JP2013258565A - Receiver - Google Patents

Abstract

PROBLEM TO BE SOLVED: To record and reproduce announcement data well, by enhancing the reception sensitivity of the announcement data included in a digital audio signal apparently.SOLUTION: A recording control unit 110 for controlling the recording of announcement data included in a received digital audio signal includes determination means for determining whether or not the announcement data is received for the first time, an error detection unit 210 for detecting presence or absence of an error in each individual voice frame constituting the announcement data, a recording unit 100 for recording all voice frames constituting the announcement data, if a determination is made that the announcement data is received for the first time, and a read write unit 240 for rewriting a voice frame having a recorded error by a voice frame not having an error, if a determination is made that the announcement data is received repeatedly.

Description

  The present invention relates to a receiving apparatus having a function of receiving and recording a digital broadcast, and in particular, a receiving apparatus having a function of receiving a digital audio broadcast (hereinafter referred to as DAB) that has been put to practical use in Europe or the like. About.

  As represented by terrestrial digital broadcasting, satellite digital broadcasting, DAB, and the like, digital broadcasting has become widespread, and in-vehicle receivers that receive digital broadcasting have been put into practical use. In addition, as a recording medium such as a hard disk drive (HDD) or a semiconductor memory is reduced in size and cost, a function for recording a digital broadcast on an in-vehicle receiver is being installed.

  When a recording function is used in a vehicle-mounted receiving device, a radio wave reception environment changes sequentially according to the movement of the vehicle, which sometimes causes a problem. That is, when a broadcast signal is recorded in a bad reception environment, the recorded data is lost or interrupted, and the reproduced video or audio cannot be viewed satisfactorily. In order to solve such a problem, Patent Document 1 stops the recording of the received broadcast signal when it detects that the reception level of the broadcast signal is poor, and the reception failure is resolved. It discloses that recording is resumed, and on the other hand, when the reception is poor, the rebroadcast program is detected from the broadcast program data and recording reservation of the rebroadcast program is performed.

  In addition, in DAB put into practical use in Europe and the like, announcement data is broadcast as a temporary broadcast such as traffic information and weather forecast in addition to a plurality of multiplexed programs (programs). In a receiving apparatus having a recording function, received announcement data can be recorded in a memory, and then the announcement data can be read from the memory and reproduced at an arbitrary timing. DAB transmits frame data having a length of 24 ms that has been compression-encoded by MPEG1 / 2 audio layer 2, but there is a possibility that an error may occur in the frame data constituting the announcement due to deterioration of the reception environment. In this case, since the announcement data in which an error has occurred is recorded, the announcement data cannot be reproduced satisfactorily.

  FIG. 1 shows a format of digital audio data (see FIG. 2 of Patent Document 2). Each transmission frame includes a fast information channel (FIC), a main service channel (MSC), the MSC includes a plurality of common interleaved frames (CIF), and each CIF includes a plurality of Includes capacity units (CUs). Program information data including audio data is transmitted by such MSC. The program information data includes a plurality of audio program data, and the audio program data includes, for example, announcement data regarding road traffic information, regional weather information, entertainment information, and the like.

  On the other hand, the FIC includes a plurality of fast information blocks (FIBs), each FIB includes an FIB data field and an error detection word CRC (Cyclic Redundancy Check), and each FIB data field includes a plurality of FIB data fields. Includes a Fast Information Group (FIG), each FIG includes a FIG header and a FIG data field. With such an FIC, multiple configuration information (MCI) and control information data are transmitted. The control information data includes information related to the announcement data, that is, announcement switch flag data that takes “1” during the transmission period of the announcement data and takes “0” during other periods. (AS flag data) and new flag data which takes “1” when the content of the announcement data is new and takes “0” when the content of the announcement data is repetitive.

  In the receiving apparatus of Patent Literature 2, announcement data included in the audio program data is extracted based on the AS flag data and the new flag data, and an error frame is included in one of the audio frames for one period constituting the announcement data. By detecting whether or not there is an error, among the announcements repeated a plurality of times, one cycle of announcement data having no error is stored in the memory and reproduced.

Japanese Patent No. 4662340 Japanese Patent No. 4110342

  However, when recording the above announcement data, there are the following problems. In Europe and the like, it is expected that digital audio broadcasting as represented by DAB (including DAB + / T-DMB) will spread in the future, but digital broadcasting is more popular than FM broadcasting (viewable) areas. There is a high possibility that the viewable area will be narrowed. For this reason, in the on-vehicle receiving device, there is a possibility that the reception state is frequently deteriorated, and when the announcement data is recorded in the weak electric field state, the frequency of occurrence of the error is high, even if it is reproduced as it is, There are cases where parts that can be heard and parts that cannot be heard are mixed.

  Even if the announcement data that does not include an error frame is detected from the announcement data that is repeated a plurality of times and recorded, as in Patent Document 2, all the announcement data that is repeated a plurality of times will be error frames. In such a case, the announcement data cannot be recorded, and even the reproduction of the announcement data becomes impossible.

  Also, even if you record the announcement data that is repeated multiple times, it is difficult to judge whether the announcement data that was recorded last time or the announcement data that was recorded this time is of higher quality. Recording announcement data does not solve the problem.

  In this way, in a digital broadcast receiving apparatus in which the viewable area is limited and the receiving sensitivity changes sequentially, it is very unlikely that the announcement data can be recorded perfectly. Even so, it is desirable to reproduce and output the announcement data satisfactorily.

  SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and improves the reception sensitivity of announcement data included in a digital audio signal. Digital broadcasting capable of recording and reproducing announcement data satisfactorily An object of the present invention is to provide a receiving apparatus.

  A receiving apparatus having a function of receiving a digital broadcast according to the present invention includes: a receiving unit that receives a digital audio signal; a recording control unit that controls recording of announcement data included in the received digital audio signal; Replaying means for playing back the announcement data recorded in the recording control means, wherein the recording control means determines whether or not the announcement data is first received, and the announcement data Error detection means for detecting the presence / absence of errors in individual frame data constituting the frame, and all frames constituting the announcement data when the decision means determines that the announcement data is first received. Recording means for recording data and announcing by the judging means Frame data recorded in the recording means and having an error, and frame data constituting the announcement data received this time. Comparing means for comparing with frame data in which no error has been detected by the error detecting means, and the recording control means is adapted to generate frame data having no error based on the comparison result of the comparing means. Rewrite with

  Preferably, the receiving device further calculates a calculation means for calculating an error rate of the announcement data stored in the recording means, and determines whether or not the recorded announcement data can be reproduced based on the error rate calculated by the calculation means. Reproducibility determination means, and the replay means enables reproduction of the announcement data determined to be reproducible by the reproducibility determination means. Preferably, the receiving device further includes display means for displaying icon information related to the announcement data determined to be reproducible by the reproducibility determining means, and the replaying means transmits the announcement via the icon information. The receiving device according to claim 2, wherein when the reproduction is instructed by a user, the announcement data corresponding to the icon information is reproduced. Preferably, the recording control means includes holding means for holding identification information of frame data having an error recorded by the recording means, and the comparing means rewrites with reference to the identification information held by the holding means. Compare the frame data. Preferably, the error detection means detects an error in the frame data based on an error detection code included in the frame data. Preferably, the determination means determines whether or not the announcement is new based on flag data related to the announcement data included in the digital audio signal.

  According to the present invention, when recording announcement data that is repeated a plurality of times, if an error is included in the frame data constituting the announcement data, the frame data that includes the error is Since the frame data that does not contain the received error is overwritten or overwritten, the announcement can be recorded and reproduced satisfactorily. In addition, supplementing or synthesizing announcement data including errors with other announcement data using repeated announcement data apparently improves reception sensitivity by about 3 dB. Is equivalent to the viewing area obtained when the output power is doubled.

It is a format of digital audio data disclosed in the prior art. It is a figure which shows the data structure of the frame of the digital audio signal by which the compression encoding was carried out. It is a figure which shows the structure of the DAB receiver which concerns on the Example of this invention. 4A is a block diagram showing the configuration of the output control unit in FIG. 3, and FIG. 4B is a block diagram showing the configuration of the recording control unit 110 in FIG. 4A. It is a flowchart explaining the recording and reproduction | regeneration operation | movement of the announcement in the DAB receiver which concerns on the Example of this invention. It is a flowchart explaining the detail of the recording operation of the novel announcement in the Example of this invention. It is a flowchart explaining the detail of the recording operation | movement of the rebroadcast announcement in the Example of this invention. It is a figure explaining the example of recording of announcement data by the Example of this invention.

  Next, embodiments of the present invention will be described with reference to the drawings. A preferred embodiment of the present invention exemplifies a digital broadcast receiving apparatus capable of receiving a compression-coded digital broadcast on a mobile body such as an automobile. In a preferred embodiment, the digital broadcast receiving apparatus is applied to DAB standardized in Europe and the like. However, the present invention can also be applied to reception of digital audio signals according to other standards.

  Next, FIG. 3 shows a configuration example of a DAB receiving apparatus as an example of a digital audio broadcast receiving apparatus in this embodiment. In the DAB receiver 10 of the present embodiment, the front end 14 receives a broadcast wave RF signal from the antenna 12 and selects a frequency signal of a desired station from the received RF signal, and a frequency signal from a local transmitter. And an RF signal to generate an intermediate frequency (IF) signal, a DC meter for detecting the intermediate frequency signal, and an S meter circuit for extracting a received electric field strength signal (S meter signal). The intermediate frequency signal is converted into a digital signal by the A / D converter 16, and this signal is subjected to various signal processing in the signal processing unit 20.

  The signal processing unit 20 is configured using, for example, a DSP (Digital Signal Processor). The digital signal output from the A / D converter 16 is demodulated by the quadrature demodulator 21 to demodulate the signal of the quadrature component of the digital signal. The error correction unit 23 performs error correction using a Viterbi decoder or the like. The decoding unit 24 decompresses the compressed audio data, and extracts control data CDA transmitted by the FIC as shown in FIG. 1 and audio data DAD transmitted by the MSC from the received digital audio signal. . The extracted control data CDA is supplied to the controller 40, and the audio data DAD is supplied to the output control unit 25. The audio data DAD includes audio data of a selected channel (program) and announcement data broadcast on a temporary basis. On the other hand, the control data CDA includes AS flag data for identifying the transmission period of the announcement data, new flag data indicating whether or not the announcement data is new, and the like.

  FIG. 2 shows the data structure of the frames constituting the audio data DAD. DAB employs MPEG1 / 2 audio layer 2 as a data compression method for audio signals. For this reason, as shown in FIG. 2, one frame data (hereinafter referred to as an audio frame) includes a header part, a body part, and an additional data part, and its transmission time is 24 ms. The header part includes identification information and an allocation part that includes information on whether or not audio data exists in each subband, an SCF part (Scale Factor) that stores amplitude value data of each subband, It includes a CRC part that is a code for detecting the presence or absence of an error (error). The body portion stores data indicating the waveform (amplitude) of each normalized subband.

  As will be described later, the output control unit 25 is controlled by a control signal CONT including one or more instructions from the controller 40, and when there is an announcement broadcast, records the announcement data at an arbitrary time point. The recorded announcement data can be reproduced and output, or the audio data of the selected channel can be reproduced and output. The digital audio data output from the output control unit 25 is converted into analog data by the D / A converter 30 and is output as sound through the amplifier 32 and the speaker 34. The signal processing unit 20 performs synchronization control of each unit in addition to the above processing. Other detailed configurations can be understood by referring to known techniques. Further, the operation of the signal processing unit 20 may use a program stored in advance in the memory.

  The controller 40 controls each unit such as the front end 14 and the signal processing unit 20. The controller 40 includes a microcontroller, a microprocessor, and the like. In a preferred embodiment, the controller 40 controls each unit by executing a program stored in a memory. In response to an instruction from the user via the input unit 44, the controller 40 causes the front end 14 or the signal processing unit 20 to select a desired broadcast station or desired program, or to instruct the reproduction of recorded announcement data. Alternatively, the recording of announcement data in the output control unit 25 is controlled based on the control data CDA from the decoding unit 24. In addition, the controller 40 displays the reception frequency and broadcasting station name on the display unit 46, and displays icons and other information related to reproducible announcement data. The memory 42 can store programs and other necessary data. Furthermore, the controller 40 can receive the electric field strength signal S1 from the front end 14 and the signal S2 related to error correction from the error correction unit 23, and can control each unit using these signals S1 and S2.

  Next, details of the output control unit 25 will be described with reference to FIG. As described above, the output control unit 25 is configured to receive the audio data DAD supplied from the decoding unit 24, that is, a series of audio frames as shown in FIG. As shown in FIG. 4A, the output control unit 25 includes a recording unit 100 that stores announcement data included in the audio data DAD, and a recording control unit that controls the recording unit 100 based on a control signal CONT from the controller 40. 110, a selection unit 120 that inputs audio data DAD from the decoding unit 24 and announcement data AD read from the recording unit 100 and selectively outputs any data based on the control signal CONT. Is done. Usually, one period of announcement data is about 30 seconds, and therefore the recording unit 100 is composed of a memory having a capacity capable of storing announcement data for at least one period.

  When the controller 40 detects the start of the announcement broadcast based on the AS flag data and the news flag data included in the control data CDA, the controller 40 outputs a control signal CONT instructing the recording control unit 110 to record the announcement data. . That is, as will be described later, when the announcement is new, the controller 40 gives an instruction to record all of the announcement data for one period, and the announcement is repeated ( In the case of (rebroadcast), an instruction is given so that a voice frame including an error in the previously recorded announcement data is replaced with a voice frame having no error.

  When the controller 40 receives an announcement reproduction instruction from the user, the controller 40 gives the recording control unit 110 a control signal CONT including an instruction for reading the announcement data AD from the recording unit 100, and the announcement data. A control signal CONT including an instruction to output AD is supplied to the selection unit 120.

  Next, the internal structure of the recording control unit 110 is shown in FIG. In response to the start of the announcement broadcast, the frame count unit 200 receives continuous audio frames constituting the announcement data and counts the number thereof. One audio frame is 24 ms, and if the announcement broadcast is about 30 seconds, the number of audio frames is approximately 12,500. The error detection unit 210 calculates the CRC value of each voice frame constituting the announcement data, and detects whether or not there is an error in the voice frame. The frame information holding unit 220 receives the result of the frame count unit 200 and / or the result of the error detection unit 210, and holds the number of audio frames constituting the announcement data, the identification information of the audio frame in which the error is detected, and the like. To do. This information is used to identify an audio frame to be rewritten when announcement broadcasting is repeated.

  The read / write unit 240 writes announcement data to the recording unit 100 or reads announcement data from the recording unit 100. It should be noted here that when the announcement data is new, the read / write unit 240 writes all audio frames for one period of the announcement data to the recording unit 100 and repeats the announcement data repeated. When broadcasting, the recorded announcement data is partially rewritten, that is, the errored audio frame is rewritten, using an error-free audio frame.

  When the announcement broadcast is repeated, the comparison unit 230, based on the information held in the frame information holding unit 220, the recorded audio frame having an error and the received error frame having no error Compare When the comparison unit 230 finds that there is an error-free audio frame corresponding to the audio frame having an error, the comparison unit 230 provides the fact to the read / write unit 240. Based on the comparison result, the read / write unit 240 rewrites a voice frame including an already recorded error with a received voice frame without an error.

  The error rate calculation unit 250 calculates the error rate of the announcement data. In a preferred example, the ratio between the total number of audio frames constituting the announcement data counted by the frame count unit 200 and the audio frames detected by the error detection unit 210 is calculated. The error ratio is calculated when new announcement data is recorded and when the newest announcement data is partially rewritten by the next received announcement data. The calculation result of the error rate calculation unit 250 is supplied to the controller 40 as an error rate signal ER. In a preferred embodiment, the controller 40 determines that the recorded announcement data is reproducible when the error rate is equal to or higher than a predetermined threshold value, and the icon or text information indicates that the announcement data is reproducible. Notify the user by

  Next, the recording and reproducing operations of the announcement in the receiving apparatus of this embodiment will be described with reference to the flowcharts of FIGS. If a temporary announcement is broadcast while receiving the DAB broadcast, the controller 40 responds to the transition of the AS flag data included in the control data CDA from “0” to “1”. Then, it is detected that the announcement broadcast is started (S101). Further, the controller 40 determines whether or not the announcement is new based on whether the state of the new flag data included in the control data CDA is “0” or “1” (S102).

  If the controller 40 determines that a new announcement broadcast has been received, the controller 40 outputs a control signal CONT for recording all voice frames of the announcement data to the output control unit 250. In response to the control signal CONT, the recording control unit 110 causes the recording unit 100 to record all the audio frames constituting the announcement data (S103). At this time, the selection unit 120 is controlled by the control signal CONT so as to select the audio data DAD of the received channel. On the other hand, when the announcement broadcast is repeated rather than new (rebroadcast), that is, when the new flag data is “0”, the controller 40 rebroadcasts the recorded announcement data to the output control unit 250. The control signal CONT for interpolating or synthesizing with the announcement data is output (S200). Details of the recording of the new announcement broadcast and the repeated announcement broadcast will be described later.

  When the recording of the announcement data is completed, the output control unit 250 notifies the controller 40 of a signal END indicating that the recording is completed. In addition, the error rate calculation unit 250 provides the controller 40 with an error rate signal ER indicating the ratio of the number of audio frames including an error to the total number of audio frames constituting the announcement data recorded in the recording unit 100. The controller 40 receives the error rate signal ER, determines whether or not the error rate is equal to or lower than the first threshold value (S104), and if the error rate is equal to or higher than the first threshold value, playback is performed. The controller 40 determines that it is not possible (S105), and the controller 40 hides the icon related to the announcement and does not notify the user (S106), and waits for the broadcast of the announcement broadcast again (S107). Here, an example is shown in which the announcement data is reproduced by the user selecting an icon displayed on the display unit 46. However, if an announcement broadcast is received, it is automatically performed at an arbitrary timing. When the announcement data is set to be reproduced, the automatic reproduction of the announcement is stopped.

  On the other hand, if the error rate is less than the first threshold, the controller 40 determines that playback is possible (S108), displays an icon related to the announcement on the display unit 46 (S109), and displays the announcement data. It is placed in a reproducible state (S110). The controller 40 can reproduce the announcement data when an icon is selected by the user or at an arbitrary timing. When reproducing the announcement data, the controller 40 causes the recording control unit 110 to read the announcement data AD from the recording unit 100 via the control signal CONT, and causes the selection unit 120 to receive the announcement data AD via the control signal CONT. An instruction to output the announcement data AD is given.

  Next, the recording operation of announcement data in step S103 will be described. As shown in FIG. 4B, each of the audio frames constituting the announcement data is sequentially received by the frame count unit 200, the error detection unit 210, and the read / write unit 240 (S120). The recording control unit 110 receives the audio frames of these units in synchronization with the start of the announcement by the AS flag data.

  The frame count unit 200 counts the number of received audio frames (S121), and provides the count result to the error rate calculation unit 250. The error detection unit 210 calculates the value of the CRC portion included in the header portion of the voice frame (S121), and detects a voice frame error based on the calculated CRC value. The read / write unit 240 writes an audio frame to the recording unit 100 (S121).

  When an error is detected, the error detection unit 210 attaches an error flag to the identification information of the audio frame, and provides the information to the frame information holding unit 220 and the error rate calculation unit 250. Based on the information provided by the error detection unit 210, the frame information holding unit 220 sequentially holds the identification information of the audio frame in which the error is identified (S123). These operations are performed until the end of the announcement based on the AS flag data is detected (S124).

  When the recording of all the audio frames of the new announcement data is completed, the read / write unit 240 provides the recording completion notification signal END to the controller 40 (S125). Further, the error rate calculation unit 250 calculates the error rate for all voice frames of the recorded new announcement data, and provides the error rate signal ER to the controller 40 (S125). The frame information holding unit 220 holds voice frame identification information including an error in the recorded new announcement data.

  Next, a recording operation when announcement broadcasting is repeated will be described with reference to FIG. When the start of announcement broadcasting is detected by the controller 40 based on the AS flag data and the new flag data is rebroadcast (for example, the flag is “0”), an error sound is sent to the recording control unit 110 via the control signal CONT. Let the frame repair. The operation from step S201 to S203 is the same as the operation from step S121 to S123 shown in FIG. However, the read / write unit 240 buffers all of the audio frames constituting the repeated announcement data, that is, does not write to the recording unit 100, and writes the audio frame with an instruction from the comparison unit 230 Enable. Also, here, when the new flag data does not indicate a new announcement broadcast, it will be described that the announcement of the same content as the previous broadcast was rebroadcast. When determining the accuracy, for example, the number of audio frames that make up the previous announcement data is compared with the number of audio frames that make up the current announcement data. You may make it determine with this announcement. The total number of audio frames can be calculated by the frame count unit 200. Furthermore, it may be added to the determination whether the AS flag data is “1”, that is, whether the announcement broadcast time is the same.

  The frame information holding unit 220 holds the identification information of the voice frame without an error from the identification information of the voice frame with the error flag provided from the error detection unit 210 (S204). When the end of the announcement broadcast is detected by the controller 40 based on the AS flag data (S205), the comparison unit 230 receives the identification information of the voice frame having an error when the new announcement broadcast is recorded, and the current time. The re-broadcast announcement broadcast is compared with the identification information of the voice frame without error (S206), and it is confirmed whether or not there is the identification information of the voice frame that matches the identification information of the voice frame having the error (S206). S207). When the voice frame identification information matches, the comparison unit 230 instructs the read / write unit 240 to write a voice frame corresponding to the matched voice frame identification information (S208). A voice frame having an error is rewritten with a voice frame having no error (S209). After all the audio frames have been overwritten, as shown in steps S104 to S106 in FIG. 5, it is determined whether or not playback is possible. If playback is possible, playback of the recorded announcement broadcast is performed. To do.

  On the other hand, if there is no matching audio frame to be rewritten, it may be switched to the content of another announcement broadcast, and the recorded announcement data is considered not to be retransmitted (S210). Then, it is re-determined whether or not playback is possible based on the error rate of the recorded announcement data. In this case, the error rate is compared with the second threshold value, and if it is equal to or greater than the second threshold value, it is determined that reproduction is impossible, and the recorded announcement data is discarded. If the error rate is less than the second threshold, it is determined that playback is possible, and the announcement data can be played back (for example, icon display that can be instructed by the user or automatic playback at an arbitrary timing). In this case, the second threshold value is smaller than the threshold value (S104) for whether or not the new announcement data can be reproduced as shown in FIG.

  FIG. 8 shows an example of recording announcement data according to this embodiment. FIG. 6A shows a new announcement, which is composed of n audio frames, and that audio frame # 3 and audio frame # n−1 contain errors. The recording control unit 110 stores all n sound frames corresponding to one period of the announcement in the recording unit 100. The frame information holding unit 220 holds identification information of audio frames # 3 and # n−1 having errors.

  Next, it is assumed that the rebroadcast announcement as shown in (B) includes errors in audio frames # 2 and # n-2. In this case, the frame information holding unit 220 holds the identification information of the audio frames # 1, # 3, # n−1, and #n having no error, and the comparing unit 230 is the audio frame # 3, #n having an error. It is determined whether or not there is an audio frame that matches -1. In this example, since the audio frames # 3 and # n-1 match, the recorded audio frames # 3 and # n-1 are overwritten by an audio frame having no error.

  As described above, according to the present embodiment, when the announcement data that is likely to be repeatedly broadcast is recorded and reproduced, the announcement data that has been received next is received from the recorded announcement data. Since the data is overwritten with normal data, the reception sensitivity with respect to the announcement broadcast is apparently improved (about 3 dB) as compared with the conventional one. As a result, the viewable area, that is, the recordable area can be expanded. In addition, it is possible to improve the voice quality of the announcements that are played back than before.

  In MPEG1 / 2 audio layer 2, the CRC value is an error detection code added to the header portion, and clearly indicates whether or not there is an error in the header portion. Since there is no error detection code in the body part, in the error detection process using the CRC value, it is not determined whether there is an error in the entire data. However, if there is no error in the header part, a critical problem does not occur even if the body part is reproduced.

  Further, there is DAB + / T-DMB or the like as a broadcasting standard that has the same flow as DAB, and the DAB + / T-DMB audio compression coding system is HE-AAC-V2 (AAC +). While DAB has only a Viterbi decoder in FEC, RS (Reed Solomon) is also installed in addition to the Viterbi decoder. The main difference between the Viterbi decoder and Reed-Solomon is that the Viterbi decoder cannot detect whether there are any errors in the data resulting from error correction (whether it is Error Free), but Reed-Solomon. Can detect whether an error remains (whether it is Error Free). In the above embodiment, the presence or absence of an audio frame error is determined based on the CRC value. However, the presence or absence of an audio frame error may be determined using the result of error correction by a Viterbi decoder or RS. For example, the controller 40 receives the signal S2 indicating the number of error corrections from a Viterbi decoder or the like included in the error correction unit 23, determines the presence / absence of an audio frame, and provides the determination result to the output control unit 25. Also good.

  The preferred embodiment of the present invention has been described in detail above, but the present invention is not limited to the specific embodiment, and various modifications can be made within the scope of the present invention described in the claims. Deformation / change is possible.

10: DAB receiver 12: Antenna 14: Front end 16: A / D converter 20: Signal processing unit 21: Orthogonal demodulation unit 22: FFT 23: Error correction unit 24: Decoder 25: Output control unit 30: D / A converter 32: Amplifier 34: Speaker 40: Controller 42: Memory 44: Input unit 46: Display unit 100: Recording unit 110: Recording control unit 120: Selection unit 200: Frame count unit 210: Error detection unit 220: Frame information holding unit 230 : Comparison unit 240: Read / write unit 250: Error rate calculation unit

Claims (6)

A receiving device having a function of receiving digital broadcasting,
Receiving means for receiving a digital audio signal;
Recording control means for controlling recording of announcement data included in the received digital audio signal;
Reproduction means for reproducing the announcement data recorded in the recording control means,
The recording control means includes
Determining means for determining whether or not the announcement data is first received;
Error detection means for detecting the presence or absence of an error in individual frame data constituting the announcement data;
When it is determined by the determination means that the announcement data is first received, recording means for recording all the frame data constituting the announcement data;
When it is determined by the determination means that the announcement data has been repeatedly received, the frame data recorded in the recording means and having an error and the currently received announcement data are configured. Comparing means for comparing the frame data with frame data in which no error is detected by the error detecting means,
The recording apparatus, wherein the recording control unit rewrites frame data having an error with frame data having no error based on a comparison result of the comparison unit. The receiving device further includes calculation means for calculating an error rate of the announcement data stored in the recording means,
Reproducibility determining means for determining reproducibility of recorded announcement data based on the error rate calculated by the calculating means,
The receiving device according to claim 1, wherein the reproduction unit enables reproduction of the announcement data determined to be reproducible by the reproducibility determination unit. The receiving device further includes display means for displaying icon information related to the announcement data determined to be playable by the playability determination means.
The receiving device according to claim 2, wherein the reproduction unit reproduces the announcement data corresponding to the icon information when an instruction to reproduce the announcement is given by the user via the icon information. The recording control means includes holding means for holding identification information of frame data having an error recorded by the recording means, and the comparing means is a frame to be rewritten with reference to the identification information held by the holding means. The receiving apparatus according to claim 1, wherein data is compared. The receiving apparatus according to claim 1, wherein the error detection unit detects an error in the frame data based on an error detection code included in the frame data. The receiving device according to claim 1, wherein the determination unit determines whether or not the announcement is a new announcement based on flag data related to the announcement data included in the digital audio signal.

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