JP4014751B2 - Receiving device and recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a receiving apparatus and a recording apparatus that receive and record broadcast digital data.
[0002]
[Prior art]
Conventionally, transmission systems for digital wireless broadcasting such as digital satellite broadcasting and FM character multiplex broadcasting, or digital cable broadcasting such as digital cable TV broadcasting, transmit data using the transmission format defined by each standard. Is going. Also, digital recording media such as mini-discs, digital audio tapes, compact discs, digital video discs (hereinafter sometimes abbreviated as “MD”, “DAT”, “CD”, and “DVD”) and semiconductor storage devices. The transmission of data related to the digital data recording apparatus such as the above is also performed according to a predetermined transmission format. That is, in the transmission of digital audio data, transmission from CD to MD, or from DAT to MD, etc. is performed in a format defined by a standard such as a digital audio interface.
[0003]
For example, in FM character multiplex broadcasting, audio data such as music data is transmitted as main data by FM-modulated analog signals, and character data such as song names and artist names are multiplexed and transmitted as digital signals. In the FM character multiplex broadcasting receiver, the main data is demodulated by an FM demodulation circuit, and music data is output from a speaker or the like and reproduced acoustically. On the other hand, the multiplexed digital signal is extracted from the received signal together with the clock signal by the multiple signal demodulating circuit, subjected to error determination by the error correction / error detecting circuit, processed as program data, and displayed as display data of the receiver. Output to the display device.
[0004]
When such FM character multiplex broadcast programs are recorded on a digital recording medium such as MD, the audio data such as music data as the main data is converted to analog signals after FM demodulation in the same manner as normal line input. / Digital (hereinafter abbreviated as “A / D”) conversion to digital data, digital compression used in the MD, and recording in the MD recording format. For multiplexed character data, data to be recorded in the MD is extracted from the program data processed as described above, and further converted into a recording format for MD, and the text-of-content area for the MD user (hereinafter, referred to as the MD data format). (Abbreviated as “UTC”).
[0005]
In the case of digital satellite broadcasting, main data and character data, which are audio data such as music data, are transmitted as digital signals having a dedicated format. In a digital satellite broadcast receiver, audio data such as music data as main data is extracted from a digital signal demodulated by a demodulation circuit from a received signal, and analog by digital / analog (hereinafter abbreviated as “D / A”) conversion. It converts it into a signal and outputs sound from a speaker or the like. On the other hand, the character data is extracted from the digital signal demodulated by the demodulation circuit, processed as program data, and displayed on the display device of the receiver as display data.
[0006]
When such a digital satellite broadcast program is recorded on a digital recording medium such as an MD, audio data such as music data as main data is extracted as described above, and the digital compression processing used in the MD is performed. And recording on the MD in the MD recording format. As for the multiplexed character data, data to be recorded on the MD is extracted from the program data processed as described above, further converted into a recording format for MD, and stored in the UTOC of the MD.
[0007]
Furthermore, with respect to digital data transfer from CD to MD or from MD to CD using the digital audio interface standard, audio data such as music data as main data and copyright as sub data are transferred in a predetermined transmission format. Control information such as information and character information such as a song title are transmitted.
[0008]
[Problems to be solved by the invention]
In the prior art as described above, for example, music data broadcast in music programs such as FM character multiplex broadcasting and digital satellite broadcasting is received and transmitted for the purpose of temporarily recording the data for playback by the receiver. In this case, a recording data format to be recorded on a package medium which is a digital recording medium such as CD, MD, DAT or a dedicated recording apparatus is not considered. In such a case, when a music program is transmitted as main data, information related to the music data is transmitted as sub-data, for example, text data such as a song name or artist name of the music data being transmitted is received. For example, when the information is decrypted and displayed on the machine, or the information decrypted for display is recorded on a package medium or the like for the purpose of temporarily recording.
[0009]
Information for such temporary recording is converted into a predetermined format for each transmission method and transmitted. The transmission format is usually configured in block units that may be expressed in packet units. The block includes a synchronization code, information data, and error correction / error detection parity bits. The information data includes data management / control data and main body data. The digital data which is the sub data is assigned to the main data of the information data. At that time, the digital data may be subjected to processing such as division in order to match the data size of the main body data for each block. It should be noted that the format of the block is determined specifically for each transmission method, and each is usually a different format. When data is received, the receiver decodes the sub-data from the received data and records it on the package medium or the like in cooperation with the main data. At this time, the decoded sub-data is the data intended for display on the display device of the receiver as described above, and is not in a format for recording on each package medium, etc. Is recorded, editing processing such as data processing is performed so as to match the recording format. The editing process is performed by a receiver or a recording device. The content and method of processing conform to the specifications of the receiver or recording device.
[0010]
  When the sub-data recorded in this way is transferred to another package medium or the like, it is transmitted using a method or the like defined by a standard such as a digital audio interface. Even in this case, the sub data is transmitted in units of packets. However, the recorded sub data includes a recording device such as a package medium.whileSince there is no error detection information to be used during data transfer, data for error detection such as parid data is newly generated on the sending side and added to detect and transfer it, or error detection It is necessary to transfer the data without adding error data without performing error detection.
[0011]
On the other hand, for the purpose of recording on a recording device such as a package medium, which is a digital recording medium such as a CD, MD, DAT, etc., for example, when music distribution is performed by digital satellite broadcasting, etc. It is necessary to support the format. For example, for the purpose of recording on a package medium, music data such as audio data and digital data that is information related to the music data such as music data of the music data being transmitted and text data such as artist names are transmitted. When the music data to be transmitted and related information are recorded on the package media, the format is recorded on the package media in consideration of the case where it is further transferred between the package media for copying. It is necessary to transmit with adapted data contents. Even in transmission between package media, data is transferred in units of blocks. When data transfer is performed with error detection, parity information for error detection during data transfer between package media is added to each block. The Therefore, when transmitting music data in digital satellite broadcasting, etc., error detection information for transmission between package media such as parity is transmitted, or if not transmitted during transmission, the error detection information is generated on the receiver side. It is necessary to add.
[0012]
However, when error detection information is incorporated in transmission data such as digital satellite broadcasting in advance and transmitted, data between package media that is not directly related to the primary purpose of recording music information on the package media. For the secondary purpose of transfer, there is a problem that the transmission efficiency of broadcasting is lowered. In addition, when error detection information is generated / added on the receiver side, there is a problem that the processing efficiency on the receiver side decreases.
[0013]
An object of the present invention is to provide a receiving apparatus and a recording apparatus that can improve the processing efficiency of data transmission while maintaining reliability.
[0016]
[Means for Solving the Problems]
  BookThe invention comprises a plurality of packets, each packet is packetized and transmitted in a predetermined first format, has a message area containing message information, and an error processing signal is attached to the final packet. The frame is received as a first transmission signal transmitted in time series, and the message information stored in the plurality of packets is decoded to have a message area equivalent to the first transmission signal, In the receiving device for recording the decoded message information in the message area of the second transmission signal packetized in the format of
  For each packet of the second transmission signal, when the message information to be recorded in the message area is less than the message area, data adding means for adding dummy data created in advance to the final part of the message information of the final packet;
  And a data output means for generating and outputting a second transmission signal in which dummy data is added to the final packet by the data adding means.
[0017]
  According to the present invention, it is packetized in the first format.TheA second format comprising a plurality of packets, receiving a first transmission signal in which a frame in which a signal for error processing is attached to the final packet is transmitted in time series, and having a higher transmission efficiency than the first format Are combined into a second transmission signal that is packetized. When the message information stored in each of the plurality of packets in the first format is decoded and packetized and recorded in the second format, if the message information does not fill the message area, the data addition means Dummy data created in advance is added to the final part of the message information so that the first format of the received data approximates the second format used for data recording by the recording device. Since the format is approximated by adding dummy data, it is possible to improve the efficiency of data transmission performed for recording in the recording apparatus while maintaining reliability.
[0018]
Further, in the present invention, the data adding means, when adding the dummy data to the received data, adds identification information indicating that dummy data is added to the signal for approximation of the format,
It further includes data determination means for receiving a signal to be transferred and determining whether the signal to be transferred is a signal to which the dummy data is added based on the identification information.
[0019]
According to the present invention, since the data determination unit determines whether or not dummy data is added to the reception data based on the identification information, it is possible to perform an appropriate process on the reception data according to the determination result.
[0020]
Furthermore, the present invention is a recording apparatus for recording a signal transferred from a receiving apparatus, and receives the transferred signal and adds a dummy data or a signal in a format used for data recording in the recording apparatus. Data determining means for determining whether the signal approximates the format based on the identification information;
According to the determination result by the data determination means, when the received signal is a signal of a format used for data recording in the recording device, recording is performed by a preset normal recording process, and the received signal is added with dummy data to be formatted. The recording apparatus includes data recording means for supplementing and recording data according to a preset specification when the signal is an approximated signal.
[0021]
According to the present invention, the signal to be transferred is a signal used for data recording in the recording device or a signal to which dummy data is added so as to approximate the format. Transfer efficiency can be improved. According to the determination result of the data determination means, data is complemented and recorded for the approximated signal, so that recording can be performed in a state suitable for the recording apparatus.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
  FIG. 1 shows a schematic electrical configuration of a receiving terminal as a first embodiment of the present invention. The receiving terminal of this embodiment has both a receiving function and a recording function.TheHowever, even if the receiving function and the recording function are independent devices, the present invention can be similarly implemented.
[0023]
When data is received and recorded (REC), broadcast radio waves are first received by the antenna 1 and input to the tuner unit 2 including a PLL (Phase Locked Loop), a filter, and the like. In the case of digital broadcasting, the data is demodulated into digital data by the demodulator 3 and then subjected to error correction / detection and the like, and input to the compression unit 4a as PCM data. The compression unit 4a is combined with the extension unit 4b. The data subjected to the compression processing by the compression unit 4a is output to the recording device 6 via the CPU 5 that is a control device and recorded. When performing a reproduction process (PLAY) for reproducing the data recorded in the recording device 6, the CPU 5 reads the data from the recording device 6 and inputs it to the decompression unit 4b, decompresses it to PCM data, and then performs a digital interface (hereinafter referred to as a digital interface). , Which is abbreviated as “D_I / F”), is sent to the outside as a digital signal, is converted into an analog signal by the D / A conversion circuit 8, and is amplified by an amplifier (hereinafter abbreviated as “AMP”) Then, a speaker or the like can be driven to obtain a sound output. The recording device 6 targets a recording medium such as a package medium, a semiconductor memory such as a flash memory, a memory card, or the like, and can record and reproduce data.
[0024]
In the present embodiment, the CPU 5 operates as a data addition unit, a data output unit, a data determination unit, and a data recording unit in accordance with a preset program.
[0025]
Since audio data, which is main data such as FM broadcasting, is an analog signal, it is input from the tuner unit 2 to the A / D conversion circuit 10, converted into digital PCM data, and input to the compression unit 4a. After the compression process, it is handled in the same manner as the digital data described above.
[0026]
Since the sub data is not subject to compression processing, it is input to the CPU 5 without being compressed by the compression unit 4a. At the time of the reproduction process, the sub-data is predetermined data or data selected by the key 11 is read from the recording device 6 by the CPU 5, and a display device 12 having a liquid crystal display (LCD) or a fluorescent display tube (FL) or the like. To be displayed as text or the like.
[0027]
  In the case of data transfer to another recording device or the like, of the data extracted from the recording device 6, the main data is expanded by the decompressing unit 4b, and the sub data is directly transferred to D_I /F7 and output in accordance with the specifications of a predetermined digital audio interface. Conversely, in the case of data transfer from another receiving device or recording device, the data is received via the D_I / F 7 and divided into main data and sub data, and then the main data is subjected to compression processing by the compression unit 4a. The sub data is subjected to error detection processing and stored in the recording device 6.
[0028]
  FIG. 2 shows an outline of a broadcasting system related to the receiving terminal of FIG. Data transmitted by broadcasting is created by the program creation company 21 or the like, and is transmitted directly from the broadcasting station 22 or via the satellite 23 or the like. The format to be transmitted is uniquely determined according to the transmission path to be used. Data to be broadcast is received by the receiving terminal 31. Since the receiving terminal 31 of the present embodiment has an internal configuration as shown in FIG. 1, the broadcast data can be recorded in the recording device 6 and can be recorded in another recording terminal 32 via the D_I / F 7. It can also be transferred and recorded.
[0029]
FIG. 3 shows an example of a transmission format related to digital data for broadcasting. 3A shows the transmission format of the first block, and FIG. 3B shows the transmission format of the second block and thereafter. The transmission format of broadcast digital data is composed of a header section for determining block synchronization, a program management section, message information, and redundant bits.
[0030]
The header section for synchronization determination is made up of several types of codes, and is used for determining the data block / parity block as a block type, block synchronization determination, and frame synchronization determination at the data transmission level. If the header portion is detected a plurality of times, block synchronization establishment determination is performed. If the header portion is not detected a plurality of times continuously, it is determined that the block synchronization has been lost.
[0031]
In the program management unit, information on the type of the block data by “type identification” or “information identification”, sending station identification information of the data by “station identification”, information for program identification by “program number”, In addition, “protocol number” or the like is stored as serial number information indicating a block position when a message is large and one message is transmitted in a plurality of blocks. As shown in FIG. 3A, program time information is also transmitted to the first block at the head.
[0032]
  The message information is transmitted in a format for each information for identifying the program. For example, various types of information such as display information at the receiving terminal, timer time information of the receiving terminal, and program list information being transmitted are transmitted in each format. In the present embodiment, among such message information, regarding the message information to be recorded on a recording medium such as a recording medium, a package medium for recording digital data electrically, magnetically, or optically on the receiving terminal side, the recording medium A format that approximates the format of data transmission between the two is used.
[0033]
Even in the program management information, when the message is transmitted, it is possible to determine whether or not the subsequent message has a format approximate to data transmission between recording media by the type of data or program identification. Need to be determined separately.
[0034]
Redundant bits are used for error correction (error correction) and error detection (error detection) in transmission. For example, an error correction code used for FM character multiplex broadcasting suitable for a mobile object is intended for information excluding the header part for error correction / detection in a transmission path due to noise caused by multipath or fading. The product code of the (272, 190) difference set cyclic code is used. Each block (packet) is provided with 82 bits of error correction and error detection parity bits, and 82 packets are included in one frame for product codes. One frame is composed of 272 packets, and 82 frames of parity packets in one frame are transmitted interleaved with other data packets. In FM character multiplex broadcasting, a 14-bit CRC (Cyclic Redundancy Check) error detection parity bit is added for each block, error detection is possible, and a 16-bit CRC for a program is used for each program. In addition, the error detection capability has been enhanced.
[0035]
As described above, in the broadcast transmission system, compared to the message information that is the main body of the transmission data, the header part necessary for transmitting the message information and the program management part necessary for management And the ratio of redundant bits for error correction / detection is large. In the case of the above-described FM character multiplex broadcasting, about 70% of one frame is a data packet and about 50% of the data packet is message information, so the amount of message information in one frame is about 3.5%. For this reason, the message information is required to be efficient, such as reducing redundant parts.
[0036]
Next, the format of data transmission between the recording devices from the receiving terminal 31 to the recording terminal 32 in FIG. 2 will be described. Of the data between recording media for digital audio data such as digital music data, the transmission format for main audio data is standardized by the digital audio interface standard and the like. The digital audio interface is a standard for serially transferring digital PCM data. The digital PCM data is used as main data, and various data as sub-data such as text data and copyright information can be transferred in an interleaved manner.
[0037]
FIG. 4 shows an example of the data transfer format of the sub data. In the data transfer format, ID1 to ID4 of 4 bytes from the head are assigned to data for control / management of data contents. In the present invention, ID1 in the first byte is handled as a code representing the data type, and ID3 in the third byte is handled as a sequence number of data in the divided data. When the data type indicated by ID1 is used, it is possible to identify data such as album information, performer, songwriter, composer, and the like.
[0038]
The main body of the sub data is transferred with 12 bytes D1 to D12. If the sub-data exceeds 12 bytes, it can be handled as a series of data on the receiving side by using the information of ID3 described above. The last two bytes of CRC data are redundant bits for detecting whether or not an error (error) has occurred due to noise or the like during transfer between recording media. This CRC data is for data transfer between recording media, and is not used when transferring broadcast data. Parity bits for error detection when transferring broadcast data are prepared separately as described above.
[0039]
FIG. 5 shows a conventional broadcast data transmission format including a message data structure. FIG. 5A shows the first pack, and FIG. 5B shows the second pack. When the data transmission format of the sub data between the recording devices is transmitted as the sub data transmission format by the broadcast wave, two packets (blocks) are used for each data pack as a data unit of the sub data between the recording devices. ) Necessary. In particular, as shown in FIG. 5B, the second pack sends a total of 288 bits (1 bit of D1_12 which could not be sent to the first pack and 2 bytes of error detection CRC). 36 bytes) of data must be transmitted, which is inefficient. Note that ID1 to ID4 of the second pack are added for management of D1_12. If it can be managed by the program management unit, the effect is the same even if omitted. The CRC storage position may be immediately after D1_12.
[0040]
In the present invention, first, an identification function indicating that the data is provided by broadcast data is added to ID1, and the data can be restored by the protocol number of the program management unit of the broadcast data among the data transmission formats between the recording devices. Data ID3 is omitted. Also, CRC bits are reduced for each data pack unit. In addition, by using CRC data in units of frames in which a group of data transmitted by a plurality of data packs is used, the amount of data transmitted between recording devices that transmit sub-data by broadcast waves is reduced and regular recording is performed. A data transmission format that is close to the transmission format between devices is realized, and the reliability is improved by adopting new CRC data.
[0041]
  FIG. 6 shows a data transmission format used in this embodiment. FIG. 6A shows the transmission format of the first pack. ID1 is handled as data having an identification code indicating transmission data by broadcasting. The identification code is assigned to a specific bit among the bits not conventionally used as a reserve, and is shared with the conventional identification data. For example, the upper 4 bits (B4 to B7) are assigned to the flag as the identification code, and when all the 4 bits are “1” (“1111xxxx” = fxh), the data transmission format of this embodiment is defined. . Note that “x” is “1” or “0” in binary notation.ZThis indicates that it is possible, and in hexadecimal notation, any value from 0 to 15 is possible. Further, 'h' indicates that the display is hexadecimal.
[0042]
In the normal data transmission format, when the upper 4 bits of ID1 of the data group that is the target of the sub-data is “1000xxxx” (= 8xh), the lower 4 bits can be shared. For example,
81h: singer name stored in regular format
f1h: singer name stored in data transmission format
It becomes. As a result, the receiving terminal 31 can share processing such as data selection when the sub-data is decoded for display or the like.
[0043]
  Since it is clear that it is the first pack, ID3 representing the sequence number is omitted. Since the value of ID3 of the first pack is fixed at 00h, it becomes unnecessary. As a result, the data of the first pack excluding the redundant portion can be contained in one packet in transmission of broadcast waves. When there is only data for the first pack, dummy data is sent to the data portion with the second pack as the final pack, and ID1 to ID4 and CRC are sent.
[0044]
  FIG. 6B shows a data transmission format after the second packet except when there is only data for the first pack described above. In the second packet, the data capacity of the message part is 152 bits (19 bytes), and the second pack is the final packet.soIf there is not, 16 bytes in total of 4 bytes from ID1 to ID4 and 12 bytes of data can be contained in one packet. Here, from the received data on the receiving terminal side,RecordIn order to reduce the work of editing data for conversion to a data transfer format between apparatuses, ID3 is also left without being omitted in order to make the message configuration closer to the pack configuration format. However, if the number of packs is known, restoration is possible even if ID3 is omitted.
[0045]
6C, 6D and 6E show the data transmission format of the final pack. The final pack of the nth pack is provided with 16-bit (2 bytes) CRC data for all data portions from the first pack. Although the data portion is indispensable as the CRC data cover area, ID1 to ID4 may not be covered. However, since the wider target range can increase the reliability, all the effective data to be transmitted is targeted, or considering the efficiency of processing on the recording device side including the receiving terminal 31, It is effective to make ID1, ID2, ID4, and the data part except for ID3 omitted in one pack a CRC target.
[0046]
FIG. 6C shows an example of a data transmission format when all (12 bytes) data of the final n-th pack are validated. This format is the most efficient as the number of valid data. FIG. 6D shows an example of a data transmission format that is effective when the CRC is processed in the data part as a part of the data at the time of program creation in the upper hierarchy, not in the data transfer hierarchy, and the CRC is the data part. Stored in FIG. 6E shows an example of a data transmission format in which dummy data (00h, etc.) for CRC data (2 bytes) is inserted in advance in the final part of the data so that it can correspond to any of the above positions. It is.
[0047]
Note that, for example, when a pack transfer CRC generation function is provided to support the transfer of text data such as comments input independently at the receiving terminal 31 as sub-data, the CRC is not stored in the data portion. The data transmission format of 6 (c) or FIG. 6 (e) is effective.
[0048]
FIG. 7 shows a state in which a series of data is collected in the final pack using the data transmission format of FIG.
[0049]
When receiving data to be broadcast, error correction and error detection are performed using redundant bits stored in the broadcast data, so that CRC data added as described above is not used. If the above-described CRC generation function for pack transfer is not provided, the received data is subjected to processing for inserting ID3 of the first pack and then recorded in the recording device. When the pack transfer CRC generation function is provided, the same processing as when the CRC generation function is not provided is performed, or ID1 is converted from fxh to 81h, ID3 is inserted, and CRC in pack units Calculation and CRC insertion are performed to convert the data into a regular pack data format, and the data is recorded on the recording device.
[0050]
Next, data processing when data used in the present embodiment is transmitted by data transfer between recording apparatuses will be described. At the time of transmission, since ID1 to ID4 and the data part are stored in the recording device, except for the final data, dummy data of ffh, for example, is added to the part after the data part which becomes the CRC part in the regular data transmission format. Send with additional bytes. The final data is generated according to any of the specifications shown in FIGS. 6C to 6E. As a result, it is possible to realize a data format that approximates the format of data transfer between the original recording devices defined in the digital audio interface.
[0051]
Finally, data processing when data used in this embodiment is received by data transfer between recording apparatuses will be described. The receiving side determines the received ID1, and in the case of fxh, error detection (CRC check) is not performed in units of packs, but after receiving all the target data packs, error detection is performed based on the received CRC data. If there is no error in the error detection determination result, it is stored in the recording device 6 as normal data. If there is an error, display a failure occurrence on the display device 12 or the like to inform the user. Data with errors is discarded or temporarily recorded. The temporarily recorded data is subjected to processing such as discard or correction by the user. Note that the reception determination of all packs of the target data is performed by a flag specifying the final pack such as the final flag stored in advance in ID4 or the like, or specifying the number of valid packs. The final pack determination is also necessary for conventional normal data processing, and an already established technique may be used.
[0052]
As a second embodiment of the present invention, CRC data for all packs of target data added in the first embodiment can be omitted. In this embodiment, data transmitted to a receiving terminal by broadcasting is subjected to error correction and error detection using a broadcasting data transmission format, and after ID3 is restored, it is recorded in a recording device. The format recorded in the recording device is an approximate format in which the CRC for error confirmation at the time of pack transfer specified for regular pack transfer is replaced with dummy data (ffh), and the valid data portion is common. It is.
[0053]
The format can be determined based on ID1. At the time of pack transfer of data determined to be an approximate format by ID1, CRC check determination for each pack transfer is not performed, or it is replaced with a CRC check for each pack transfer by a process such as ignoring. Follow the same procedure. As a result, pack transfer processing according to regular processing can be performed on data received by broadcasting or the like.
[0054]
In the case of the present embodiment, since CRC check for all data can be omitted, the efficiency of data transfer can be further improved. In particular, for data for which data transfer is completed in one pack, it is not necessary to send out a dummy pack for CRC data transfer in the first embodiment, and processing can be completed by transfer of only one pack. Further, the addition of the CRC check function for all data objects, which is an additional function, can also be reduced for the recording apparatus. In addition, when having the CRC generation function for pack transfer mentioned in the description of the first embodiment, the normal format in pack transfer can be restored. However, this involves an increase in cost and processing such as data generation processing.
[0055]
  8 and 9 show a data transmission format as a third embodiment of the present invention. In this embodiment, the efficiency of data transfer can be further improved by cutting the dummy data and omitting ID3 in the broadcast format in the first embodiment. The data transmission format of the first pack shown in FIG. 8A is the same data transmission format as the first pack shown in FIG.AhThe Only differences from the first embodiment will be described below.
[0056]
  In the case of the present embodiment, as shown in FIGS. 8B, 8C, and 8D, a plurality of pack data are stored in the second and subsequent pack packets. Accordingly, ID3 storing the sequence data of pack data has no meaning, so ID3 after the second pack is supplemented by recalculation processing on the receiving side and omitted from the data to be transmitted. As a result, it is possible to improve transmission efficiency by reducing data by 1 byte per packet. Further, the 3-byte dummy data following the data portion of the intermediate packet excluding the first and last packets as shown in FIG. 6B is omitted. As a result, for example, as shown in FIG. 9, the data transmission efficiency can be further improved.
[0057]
On the receiving side of the present embodiment, processing for extracting a series of pack data from the received packet is added, but it is also possible to improve the transmission efficiency of the broadcast wave and the reliability associated with the reduction of the transmission amount.
[0058]
Furthermore, as a fourth embodiment of the present invention, CRC data for all packs added in the third embodiment can be omitted. The same effect as the second embodiment with respect to the first embodiment can be obtained.
[0059]
In each of the embodiments described above, it is possible to more efficiently process a data transmission format intended for different transmission systems, ie, data transmission by broadcasting and data transmission between recording apparatuses, at each data transfer level. Can be.
[0060]
Broadcast transmission has strong error correction / detection capability against noise environments such as multipath and fading. Effectively utilizing the reliability obtained by this, ensuring reliability in the broadcasting system, and in data transfer processing between recording devices, not in units of packets, but in units of data groups that target only significant data By performing the detection, the CRC generation processing for error detection can be reduced on the broadcast side, and the number of error detection CRC calculations can be reduced from the pack unit to the group unit on the recording device side, and the processing amount can be reduced. Reduction can be achieved.
[0061]
Since data is transferred in a format that approximates the data transfer format in units of packs between recording devices, the transmission side can perform transmission processing with processing equivalent to the regular format, and the reception side receives data that conforms to the regular format. Processing can be performed, and processing costs can be reduced.
[0062]
When ID1 is used as pack type identification information at the time of data transfer, the data transmitted by broadcasting and the regular data type classification are shared by a plurality of bits (lower 4 bits in the embodiment), thereby enabling data determination processing and Data processing can be shared.
[0063]
【The invention's effect】
As described above, according to the present invention, a signal in which a plurality of packets are transmitted in time series is received, the format of the received data is approximated to the format used for data recording by the recording device, and reliability is maintained. The efficiency of data transmission can be improved.
[0064]
Further, according to the present invention, a signal in which a frame consisting of a plurality of packets and a frame for which an error processing signal is added to the final packet is transmitted in time series is received, and the format of the received data is recorded by the recording device. It is possible to approximate the format to be used, and to improve the efficiency of data transmission performed for recording in the recording apparatus while maintaining reliability.
[0065]
Further, according to the present invention, it is possible to determine whether or not dummy data is added to the received data based on the identification information, and to perform appropriate processing on the received data.
[0066]
Further, according to the present invention, the data transfer process is performed on the signal used for data recording in the recording apparatus or a signal to which dummy data is added so as to approximate the format, thereby improving the transfer efficiency. Can be made. According to the determination result of the data determination means, data is complemented and recorded for the approximated signal, so that recording can be performed in a state suitable for the recording apparatus.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic electrical configuration of a receiving terminal as a first embodiment of the present invention.
2 is a block diagram showing an outline of a broadcasting system related to the receiving terminal of FIG. 1. FIG.
FIG. 3 is a diagram illustrating a broadcast data transmission format.
FIG. 4 is a diagram showing a data transmission format for transfer between regular recording apparatuses.
FIG. 5 is a diagram showing a data structure of a conventional message in the broadcast data transmission format of FIG. 3;
FIG. 6 is a diagram showing a broadcast data transmission format used in the first embodiment of the present invention.
7 is a diagram showing a series of data in which the final pack is compiled in the format of FIG. 6 (e).
FIG. 8 is a diagram showing a broadcast data transmission format used in the third embodiment of the present invention.
9 is a diagram showing data to be transferred using the format of FIG.
[Explanation of symbols]
2 Tuner
3 Demodulator
5 CPU
6 Recording device
7 D_I / F
12 Display device
22 Broadcasting station
23 satellites
31 Receiving terminal
32 Recording terminal

Claims (3)

Consists multiple packets, each packet is transmitted is packetized in a first format determined in advance, and have a message area that contains the message information, the frame is the signal for error processing in the final packet is added A second format that is received as a first transmission signal that is transmitted in time series, decodes message information stored in the plurality of packets, has a message area equivalent to that of the first transmission signal, and has a predetermined format In the receiving device for recording the decoded message information without conversion in the message area of the second transmission signal packetized in
For each packet of the second transmission signal, when the message information to be recorded in the message area is less than the message area, data adding means for adding dummy data created in advance to the final part of the message information of the final packet;
And a data output means for generating and outputting a second transmission signal in which dummy data is added to the final packet by the data adding means. The data adding means, when adding the dummy data to the received data, adds identification information indicating that dummy data is added to the signal for approximation of the format,
Receives the signals transferred on the basis of the identification information, signals being transferred, further comprising a data determination means for determining whether a signal to which the dummy data is added claims The receiving device according to 1 . A recording device for recording a signal transferred from the receiving device according to claim 2,
Based on the identification information, a signal to be transferred is received, and whether the signal is in a format used for data recording in the recording device or a signal approximated to the format by adding dummy data. Data judging means;
According to the determination result by the data determination means, when the received signal is a signal of a format used for data recording in the recording device, recording is performed by a preset normal recording process, and the received signal is added with dummy data to format A recording apparatus comprising: a data recording means for performing recording by complementing data according to a preset specification when the signal is an approximated signal .

Images