording starts, and when a recording end command is given from the receiving deviceSelected musicThe information storage system is characterized in that the recording is completed.
[0015]
Each audio data sent through a plurality of audio channels is provided with a start flag and an end flag corresponding to the beginning and end of the music. When recording the audio signal sent through the audio channel in the storage device, by detecting the start flag and the end flag, each music piece can be reliably recorded in the storage device from the beginning to the end. In addition, ID data is inserted into the download audio data stream in correspondence with the beginning and end of the music. When recording the audio signal sent through the audio channel in the storage device, each piece of music can be reliably recorded in the storage device from the beginning to the end by detecting this ID data.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
The system to which the present invention was applied was liked by a viewer who listened to a music program by broadcasting a music program using digital satellite broadcasting and delivering audio data related to the music program. If there is a song, it can be easily purchased on the spot.
[0017]
FIG. 1 shows the overall configuration of a system to which the present invention is applied. In FIG. 1, reference numeral 1 denotes a ground station of a satellite broadcasting system. The ground station 1 includes music program broadcast material from the program broadcast material server 11, audio channel material from the audio channel program broadcast material servers 12 A, 12 B,... And download from the download audio data material server 13. And data for displaying a graphic user interface screen from the GUI data server 14 are sent.
[0018]
The program broadcast material server 11 is a server that provides materials for a normal music broadcast program. The music broadcast material sent from the program broadcast material server 11 is a video and audio. In a normal music broadcast program, for example, a promotion video introducing a new song is broadcast, or the latest hit song countdown is performed. It is aired.
[0019]
The audio channel program broadcast material servers 12A, 12B,... Are servers that provide audio programs using audio channels. The audio channel program broadcast material is only audio. In each audio channel program broadcast, the same music is broadcast repeatedly for a predetermined unit time, and this music is related to a music for download described later. Each audio channel is independent, and various methods of using each audio channel can be considered. For example, on one audio channel, the recommended song in the latest Japanese pop is repeatedly broadcast for a predetermined time, and on the other audio channel, the recommended song in the latest American pop is repeatedly broadcast for a predetermined time. On other audio channels, the recommended music from jazz may be repeatedly broadcast for a predetermined time. Further, a plurality of music pieces of the same artist may be divided into respective audio channels and broadcast repeatedly.
[0020]
The download audio data material server 13 provides a plurality of audio data for download. This audio data for download is related to the music broadcast on the audio channel program broadcast. That is, for example, as described above, on one audio channel, the latest recommended Japanese pop music is repeatedly broadcast for a predetermined time, and on the other audio channels, the latest American pop recommended music is repeated for a predetermined time. In other audio channels, it is assumed that the recommended music is repeatedly broadcast for a predetermined time from jazz. In this case, audio data of the latest recommended Japanese pop songs featured on the audio channel, the latest recommended American pop songs, and recommended music in jazz are provided as audio data for download.
[0021]
Note that the music broadcast on the audio channel program is a music broadcast for introduction, and may include narration for music introduction or commercials.
[0022]
On the other hand, with the audio data for download, narration and commercials for introducing the music are avoided as much as possible, and the audio data is sent as complete as possible. The audio data for download is improved in sound quality as compared with the sound transmitted in the audio channel program.
[0023]
A GUI (Graphic User Interface) data server 14 includes data for forming a screen for a list page of music to be distributed and an information page for each music, data for forming a screen for an EPG (Electric Program Guide), and the like. Is to provide. As will be described later, a list of songs that can be downloaded and information about the songs can be viewed while viewing the display on the screen. Data for that purpose is sent from the GUI data server 14.
[0024]
The ground station 1 includes the video data and audio data as the material of the music program broadcast from the program broadcast material server 11, and the audio data as the material of the audio channel from the audio channel program broadcast material servers 12A, 12B,. The download data from the download audio data material server 13 and the data from the GUI data server 14 are multiplexed and transmitted. At this time, video data of the music program broadcast is compressed by, for example, MPEG2 (Moving Picture Experts Group) method, audio data of each audio channel is compressed by, for example, MPEG2 audio method, and download audio data is, for example, ATRAC (Adaptive It is compressed by Transform Acoustic Coding) 2. The download audio data is encrypted using the key information from the key information server 15.
[0025]
A signal from the ground station 1 is received by the receiving equipment 3 in each home via the satellite 2. The satellite 2 is equipped with a plurality of transponders. One transponder has, for example, a transmission capability of 30 Mbps.
[0026]
A parabolic antenna 21, an IRD 22 (Integrated Receiver Decoder), a storage device 23, and a television receiver 24 are prepared as reception facilities in each home. The parabola antenna 21 receives a signal transmitted via the satellite 2. This received signal is converted to a predetermined frequency by an LNB (Low Noise Block Downconverter) 25 attached to the parabolic antenna 11 and supplied to the IRD 22.
[0027]
The IRD 22 selects a predetermined channel signal from the received signal and demodulates the video signal and the audio signal. Further, the IRD 22 forms a list page of music to be distributed, an information page of each music, and an EPG screen. The output of the IRD 22 is supplied to the television receiver 24.
[0028]
The storage device 23 is for storing downloaded audio data. For example, as the storage device 23, it is conceivable to use an MD recorder / player, a DCC recorder / player, a DAT recorder / player, a DVD recorder / player, or the like. It is also conceivable to use a personal computer as the storage device 23 and store audio data on a hard disk drive or save audio data on a CD-R.
[0029]
The IRD 22 is connected to the accounting server 5 via the telephone line 4, for example. An IC card in which various information is recorded is inserted into the IRD 22. When the audio data is downloaded, the information is recorded on the IC card. This IC card information is sent to the accounting server 5 via the telephone line 4. The accounting server 5 performs appropriate accounting from this download information and charges the user. In this way, the copyright of the music to be downloaded can be protected by performing an appropriate charge.
[0030]
As described above, in the system to which the present invention is applied, the ground station 1 receives the video data and audio data as the material of the music program broadcast from the program broadcast material server 11, and the audio channel program broadcast material servers 12A, 12B,. Audio data as audio channel material, download data from the download audio data material server 13, and data from the GUI data server 14 are multiplexed and transmitted.
[0031]
When this broadcast is received by the receiving equipment 3 at each home, a music program can be viewed and a graphic screen is displayed based on the data sent from the GUI data server. If necessary operations are performed while viewing this graphic screen, an information page for each song can be viewed, and a trial listening for each song can be performed. Furthermore, desired audio data can be downloaded and recorded in the storage device 23 by performing necessary operations while viewing the graphic screen.
[0032]
As described above, in the system to which the present invention is applied, a music broadcast program is transmitted, music is transmitted using a plurality of audio channels, and audio data for downloading the music is transmitted. Then, using the list page of the music to be broadcast and the information page of each music, it is possible to easily store the data of the desired music in the storage device while searching for information on each music. Hereinafter, such a system will be described in more detail.
[0033]
FIG. 2 shows the configuration of the ground station 1 in the system to which the present invention is applied.
[0034]
In FIG. 2, the video data from the program broadcast material server 11 is supplied to the MPEG2 video encoder 51A and the MPEG2 audio encoder 51B. The audio data from the audio channel program broadcast material servers 12A, 12B,... Is supplied to the MPEG2 audio encoders 52A, 52B,. Download audio data from the download audio data material server 13 is supplied to the ATRAC2 encoder 53. Data for displaying a graphic user interface screen from the GUI data server 14 is supplied to the GUI data authoring circuit 54.
[0035]
The video signal from the program broadcast material server 11 is compressed by the MPEG2 video encoder 51A and packetized. This video packet is supplied to the multiplexer 56. The audio signal from the program broadcast material server 11 is compressed and packetized by the MPEG2 audio encoder 51B. The audio packet is supplied to the multiplexer 56.
[0036]
In the MPEG2 audio encoders 52A, 52B, 52C,..., Audio data from the audio channel program broadcast material servers 12A, 12B,... Is compressed and packetized based on the MPEG2 audio system. At this time, a start flag and an end flag are generated from the identification signal generation circuits 41A, 41B,..., And the start flag and end flag are added corresponding to the start and end positions of each song.
[0037]
That is, MPEG2 audio includes a header, an error check code, audio data, a transmission channel, multilingual, and ancillary data, as shown in FIG. Arbitrary data can be inserted into the ancillary data. Therefore, a start flag and an end flag can be inserted into this ancillary data.
[0038]
The start flag and the end flag are used by the receiving equipment 3 side of each household to ensure that the recorded audio channel data can be recorded from the beginning to the end of each song when the storage 23 records it. The The start flag and the end flag are also used when performing a control for reserving music to be recorded on the receiving facility 3 side.
[0039]
In FIG. 2, the ATRAC2 encoder 53 compresses the audio data for download from the download audio data material server 13 by the ATRAC2 system and packetizes it. This data packet is sent to the encryption circuit 57. The data packet is encrypted by the encryption circuit 57. The output of the encryption circuit 57 is supplied to the multiplexer 56. In this way, each audio data is encrypted in order to prevent illegal downloading and infringement of copyright. Also, information for decryption at this time is sent from the encrypted information generating circuit 58 to the multiplexer 56.
[0040]
  Also, ATRAC2 encoder 53When the packet is formed, ID data is sent from the ID generation circuit 42 corresponding to the start and end positions of each song. This ID signal is included in the header of the data packet.
[0041]
This ID data is used to ensure recording from the beginning to the end of each song when the received audio channel data is recorded by the storage 23 on the receiving equipment 3 side of each home. The flag and ID data are also used when performing control such as reserving music to be recorded on the receiving facility 3 side.
[0042]
The GUI data authoring circuit 54 processes and packetizes the graphic user interface screen data from the GUI data server 14. This data packet is supplied to the multiplexer 56.
[0043]
In the multiplexer 56, the video packet from the MPEG2 video encoder 51A, the audio packet from the MPEG2 audio encoder 51B, the audio packet from the MPEG2 audio encoders 52A, 52B, 52C,. And the data packet from the GUI data authoring circuit 54 are multiplexed.
[0044]
The output of the multiplexer 56 is supplied to the QPSK modulation circuit 57. The transmission data is QPSK modulated by the QPSK modulation circuit 57. The output of the QPSK modulation circuit 57 is supplied to the high frequency circuit 58. The high frequency circuit 58 performs frequency conversion so that the carrier frequency becomes a predetermined frequency, and power amplification is performed. The output of the high frequency circuit 58 is transmitted from the antenna 59 toward the satellite 2.
[0045]
Thus, in the ground station 1, video data and audio data for program broadcasting are compressed by the MPEG2 system, audio data of the audio channel is compressed by the MPEG2 audio system, and audio data for download is compressed by the ATRAC2 system. The The video data, audio data, download audio data, and GUI data are multiplexed and transmitted.
[0046]
FIG. 4 shows an example of data transmitted from the ground station 1. As shown in FIG.₁To time T₂Is one program (program PRG1), and time T₂To time T_ThreeIs one program (program PRG2). The duration of each program PRG1, PRG2 is usually 30 minutes or 1 hour.
[0047]
As shown in FIG.₁To time T₂In the program PRG1, music programs related to the music pieces A1, A2, A3,... In addition, time T₂To time T_ThreeIn the program PRG2, music programs related to the music pieces A11, A12, A13,. This normal music program is broadcasted with moving images and audio.
[0048]
For example, 10 channels of channels CH1 to CH10 are prepared as audio channels. At this time, in each audio channel CH1, CH2, CH3,..., The same music is repeatedly transmitted during one program PRG1, PRG2. That is, time T₁To time T₂In the program PRG1, the music B1 is repeatedly transmitted on the audio channel CH1, the music C1 is repeatedly transmitted on the audio channel CH2, and the music D1 is repeatedly transmitted on the audio channel CH3. Time T₁To time T₂In the program PRG2, the music B11 is repeatedly transmitted on the audio channel CH1, the music C11 is repeatedly transmitted on the audio channel CH2, and the music D11 is repeatedly transmitted on the audio channel CH3.
[0049]
As for the audio data for download, for example, 10 minutes of data is sent in 1 minute with 1 minute as one unit. In the download audio data, data corresponding to the audio channels CH1, CH2, CH3,... CH10 is sent.
[0050]
That is, time T₁To time T₂In the program PRG1, 10 pieces of audio data (music B1, music C1, music D1,...) Transmitted on the audio channels CH1, CH2, CH3,. Time T₂To time T_ThreeIn the program PRG2, audio channel data (music B11, music C11, music D11,...) For 10 songs transmitted on the audio channels CH1, CH2, CH3,.
[0051]
Audio data for download is sent in units of 1 minute, for example. Data for displaying images on a download list page or music selection page, data for EPG, etc. in units of 10 seconds Sent.
[0052]
As shown in FIG. 4, in each program PRG1 and PRG2, normal video broadcast data, data of a plurality of audio channels, download audio data, and GUI data are multiplexed and sent. come. Therefore, the bit rate of normal program broadcast data is B₁B bit rate of one audio channel₂, N is the number of audio channels, and B is the bit rate of the audio data for download._Three, The bit rate of the GUI data is B_FourThen, overall bit rate B_AIs
B_A= B₁+ N · B₂+ B_Three+ B_Four
It becomes.
[0053]
Bit rate of normal program broadcast data is B₁Is per channel,
B₁= 5 Mbps.
[0054]
Bit rate B per channel for audio channels CH1, CH2, CH3,...₂The
B₂= 256 kbps
And If the number of channels n is 10 channels, for example,
n · B₂= 256 kbps x 10 = 2.56 Mbps
It is.
[0055]
Assume that the download audio data compressed by ATRAC2 is 128 kbps. In the audio data for download, it is assumed that the time per song is 5 minutes and 10 songs are sent in 1 minute. In this case, the bit rate of the audio data for download is B_ThreeIs
B_Three= 128 kbps x 10 songs x 5 minutes x 60 seconds / 60 seconds = 6.4 Mbps
It becomes.
[0056]
As data for CGI, it is assumed that data of 200 kbytes per song is used. Then, 10 songs are sent in 10 seconds. In this case, the bit rate B of the data for CGI_FourIs
B_Four= 200 kbytes x 10 songs x 8 bits / 10 seconds = 1.6 Mbps
It becomes.
[0057]
Therefore, the overall bit rate B_AIs
B_A= B₁+ N · B₂+ B_Three+ B_Four
= 5 Mbps + 2.56 Mbps + 6.4 Mbps + 1.6 Mbps
= 15.56 Mbps
It becomes. This means that since one transponder of satellite 2 is 30 Mbps, it can be sent using half of one transponder.
[0058]
Next, the receiving equipment 3 in each home will be described. As shown in FIG. 1, a parabolic antenna 21, an IRD 22, a storage device 23, and a television receiver 24 are prepared as reception facilities in each home. As the storage device 23, various devices such as an MD recorder / player, a DCC recorder / player, a DAT recorder / player, a DVD recorder / player, and the like can be used.
[0059]
FIG. 5 shows an example of the configuration of the IRD 22. In FIG. 5, the digital satellite broadcast from the satellite 2 is received by the parabolic antenna 21. The reception signal of the parabolic antenna 21 is supplied to an LNB 25 attached to the parabolic antenna 22, and the reception signal is down-converted to a signal having a predetermined frequency by the LNB 25.
[0060]
The output of the LNB 25 is supplied to the tuner circuit 71. The tuner circuit 71 selects a signal having a predetermined reception frequency from the reception signals based on the setting signal from the controller 76.
[0061]
The output of the tuner circuit 71 is supplied to the QPSK demodulation circuit 72. The received signal is QPSK demodulated by the QPSK demodulating circuit 72, and the bit stream of the received signal is demodulated. The output of the QPSK demodulation circuit 72 is supplied to the error correction circuit 73. An error correction circuit 73 detects and corrects an error.
[0062]
The output of the error correction circuit 73 is supplied to the demultiplexer 74. The demultiplexer 74 receives the bit stream signal output from the error correction circuit 73 and temporarily stores it in the data buffer memory 75. Then, this is framed in the form of a packet sequence, and it is determined whether or not the data is desired data for each packet, and the data is distributed.
[0063]
As described above, the ground station 1 sends video data and audio data for normal program broadcasting, audio data of a plurality of audio channels, audio data for download, and GUI data. come. The video data is compressed by the MPEG2 system, the audio data is compressed by the MPEG2 audio system, and the download audio data is compressed by the ATRAC2 system.
[0064]
The demultiplexer 74 sorts the received packets into video data, audio data, download audio data, and GUI data.
[0065]
The video data distributed by the demultiplexer 74 is supplied to the MPEG2 video decoder 78. The MPEG2 video decoder 78 appropriately stores the input digital video signal in the buffer memory 79 and decodes the video signal compressed by MPEG2. The component video signal is decoded by the MPEG2 video decoder 78.
[0066]
The output of the MPEG2 video decoder 78 is supplied to, for example, an NTSC analog video encoder 80. The analog video encoder 80 forms, for example, an NTSC composite video signal from the component video signal. This video signal is output from the output terminal 81.
[0067]
The audio data of the audio channel is supplied to the MPEG2 audio decoder 82. The MPEG audio decoder 82 appropriately stores the input digital audio signal in the buffer memory 83 and decodes the digital audio signal.
[0068]
The output of the MPEG2 audio decoder 82 is supplied to the D / A converter 84. The digital audio signal is converted into an analog audio signal by the D / A converter 84. The output of the D / A converter 84 is output from the output terminal 85.
[0069]
The audio data for download is temporarily stored in the buffer memory 86. The output of the buffer memory 86 is supplied to the decryption circuit 87. As described above, the download audio data is encrypted, and a key necessary for decryption is generated from the IC card 88.
[0070]
The gate circuit 89 is supplied with download completion information from the buffer memory 86 and is supplied with information necessary for decryption received from the demultiplexer 74.
[0071]
When downloading audio data, when the data is stored in the buffer memory 86, the gate circuit 89 is opened, and information necessary for decryption is supplied to the IC card 88. As a result, the key is passed from the IC card 88 to the encryption circuit 87. The encryption / decryption circuit 87 decodes the encryption based on the key from the IC card 88. At this time, billing information is stored in the IC card 88.
[0072]
The output of the decryption circuit 87 is supplied to the ATRAC2 decoder 90 and also supplied to the terminal 91B of the switch circuit 91. The ATRAC2 decoder 90 performs ATRAC2 decoding processing. A PCM audio signal is output from the ATRAC2 decoder 90. The output of the ATRAC2 decoder 90 is supplied to the input terminal 91A of the switch circuit 91.
[0073]
The switch circuit 91 is controlled by the controller 76. When the switch circuit 91 is set to the terminal 91A side, the switch circuit 91 outputs a PCM audio signal. When the switch circuit 91 is set to the terminal 91B side, a digital audio signal compressed by the ATRAC2 method is output from the switch circuit 91.
[0074]
The output of the switch circuit 91 is supplied to the watermark adding circuit 92. The watermark adding circuit 92 adds a digital watermark to audio data in order to protect copyright.
[0075]
The output of the watermark adding circuit 92 is supplied to the digital signal output terminal 93 and also to the D / A converter 94. The digital audio signal is converted into an analog audio signal by the D / A converter 94. This analog audio signal is output from the output terminal 95. A digital audio signal (with a watermark added) is output from the digital signal output terminal 93.
[0076]
The GUI data is supplied to the controller 76. On the basis of these data, the controller 76 forms a list page screen, an information page screen for each music piece, or an EPG screen. The screen thus formed is written in a predetermined area of the buffer memory 79. As a result, the list page of the music to be broadcast, the screen of the information page of each music, or the EPG screen can be displayed in a designated area on the screen.
[0077]
The controller 76 performs the entire process. Further, an input is given to the controller 76 via an input key 98. A modem 99 is connected to the controller 76. Information necessary for charging is recorded on the IC card 88. Information on the IC card 88 is sent to the accounting server 5 (FIG. 1) via the telephone line 4 using the modem 99.
[0078]
Further, a control signal input / output terminal 97 is provided, and the control signal input / output terminal 97 and the controller 76 are connected. Control signals are exchanged between the storage device 23 and the controller 76 via the control terminal 96.
[0079]
Further, for example, an IEEE 1394 digital interface 96 is provided. The digital interface 96 is supplied with the output of the watermark adding circuit 92 and can exchange control signals with the controller 76 via the digital interface 96.
[0080]
As described above, the IRD 22 has an output terminal 95 for outputting analog audio, a data output terminal 93 such as IEC958 for outputting PCM audio data or audio data compressed by ATRAC2, and a digital signal such as IEEE1394. An interface 96 and a control signal input / output terminal 97 are provided.
[0081]
Thus, since it has a plurality of output terminals, it can be connected to the storage device 23 in accordance with the input terminals provided in the storage device.
[0082]
That is, when the storage device 23 has only an analog audio input terminal, an analog audio signal output terminal 95 is used to connect the IRD 22 and the storage device 23.
[0083]
When the storage device 23 has a PCM data digital input terminal, the data output terminal 93 is used to connect the IRD 22 and the storage device 23. At this time, the switch circuit 91 is set to the terminal 91A side.
[0084]
When the storage device 23 has an input terminal for ATRAC data, a digital signal output terminal 93 is used to connect the IRD 22 and the storage device 23. At this time, the switch circuit 91 is set to the terminal 91B side.
[0085]
When the storage device 23 has a control signal input / output terminal, data is exchanged between the control signal input / output terminal 97 of the IRD 22 and the storage device 23 between the control signal input / output terminal CTL 2. Is done.
[0086]
Furthermore, when the storage device 23 includes a digital interface DIF2 such as IEEE1394, the digital interface 96 of the IRD 22 and the digital interface of the storage device 23 are connected.
[0087]
The audio signal demodulated from each audio channel is output from the output terminal 85. When the output terminal 85 is connected to the analog audio input terminal of the storage device 23, the audio signal demodulated from the audio channel can be recorded by the storage device 23.
[0088]
When the storage device 23 has an input / output terminal for control signals, the storage device 23 exchanges data between the control signal input / output terminal 97 of the IRD 22 and the input / output terminal of the control signal. The recording control can be performed.
[0089]
FIG. 6 is an example of a GUI screen displayed on the television receiver 24 of the receiving facility 3 in each home. When this broadcast is received by the receiving equipment 3 at each home, a graphic screen as shown in FIG. 6 is displayed based on the data sent from the GUI data server. If necessary operations are performed while viewing this graphic screen, an information page for each song can be viewed, and a trial listening for each song can be performed. Furthermore, desired audio data can be downloaded and recorded in the storage device 24 or audio channel data can be recorded in the storage device 24 by performing necessary operations while viewing the graphic screen.
[0090]
As described above, a start flag and an end flag are added to the audio data transmitted through each audio channel at the beginning and end timing of each music piece. Also, ID data is added to the audio data for download at the beginning and end timing of each song. When the storage device 23 has an input / output terminal for control signals, the storage device can exchange data bidirectionally between the IRD 22 and the storage device 23. In this case, by using these flags and ID data, it is possible to reliably record from the beginning to the end of the music, or to record a plurality of music in the reserved order.
[0091]
That is, when a broadcast is received by the receiving equipment 3 in each home, a screen 101 is displayed based on data from the GUI data server as shown in FIG. 6A. On the screen 101, artist names 103, 103,..., Song names 104, 104,... Of downloadable songs are displayed, and selection buttons 105, 105,.
[0092]
The viewer searches for a song of interest while looking at the song name displayed on the screen 101. To see detailed information about each piece of music, for example, the arrow key of the remote commander is operated, and the selection button 105 of the piece of music for which information is to be obtained is pressed.
[0093]
When the music selection button 105 for a desired music is pressed, as shown in FIG. 6B, a music information page 111 is displayed and the audio channel of the music is switched. The music is repeatedly sent on the audio channel of the music. In the information page 111 of each music, a still image 112 such as a CD jacket containing the music is displayed. Further, on this screen 111, detailed information 113 of the music such as artist name, song title, songwriter, composer, lyrics, live information and the like, and a record button 115, a download button 116, and a return button 117 are displayed. The
[0094]
The recording button 115 is a button for causing the storage device 23 to record the audio signal demodulated on the audio channel. The download button 116 is a button for downloading audio data for download and causing the storage device 23 to record it. The return button 117 is a button for returning to the screen of the previous page.
[0095]
In this way, the list page 101 of the music to be distributed and the information page 111 of each music allow the viewer to know what kind of music is currently being distributed, and to provide detailed information about each music. I can know.
[0096]
Here, to record the music, the viewer operates the arrow key and presses the recording button 115. When the record button 115 is pressed, the corresponding music is set to the audio channel on which the music is broadcast, and the music sent on this audio channel is recorded in the storage device 23.
[0097]
At this time, as shown in FIG. 7, a start flag SFLG and an end flag EFLG are added to the audio data sent through the audio channels CH1, CH2,. Therefore, recording to the storage device 23 is started when the start of the music is detected by the start flag SFLG, and recording to the storage device 23 is ended when the end of the music is detected by the end flag EFLG. The In order to detect the start flag SFLG and the end flag EFLG, as shown in FIG. 5, the IRD 22 detects a flag for detecting the start flag SFLG and the end flag EFLG in the audio data transmitted through the audio channel. A circuit 61 is provided. Thus, by using the start flag and the end flag, the user can record from the beginning to the end of the music without having to worry about the recording timing.
[0098]
In order to purchase the music, the viewer presses the download button 116. When the download button 116 is pressed, the audio data of the selected music is downloaded and recorded in the storage device 23.
[0099]
At this time, as shown in FIG. 8, since the ID data id is added to the header at the beginning and end timing of each music piece as shown in FIG. Recording to the storage device 23 is started at the time when is detected, and recording to the storage device 23 is ended when the end of the music is detected by the ID data id. In order to detect the ID data id, an ID detection circuit 62 is provided in the IRD 22 as shown in FIG.
[0100]
In order to return to the list page, the return button 117 is pressed. When the return button 117 is pressed, the screen returns to the list screen 101 shown in FIG. 6A.
[0101]
As described above, in the system to which the present invention is applied, the music list page 101 and each music information page 111 are displayed on the screen, and the music list page 101 and each music information page 111 are used for each music. You can know the information. When the music is selected, the music can be auditioned. When the recording button 115 is pressed, the audio signal of the music sent through the audio channel is recorded in the storage device 23 and the download button 116 is displayed. When is pressed, the audio data for downloading the music is downloaded and recorded in the storage device 23.
[0102]
FIG. 9 is a flowchart showing a process for recording a song sent on the audio channel on the storage device 23 by the recording button 115. In FIG. 9, steps S1 to S7 indicate processing on the IRD 22 side, and steps S11 to S14 indicate processing on the storage device 23 side.
[0103]
When the broadcast is received (step S1), a graphic screen is displayed with the GUI data (step S2). At this time, the storage device 23 side is set to a recording standby state (step S11).
[0104]
Here, when a music is designated by the music selection button 103 (step S3), an information page of the selected music is displayed and the audio channel of the music is switched. In each audio channel, since the same music is repeatedly broadcast for a predetermined unit time, the selected music can be heard repeatedly (step S4).
[0105]
When the recording button 115 is pressed (step S5), the start flag SFLG is detected. When the first start flag SFLG is detected, a recording start command is given from the IRD 22 to the storage device 23 (step S6). .
[0106]
On the side of the storage device 23, when a recording start command is given from the IRD 22, this command is received and the recording state is set (step S12). The recording state is continued until a recording stop command is given from the IRD 22 side (step S13).
[0107]
Next, the end flag EFLG is detected on the IRD 22 side. When the end flag EFLG is detected, a recording stop command is given from the IRD 22 to the storage device 23 (step S7).
[0108]
On the side of the storage device 23, when a recording stop command is given from the IRD 22, recording is stopped in response to this command (step S14).
[0109]
FIG. 10 is a flowchart showing a process when recording download audio data in the storage device 23 by the download button 116. In FIG. 10, steps S31 to S37 indicate processing on the IRD 22 side, and steps S41 to S44 indicate processing on the storage device 23 side.
[0110]
When the broadcast is received (step S31), a graphic screen is displayed with the GUI data (step S32). At this time, the storage device 23 side is set to the recording standby state (step S41).
[0111]
Here, when a music is designated by the music selection button 103 (step S33), the information page 40 of the selected music is displayed and the audio channel of the music is switched. In each audio channel, since the same music is repeatedly broadcast for a predetermined unit time, the selected music can be heard repeatedly (step S34).
[0112]
When the download button 116 is pressed (step S35), ID data is detected. When ID data is detected, a recording start command is given from the IRD 22 to the storage device 23 (step S36).
[0113]
On the side of the storage device 23, when a recording start command is given from the IRD 22, this command is received and the recording state is set (step S42). The recording state is continued until a recording stop command is given from the IRD 22 side (step S43).
[0114]
ID data is detected on the IRD 22 side. When ID data is detected, a recording stop command is given from the IRD 22 to the storage device 23 (step S37), and the process returns to step S31.
[0115]
On the side of the storage device 23, when a recording stop command is given from the IRD 22, in response to this command, recording is stopped (step S44), and the process returns to step S41.
[0116]
In the above-described example, audio data that has been compressed by ATARC2 is used as download audio data. However, the compression method is not limited to ATARC2. Other compression methods such as ATRAC may be used.
[0117]
【The invention's effect】
According to the present invention, each audio data transmitted through a plurality of audio channels is provided with a start flag and an end flag corresponding to the beginning and end of the music. When recording the audio signal sent through the audio channel in the storage device, by detecting the start flag and the end flag, each music piece can be reliably recorded in the storage device from the beginning to the end. In addition, ID data is inserted into the download audio data stream in correspondence with the beginning and end of the music. When recording the audio signal sent through the audio channel in the storage device, each piece of music can be reliably recorded in the storage device from the beginning to the end by detecting this ID data.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an overall configuration of an example of a broadcasting system to which the present invention can be applied.
FIG. 2 is a block diagram showing a configuration of a ground station in an example of a broadcasting system to which the present invention can be applied.
FIG. 3 is a schematic diagram showing a data stream of an audio channel.
FIG. 4 is a timing chart used for explaining an example of a broadcasting system to which the present invention can be applied.
FIG. 5 is a block diagram showing a configuration of an IRD in an example of a broadcasting system to which the present invention can be applied.
FIG. 6 is a schematic diagram used for explaining an example of a display screen of an example of a broadcasting system to which the present invention is applied;
FIG. 7 is a schematic diagram used for explanation of detecting the start and end positions of a music piece on an audio channel.
FIG. 8 is a schematic diagram used for explanation of detecting the start and end positions of music in download data.
FIG. 9 is a flowchart used to describe processing performed between an IRD and a storage device during audio channel recording.
FIG. 10 is a flowchart used to describe processing performed between an IRD and a storage device during download.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Ground station, 2 ... Satellite, 3 ... Reception equipment, 11 ... Program broadcast material server, 12A, 12B ... Audio channel program material server, 13 ... Audio data material for download Server, 14 ... GUI data server, 22 ... IRD, 23 ... Storage device

Claims (2)

Sent repeatedly the same song in a predetermined period for each of a plurality of channels Ji Yan'neru, and audio digital data composed of a plurality of the music of the plurality of the channels, among a plurality of the music included in the audio digital data data about at least a portion of the music is compressed by compression coding, compression-coded data are combined into a unit, the unit within the predetermined time period through a channel different from the channel for transmission of the audio digital data Receives a signal in which download audio data repeatedly transmitted and digital data for forming an information screen for displaying a list of the transmitted music and information related to the music are received. In the receiving device,
Decoding the digital data, displaying a screen of a list of a plurality of songs that can be received through the plurality of channels , and displaying a screen displaying information related to the songs when a song to be stored is selected in the list Information screen display means for projecting;
By specifying the desired easy songs in the list of the plurality of musical issued movies, an input means for selecting the stored had music tracks,
The specific channel is received, a reproduction means for reproducing repeatedly the music pieces the selected through the specific channel,
Identification signal detecting the head identification signal and end identification signal indicating respectively the start and end positions of Kiraku songs on being inserted into the said selected the song relating to the audio digital data are reproduced repeatedly the Detection means;
The said top identification signal for the accumulated had music song selected from among the audio digital data to generate a recording start command and Ru is detected by said identification signal detection means, the end identification signal to have music song above accumulated and control means for generating a record end command and Ru is detected by said identification signal detection means,
A receiving apparatus that outputs the recording start command and the recording end signal from the control means to a storage means . Sent repeatedly the same song in a predetermined period for each of a plurality of channels Ji Yan'neru, and audio digital data composed of a plurality of the music of the plurality of the channels, among a plurality of the music included in the audio digital data data about at least a portion of the music is compressed by compression coding, compression-coded data are combined into a unit, the unit within the predetermined time period through a channel different from the channel for transmission of the audio digital data Receives a signal in which download audio data repeatedly transmitted and digital data for forming an information screen for displaying a list of the transmitted music and information related to the music are received. A receiving device;
A storage device for storing the output of the receiving device,
The receiving device is
Decoding the digital data, displaying a screen of a list of a plurality of songs that can be received through the plurality of channels , and displaying a screen displaying information related to the songs when a song to be stored is selected in the list Information screen display means for projecting;
By specifying the desired easy songs in the list of the plurality of musical issued movies, an input means for selecting the stored had music tracks,
The specific channel is received, a reproduction means for reproducing repeatedly the music pieces the selected through the specific channel,
Identification signal detecting the head identification signal and end identification signal indicating respectively the start and end positions of Kiraku songs on being inserted into the said selected the song relating to the audio digital data are reproduced repeatedly the Detection means;
The said top identification signal for the accumulated had music song selected from among the audio digital data to generate a recording start command and Ru is detected by said identification signal detection means, the end identification signal to have music song above accumulated and control means for generating a record end command and Ru is detected by said identification signal detection means,
It said storage device, when the recording start command from the receiving apparatus is provided to start recording of the selected song from the receiving apparatus, the recording end command from the receiving apparatus is Given the selected song An information storage system characterized in that the recording of the information is terminated.

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