JP2016213532A - Radio broadcast receiver and seamless switching method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide "a radio broadcast receiver and a seamless switching method" which allow for quick seamless switching between reception voices, received by radio broadcast and IP radio broadcast in the relationship of simultaneous broadcasting.SOLUTION: When switching from radio broadcast to IP radio broadcast of an outputting voice, time stretch operation for expanding a reception voice of IP radio broadcast in the time axis direction is started, the delay time of the reception voice of IP radio broadcast for a specific reception voice of radio broadcast is calculated in parallel with the time stretch operation, and when the reception voice of radio broadcast has delayed by the delay time thus calculated, the voice to be outputted is switched to IP radio broadcast.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for switching a sound to be output from a broadcast that is outputting received sound to a received sound of another broadcast that is broadcasting the same content as the broadcast in a radio broadcast receiving apparatus.

  In a radio broadcast receiving device, from a broadcast that is outputting received sound to a received sound of another broadcast that is broadcasting the same content as the broadcast (a broadcast that has a relationship between a broadcast that is outputting received sound and a simulcast) As a technique for switching the sound to be output, in a radio broadcast receiving apparatus that receives FM broadcast and IP radio broadcast that is related to FM broadcast and simulcast, sound received by IP radio broadcast from sound received by FM broadcast When switching the sound to be output to the sound, the delay time of the sound received by the IP radio broadcast relative to the sound received by the FM broadcast is calculated, and the sound received by the FM broadcast is calculated for the time corresponding to the calculated delay time, the sound in the time axis direction. The output audio is seamlessly switched from the audio received by FM broadcasting to the audio received by IP radio broadcasting after being delayed by time stretching to expand Order technique is known (e.g., Patent Document 1).

  Here, in this technique, the voice received by the IP radio broadcast is compared with the voice received by the FM broadcast in the past, and has a large correlation with the part of the voice recently received by the IP radio broadcast. The voice part in the received voice is calculated, and the difference in reception time between the voice part recently received in the IP radio broadcast and the calculated voice part in the voice received in the FM broadcast in the past was received in the FM broadcast. It is calculated as the delay time of the voice received by the IP radio broadcast for the voice.

JP 2013-201469 A

  According to the technology for switching the output sound from the sound received by FM broadcast to the sound received by IP radio broadcast, the delay time is not completed until the switching of the output sound to the sound received by IP radio broadcast is completed. Compared to the time required for calculation, plus the time required to delay the amount of time required to delay the sound calculated by time stretching, compared to switching the output sound to the sound received by IP radio broadcasting. Takes a long time.

  Therefore, the present invention relates to the audio output to the user from the audio received from the receiving radio broadcast to the audio received from another broadcast that is broadcasting the same content as the radio broadcast. The problem is to perform seamless switching more quickly.

  In order to achieve the above object, the present invention is directed to a radio broadcast receiving apparatus capable of receiving a radio broadcast and a parallel broadcast that is a broadcast related to the radio broadcast and a simulcast, and receiving the radio broadcast and representing the received sound. A radio receiver that outputs audio data; a parallel broadcast receiver that receives the parallel broadcast in a relationship between the radio broadcast and the simulcast received by the radio receiver; and outputs audio data representing received audio; A delay time calculation unit for calculating a delay time of audio data output by the parallel broadcasting with respect to audio data output by the radio reception unit; and audio data output by the radio reception unit for a set delay target time A delay unit that outputs the signal after delay, and a delay time calculated by the delay time calculation unit is set in the delay unit as the delay target time. One of audio data output from the control unit, the delay unit, and audio data output from the parallel broadcast receiving unit is selectively set as output target audio data, and audio of the output target audio data is transmitted to the user And a selection unit for outputting. Here, when the control unit switches the output target audio data from the audio data output from the delay unit to the audio data output from the parallel broadcast reception unit, the control unit receives the parallel broadcast to the parallel broadcast reception unit. When the parallel broadcast receiving unit starts outputting audio data, the delay unit starts a time expansion output operation for expanding and outputting the audio data output from the radio receiving unit in the time axis direction. The delay time calculation unit starts calculating the delay time, and if the delay time calculation unit calculates the delay time, the calculated delay time is set as the delay target time in the delay unit, When the delay time of the audio data output from the delay unit reaches the delay target time, the selection unit outputs the audio data to be output. Is switched to audio data output by the parallel broadcast receiver, and the delay unit is set until the delay of the audio data output by the delay unit reaches the delay target time after the target delay time is set. The time expansion output operation is continuously performed.

  According to such a radio broadcast receiving apparatus, after delaying the radio broadcast reception sound by the delay time of the parallel broadcast reception sound with respect to the radio broadcast reception sound, the output sound is parallel from the radio broadcast reception sound. When switching to broadcast reception audio, after calculating the delay time, start time expansion output that expands and outputs the radio broadcast audio data in the time axis direction, and gradually delays the radio broadcast audio data. By doing so, instead of delaying the audio data of the radio broadcast by the delay time, the time expansion output is started without waiting for the delay time to be calculated, and in parallel with the delay time calculation processing, Before the calculation of is finished, the audio data of the radio broadcast is delayed to some extent. Therefore, according to this radio broadcast receiving apparatus, after the delay time is calculated, the time required to delay the audio data of the radio broadcast to the calculated delay time by the time expanded output starts the time expanded output after the delay time. As a result, the output sound can be shortened, and seamless switching from the received sound of the radio broadcast to the received sound of the parallel broadcast can be quickly performed.

  Here, in such a radio reception device, when the delay target time is set in the delay unit, the delay time of the audio data output by the delay unit is smaller than the set delay target time The delay time output operation is continued until the delay of the audio data output from the delay unit reaches the target delay time, and the delay unit outputs the target delay time when the target delay time is set. When the delay time of the audio data is larger than the set delay target time, the time expansion output operation is stopped and the time reduction in which the audio data output from the radio receiver is reduced in the time axis direction and output. The output operation is started, and the time reduction output operation is continuously performed until the delay of the audio data output from the delay unit reaches the delay target time. Sea urchin may be configured.

  In addition, in such a radio broadcast receiving apparatus, when the delay target time is set in the delay unit, the delay time of the audio data output from the delay unit is smaller than the set delay target time The delay time output operation is stopped when the delay of the audio data output from the delay unit reaches the target delay time, and the audio data output from the radio receiver is reduced to a time corresponding to the target delay time. When the delay target time is set and the delay time of the audio data output by the delay unit is greater than the set delay target time, the time expansion is started. Stop the output operation, start the time reduction output operation to reduce the audio data output by the radio reception unit in the time axis direction and output it, the delay unit When the delay of the audio data to be output reaches the delay target time, the time reduction output operation is stopped, and the operation of outputting the audio data output by the radio receiver with a delay of the delay target time is started. In addition, in the control unit, when switching the output target audio data from the audio data output from the parallel broadcast receiving unit to the audio data output from the delay unit, the output target audio data to the selection unit, The delay unit may be configured to switch to the audio data output after being delayed by the delay target time.

  In addition, in the radio receiving apparatus, when the control unit switches the output target audio data from the audio data output from the delay unit to the audio data output from the parallel broadcast receiving unit, the delay unit includes: When the delay time calculated by the delay calculation unit is set as the delay target time, the parallel broadcast reception unit starts reception of the parallel broadcast, and the parallel broadcast reception unit starts output of audio data Then, without causing the delay unit to start the time expansion output operation, to start the calculation of the delay time to the delay time calculation unit, if the delay time calculation unit has calculated the delay time, The calculated delay time is set as the delay target time in the delay unit, and the delay time of the audio data output from the delay unit is the delay time. Once reached the target time, to the selection unit, the output target audio data may be configured such to switch to the audio data output from said parallel broadcast receiver. However, in this case, in the delay unit, when the delay target time is set, when the delay time of the audio data output by the delay unit is smaller than the set delay target time, The time expansion output operation is performed until the delay of the audio data output from the delay unit reaches the delay target time. If the delay of the audio data output from the delay unit reaches the delay target time, the time expansion is performed. The output operation is stopped, the audio data output from the radio reception unit is started to be output after being delayed by the delay target time, and the audio output from the delay unit when the target delay time is set. If the delay time of the data is longer than the set delay target time, the audio data output by the radio receiver is moved in the time axis direction. If the delay of the audio data output by the delay unit reaches the delay target time, and the delay of the audio data output by the delay unit reaches the delay target time For example, the time reduction output operation is stopped, and the operation of outputting the audio data output from the radio reception unit with a time delay corresponding to the delay target time is started.

  Here, when the radio receiving apparatus is configured in this way, in the control unit, the audio data to be output is output to the selection unit with the delay unit delaying the delay target time by the delay unit. By simply switching to audio data, the output target audio data can be seamlessly switched from the audio data output by the parallel broadcast receiving unit to the audio data output by the delay unit.

  Here, in the radio broadcast receiving apparatus as described above, the parallel broadcast is an IP radio broadcast, and the parallel broadcast receiving unit receives the IP radio broadcast and outputs audio data representing received sound. It may be.

In the radio broadcast receiving apparatus as described above, the radio broadcast may be one or both of a digital radio broadcast and an analog radio broadcast.
Further, the radio broadcast receiving apparatus as described above may be a vehicle-mounted radio broadcast receiving apparatus mounted on an automobile.

  As described above, according to the present invention, from the sound received from the receiving radio broadcast to the sound received from another broadcast that is broadcasting the same content as the radio broadcast, The audio output can be seamlessly switched quickly.

It is a block diagram which shows the structure of the radio broadcasting system which concerns on embodiment of this invention. It is a block diagram which shows the structure of the radio broadcast receiver which concerns on embodiment of this invention. It is a flowchart which shows the seamless switching process which concerns on embodiment of this invention. It is a figure which shows the operation example of the seamless switching process which concerns on embodiment of this invention. It is a figure which shows the operation example of the seamless switching process which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 shows the configuration of a radio broadcast system according to this embodiment.
As shown in the figure, a radio broadcast receiver 1 is a radio broadcast receiver 1 whose position moves such as a radio broadcast receiver or a portable radio broadcast receiver mounted on an automobile. From a radio broadcast station 2, DAB, DAB +, etc. It receives digital radio broadcasts according to the broadcasting standards and analog radio broadcasts such as FM radio broadcasts. The radio broadcast receiver 1 connects to the WAN 3 such as the Internet via mobile communication and receives the IP radio broadcast from the IP radio server 4 on the WAN 3.

  Here, the IP radio broadcast performed by the IP radio server 4 is an IP radio broadcast having a relationship between a digital radio broadcast or an analog radio broadcast and a simulcast, that is, a broadcast having the same contents as the digital radio broadcast or the analog radio broadcast. IP radio broadcasts are included.

  In this embodiment, audio received from an IP radio broadcast that is in a relationship between a digital radio broadcast or an analog radio broadcast and a simulcast is always a digital radio broadcast or an analog radio in which the IP radio broadcast is in a simulcast relationship. Assume that the audio is delayed from the broadcasted audio.

Next, FIG. 2 shows a configuration of the radio broadcast receiver 1.
As shown in the figure, a radio broadcast receiver 1 receives a digital radio broadcast, reproduces and outputs the received audio data, a digital radio tuner 101, receives an analog radio broadcast, and digitally converts the audio received by the analog radio broadcast, An analog radio tuner 102 that outputs audio data and an IP radio player 103 that receives IP radio broadcast and outputs received audio data are provided.

  Here, the IP radio player 103 is connected to the IP radio server 4 on the WAN 3 via the mobile communication device 104 that performs mobile communication, receives the audio stream distributed by the IP radio server 4 by IP radio broadcast, Play and output audio data. However, the radio broadcast receiver 1 is provided with an external interface 105 for connecting the mobile phone 5 that performs mobile communication instead of including the mobile communication device 104, and the IP radio player 103 performs mobile communication performed by the mobile phone 5 via mobile communication. It may be configured to connect to the IP radio server 4 on the WAN 3 so as to receive, reproduce and output an audio stream distributed by the IP radio server 4 through IP radio broadcasting.

The radio broadcast receiver 1 includes an input device 106, a display device 107, and a control unit 108.
Also, the radio broadcast receiver 1 delays the audio data output from the digital radio tuner 101 or the analog radio tuner 102 by a set delay target time and outputs the delayed data 109 and the audio data output from the delay unit 109. A selector 110 that selects and outputs one of the audio data output from the IP radio player 103, a DA converter 111 that converts the audio data output from the selector 110 into an analog audio signal, and outputs the analog audio, and an analog audio output from the DA converter 111 An amplifier 112 that amplifies the signal, and a speaker 113 that is driven by the audio signal amplified by the amplifier 112 and outputs sound are provided.

The radio broadcast receiver 1 includes a tuner memory 114, a player memory 115, and a comparison unit 116.
In such a configuration, when the control unit 108 is instructed to receive a radio broadcast of a specific radio broadcast station 2 from the user via the input device 106, the radio broadcast station 2 instructed to receive the digital radio station 2 If it is a broadcast station, the digital radio tuner 101 is the active tuner, and if the radio broadcast station 2 instructed to receive is an analog radio broadcast station, the analog radio tuner 102 is the active tuner and the active tuner receives the signal. Reception of the radio broadcast of the instructed radio broadcast station 2 and output of audio data are started. Further, the control unit 108 clears the contents stored in the tuner memory 114 and the player memory 115, sets 0 as the delay target time in the delay unit 109, and directly receives the audio data input from the current tuner in the delay unit 109. The data is output to the selector 110. Then, the control unit 108 causes the selector 110 to output the audio data input from the delay unit 109 to the DA conversion unit 111, so that the audio received from the radio broadcast station 2 instructed to be received from the user by the active tuner is speaker 113 to output.

  On the other hand, audio data output from the current tuner is stored in the tuner memory 114. Here, the storage in the tuner memory 114 is always performed so that the latest audio data for a predetermined reproduction time is stored in the tuner memory 114. The reproduction time of the audio data that is always stored in the tuner memory 114 is the time that is expected as the maximum delay time of the IP radio broadcast that is related to the digital / analog radio broadcast and the simulcast for the digital / analog radio broadcast. It is set to be the above.

  Hereinafter, in such a radio broadcast receiver 1, the control unit 108, the audio output to the speaker 113, the audio received by the radio broadcast being received by the current tuner, and the radio broadcast and simulcast being received by the current tuner. A process of seamlessly switching between audio received by the related IP radio broadcast is performed.

Hereinafter, seamless switching processing performed by the control unit 108 for such seamless switching will be described.
FIG. 3 shows the procedure of the seamless switching process. The seamless switching process is started when the user gives an instruction to receive a radio broadcast from a specific radio broadcast station 2.
As shown in the figure, in this process, the radio broadcast receiver 1 waits for the radio broadcast sound received by the current tuner to be output from the speaker 113 (step 302). Is output from the speaker 113, the deterioration of the reception quality of the radio broadcast being received by the current tuner is monitored (step 304). Here, the reception quality of the radio broadcast being received by the current tuner is detected by the reception quality of the radio broadcast being received by the digital radio tuner 101 or the analog radio tuner 102 which is the current tuner. The calculation is performed based on the received electric field strength, the S / N ratio, the error occurrence rate, and the like, and the control unit 108 acquires the reception quality calculated in the current tuner.

  Next, if the reception quality of the radio broadcast being received deteriorates, the start of reception of the IP radio broadcast of the IP radio player 103, which is in the relationship between the radio broadcast being received by the current tuner and the simulcast, is controlled (step). 306).

  When the reception of the IP radio broadcast by the IP radio player 103 is started (step 308), the control unit 108 checks whether or not the delay target time currently set in the delay unit 109 is 0 ( Step 310) If not 0, go directly to Step 314.

  On the other hand, if the delay target time currently set in the delay unit 109 is 0 (step 310), the audio data is transferred to the delay unit 109 while maintaining the audio pitch of the audio data. After starting the time stretch operation of expanding and outputting in the direction (step 312), the process proceeds to step 314.

  Next, when the process proceeds to step 314 as described above, the control unit 108 calculates the delay time of the sound received by the IP radio broadcast with respect to the sound received by the radio broadcast being received by the current tuner.

Here, the delay time is calculated as follows.
In other words, the control unit 108 stops the audio data storage operation in the tuner memory 114, and controls so that the stored content of the audio data in the tuner memory 114 does not change from that point.

  Further, the control unit 108 controls the storage of the audio data for a predetermined reproduction time first received by the IP radio broadcast output from the IP radio player 103 in the player memory 115.

  The control unit 108 also compares the audio data stored in the tuner memory 114 with the comparison unit 116 and the audio data stored in the tuner memory 114 by comparing the audio data stored in the player memory 115. A search is made for a portion of the data where the audio data stored in the player memory 115 and the sound pattern match. Then, the difference between the reception time of the audio data stored in the player memory 115 and the reception time of the portion of the searched audio data stored in the tuner memory 114 is calculated as a delay time. The reception time of the portion in the audio data stored in the searched tuner memory 114 can be obtained from the position in the continuum of the audio data stored in the tuner memory 114 of the searched portion.

Next, the delay time calculated in step 314 is set in the delay unit 109 as the target delay time (step 316). Note that, when such a delay time is set in the delay unit 109 as the target delay time, it is determined that the target delay time is not zero in the subsequent step 310.
Here, the delay unit 109 set with the delay target time outputs the set delay target time until the delay time for the audio data input to the delay unit 109 of the audio data output from the delay unit 109 matches. Time-stretch audio data to be played. That is, when the set delay target time is larger than the delay time of the audio data output from the delay unit 109 at that time, the delay unit 109 outputs the set delay target time and the delay unit 109. Until the delay times of the audio data match, the time stretch operation of expanding and outputting the audio data in the time axis direction while maintaining the pitch of the audio data is continued.

  On the other hand, when the set delay target time is smaller than the delay time of the audio data output from the delay unit 109 at that time, the delay unit 109 is output from the set delay target time and the delay unit 109. Until the delay times of the audio data match, a time stretch operation is performed in which the audio data is reduced and output in the time axis direction while maintaining the voice pitch of the audio data.

  Note that the audio data is time stretched so that the length of the audio data in the time axis direction does not change by more than a predetermined length (for example, 20% of the original length) with respect to the original length.

  When the set delay target time and the delay time of the audio data output from the delay unit 109 match, the delay unit 109 stops time stretching and returns to output of audio data at a normal playback speed. At the same time, the coincidence of the delay times is reported to the control unit 108.

  Then, if the delay time (delay target time) calculated in step 314 and the delay time of the audio data output from the delay unit 109 match, the control unit 108 reports that the delay time coincides with the delay unit 109. (Step 318) The sound output to the speaker 113 is switched to the sound received by the IP radio player 103 from the IP radio broadcast (Step 320). Here, at this point, the delay unit 109 delays the audio data received by the current tuner through the radio broadcast by the delay time of the audio data received through the IP radio broadcast relative to the audio data received by the current tuner through the radio broadcast. Since the audio data output from the selector 110 is switched, the audio data output from the speaker 113 becomes the audio data output from the IP radio player 103 from the audio data received by radio broadcasting. And switch seamlessly.

  If the output of the audio received by the IP radio player 103 from the IP radio broadcast from the speaker 113 is started in this manner, the reception quality of the radio broadcast being received by the active tuner returns to a good reception quality. (Step 322), and when the reception quality is restored to a good reception quality, the audio data output from the selector 110 to the DA conversion unit 111 is switched to the audio data output from the delay unit 109, thereby the speaker. The sound output to 113 is switched to the sound of the radio broadcast being received by the current tuner (step 324). At this time, the delay unit 109 delays and outputs the audio data received by the radio broadcast by the delay time of the audio data received by the IP radio broadcast with respect to the audio data received by the radio broadcast. By switching the audio data output from the selector 110, the audio data output from the speaker 113 is seamlessly switched from the audio data output from the IP radio player 103 to the audio data received by radio broadcasting.

  Then, the storage operation of the audio data in the tuner memory 114 is restarted, and the IP radio player 103 is stopped from receiving the IP radio broadcast (step 326), and the process returns to step 304. Here, the IP radio player 103 disconnects the mobile communication with the mobile communication device 104 or the WAN 3 of the mobile phone 5 when stopping the reception of the IP radio broadcast.

The seamless switching process performed by the control unit 108 has been described above.
The seamless switching process as described above ends when the user instructs the end of reception of the radio broadcast being received. Also, the seamless switching process as described above is restarted when the user gives an instruction to receive a new radio broadcast station 2.

Hereinafter, a processing example of such seamless switching processing will be described.
First, FIG. 4 shows a first processing example of the seamless switching processing.
Now, assuming that a playback time of a predetermined time length (for example, 2 ms) is a unit time, each square surrounding the number in FIG. 5 represents audio data and voice for the unit time. In addition, a rectangle surrounding a number without “′” indicates audio data and sound received by the current tuner through radio broadcasting (digital radio broadcasting or analog radio broadcasting), and a rectangle surrounding the number with “′” indicates an IP radio player. Reference numeral 103 denotes audio data and voice received by IP radio radio broadcasting. In addition, squares having the same numerical value in each square (for example, “4” and “4 ′”) represent audio data and voice having the same contents. The tuner memory 114 is assumed to store audio data for five unit times.

  Now, assuming that 0 is set as the delay target time in the delay unit 109 at time T0, the selector during the period in which the current tuner receives radio broadcasts with good reception quality from time T0 to time T1. 110 is set to output the audio data output from the delay unit 109 to the DA conversion unit 111, and the audio data (0-3) received by the current tuner from the radio broadcast is received by the delay unit 109. The signal is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112 without being delayed. Also, the audio data (0-3) sequentially output by the current tuner is sequentially stored in the tuner memory 114, and eventually the tuner memory 114 always stores audio data for five unit time lengths. Become.

  In this state, when the deterioration of the reception quality of the radio broadcast is detected at time T1, the reception operation of the IP radio broadcast having the relationship between the radio broadcast being received by the current tuner and the simulcast is started in the IP radio player 103. . At time T2, reception of IP radio broadcast audio data is started. On the other hand, the audio data (4-5) received from the radio broadcast by the current tuner from time T1 to time T2 is not delayed by the delay unit 109, but is sent to the selector 110, the DA conversion unit 111, and the amplifier 112. And the audio data (4-5) are sequentially stored in the tuner memory 114.

  When reception of IP radio broadcast audio data is started at time T2, storage of the audio data in the tuner memory 114 is stopped, and the stored contents in the tuner memory 114 are frozen. Also, the audio data (4 ′) received first in the IP radio broadcast is stored in the player memory 115.

  When reception of audio data of IP radio broadcast is started at time T2, the comparison unit 116 starts searching by comparison, and audio data (1) stored in the tuner memory 114 at time T2-T3. The audio data having the same sound pattern as the audio data (4 ') in the player memory 115 is searched from the continuum of -5), and the audio stored in the tuner memory 114 of the searched audio data (4) is searched. The delay time of the audio data received by the IP radio broadcast relative to the audio data received by the radio broadcast is calculated from the reception time of the searched audio data (4) obtained from the storage position in the continuum of the data (1-5). The Here, at time T2-T3, the audio data (4 ′) in the player memory 115 matches the audio data (4) in the tuner memory 114, and two unit times are calculated as the delay time.

When reception of IP radio broadcast audio data is started at time T2, the delay unit 109 keeps the pitch of the audio data input from the current tuner until the delay time is calculated at time T3. The time stretch operation for expanding and outputting in the axial direction is started, and the audio data (6) expanded in the time axis direction is output from the speaker 4 via the selector 110, the DA conversion unit 111, and the amplifier 112. If the delay time is calculated at time T3, the calculated delay time is set in the delay unit 109 as the delay target time. Since the set delay target time (2 unit time) is larger than the delay time (1 unit time) at this time, the delay unit 109 expands the audio data input from the current tuner in the time axis direction while maintaining the pitch. The audio data (7) expanded in the time axis direction is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112.

  Then, at time T4 when the output of the audio data (7) expanded in the time axis direction is completed, the delay time (2 unit times) of the audio data output from the delay unit 109 with respect to the audio data input to the delay unit 109 is set. The audio data output from the selector 110 to the DA converter 111 is changed from the audio data output from the delay unit 109 to the audio data output from the IP radio player 103 if the delay target time (2 unit times) is reached. Switch. As a result, the sound output from the speaker 113 is switched from the sound received by the digital radio broadcast or the analog radio broadcast to the sound received by the IP radio broadcast, and the audio data (8′-13 ′) output by the IP radio player 103 is The signal is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112.

  Here, at time T4, the delay unit 109 delays and outputs the audio data received by the radio broadcast by the delay time of the audio data received by the IP radio broadcast with respect to the audio data received by the active tuner by the radio broadcast. Therefore, the audio data output from the speaker 113 is seamlessly switched from audio data received by radio broadcasting to audio data output from the IP radio player 103.

As shown in the figure, in this example, the calculation of the delay time takes 2 unit time, and it takes 4 unit time until the delay due to time stretching reaches the delay target time. Also, seamless switching is executed at time T4, which is four unit hours after the start of reception of IP radio broadcast audio data at time T2. On the other hand, when delay by time stretching is started after calculation of the delay time, the time required for seamless switching after starting reception of IP radio broadcast audio data is 6 unit hours (2 units). Time + 4 unit hours). Therefore, according to the present embodiment, it is possible to perform seamless switching of output audio more quickly than when delay by time stretching is started after calculation of delay time.
Next, at the time T4 when the output of the audio data (7) expanded in the time axis direction is completed, the time stretch of the delay unit 109 is stopped, and after the time T4, the delay unit 109 performs normal playback speed. The audio data (8-15) received from the radio broadcast by the current tuner is output.

  Here, the delay unit 109 includes a FIFO buffer, and when the delay target time is set to 0 or more, the audio data is extracted from the buffer while the input audio data is stored in the buffer. Then, the output is time-stretched as in the audio data (6-7) or is delayed for the target delay time without being time-stretched as in the audio data (8-15). Note that the bold audio data in the buffer in the figure represents the audio data being output by the delay unit 109.

  Next, when the reception quality of the current tuner returns to a good reception quality at time T5 when the output of the audio data (8′-13 ′) output from the IP radio player 103 to the speaker 113 is completed, the selector 110 performs DA conversion. The audio data output to the unit 111 is switched from the audio data output from the IP radio player 103 to the audio data output from the delay unit 109. Then, after time T5, audio data (14-15) delayed by the delay time of the audio data received by the IP radio broadcast with respect to the audio data received by the active tuner from the radio broadcast and received by the delay unit 109 by the radio broadcast. ) Is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112.

  Here, at this time T5, the delay unit 109 delays the audio data received by the radio broadcast by a delay time (2 unit times) of the audio data received by the IP radio broadcast with respect to the audio data received by the radio broadcast. Therefore, the audio data output from the speaker 113 is seamlessly switched from the audio data output from the IP radio player 103 to the audio data received by radio broadcasting.

Next, FIG. 5 shows a second processing example of the seamless switching processing.
In the second processing example, the delay time of the IP radio broadcast audio data relative to the radio broadcast audio data received by the current tuner is smaller than that in the first processing example shown in FIG. This is an example of a case that takes a long time.
In FIG. 5, assuming that 0 is set as the delay target time in the delay unit 109 at time T0, during the period in which the current tuner is receiving radio broadcasts with good reception quality from time T0 to time T1. The selector 110 is set to output the audio data output from the delay unit 109 to the DA converter 111, and the audio data (0-3) received from the radio broadcast by the current tuner is the delay unit. The signal is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112 without being delayed at 109. Also, the audio data (0-3) sequentially output by the current tuner is sequentially stored in the tuner memory 114, and eventually the tuner memory 114 always stores audio data for five unit time lengths. Become.

  In this state, when the deterioration of the reception quality of the radio broadcast is detected at time T1, the reception operation of the IP radio broadcast having the relationship between the radio broadcast being received by the current tuner and the simulcast is started in the IP radio player 103. . At time T2, reception of IP radio broadcast audio data is started. On the other hand, the audio data (4-5) received from the radio broadcast by the current tuner from time T1 to time T2 is not delayed by the delay unit 109, but is sent to the selector 110, the DA conversion unit 111, and the amplifier 112. And the audio data (4-5) are sequentially stored in the tuner memory 114.

  When reception of IP radio broadcast audio data is started at time T2, storage of the audio data in the tuner memory 114 is stopped, and the stored contents in the tuner memory 114 are frozen. Also, the audio data (5 ′) received first in the IP radio broadcast is stored in the player memory 115.

  When reception of audio data of IP radio broadcast is started at time T2, the comparison unit 116 starts searching by comparison, and audio data (1) stored in the tuner memory 114 at time T2-T3. The audio data having the same sound pattern as the audio data (5 ') in the player memory 115 is searched from the continuum of -5), and the audio stored in the tuner memory 114 of the searched audio data (5) is searched. The delay time of the audio data received by the IP radio broadcast relative to the audio data received by the radio broadcast is calculated from the reception time of the searched audio data (5) obtained from the storage position in the continuum of the data (1-5). The Here, at time T2-T3, the audio data (5 ′) in the player memory 115 matches the audio data (5) in the tuner memory 114, and one unit time is calculated as the delay time.

When reception of IP radio broadcast audio data is started at time T2, the delay unit 109 keeps the pitch of the audio data input from the current tuner until the delay time is calculated at time T3. A time stretch operation for expanding and outputting in the axial direction is started, and audio data (6)-(7) expanded in the time axis direction is output from the speaker 4 via the selector 110, the DA converter 111, and the amplifier 112. If the delay time is calculated at time T3, the calculated delay time is set in the delay unit 109 as the delay target time. Since the set delay target time (1 unit time) is smaller than the delay time (2 unit time) at this time, the delay unit 109 reduces the audio data input from the current tuner in the time axis direction while maintaining the pitch. Then, the time stretch operation to be output is started, and the audio data (8)-(9) reduced in the time axis direction is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112.

  Then, at time T4 when the output of the audio data (9) reduced in the time axis direction is completed, the delay time (1 unit time) of the audio data output from the delay unit 109 with respect to the audio data input to the delay unit 109 is set. If the delay target time (one unit time) matches, the audio data output from the selector 110 to the DA converter 111 is changed from the audio data output from the delay unit 109 to the audio data output from the IP radio player 103. Switch. As a result, the sound output from the speaker 113 is switched from the sound received by the digital radio broadcast or the analog radio broadcast being received by the current tuner to the sound received by the IP radio broadcast, and the audio data (10 ' -14 ′) is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112.

  Here, at time T4, the delay unit 109 delays and outputs the audio data received by the radio broadcast by the delay time of the audio data received by the IP radio broadcast with respect to the audio data received by the radio broadcast. Therefore, the audio data output from the speaker 113 is seamlessly switched from audio data received by radio broadcasting to audio data output by the IP radio player 103.

As shown in the figure, in this example, seamless switching is executed at time T4, which is five unit times after the start of reception of IP radio broadcast audio data at time T2. On the other hand, when delay by time stretch is started after calculation of delay time, the time required for seamless switching after starting reception of audio data of IP radio broadcast is expanded in the time axis direction In this example, the time required to delay the audio data by 1 unit time by the time stretching is 2 unit time, and thus, the total is 6 unit time (4 unit time + 2 unit time). Therefore, in this example as well, seamless switching of output sound can be performed more promptly than when delay by time stretching is started after calculation of the delay time.
Next, at time T4 when the output of the audio data (9) reduced in the time axis direction is completed, the time stretch of the delay unit 109 is stopped, and after the time T4, the delay unit 109 performs normal playback speed. The audio data (10-16) received from the radio broadcast by the current tuner is output.

  Next, when the reception quality of the current tuner returns to a good reception quality at time T5 when the output of the audio data (10′-14 ′) output from the IP radio player 103 to the speaker 113 is completed, the selector 110 performs DA conversion. The audio data output to the unit 111 is switched from the audio data output from the IP radio player 103 to the audio data output from the delay unit 109. After the time T5, the audio data (15-16) delayed by the delay time of the audio data received by the IP radio broadcast with respect to the audio data received by the active tuner from the radio broadcast and received by the delay unit 109 by the radio broadcast. ) Is output from the speaker 113 via the selector 110, the DA converter 111, and the amplifier 112.

  Here, at this time T5, the delay unit 109 delays the audio data received by the radio broadcast by a delay time (1 unit time) of the audio data received by the IP radio broadcast with respect to the audio data received by the radio broadcast. Therefore, the audio data output from the speaker 113 is seamlessly switched from the audio data output from the IP radio player 103 to the audio data received by radio broadcasting.

The embodiment of the present invention has been described above.
As described above, according to the present embodiment, the current tuner receives the voice to be output after delaying the voice received by the current tuner by the delay time of the voice received by the IP radio broadcast for the voice. When switching from the received voice to the voice received by IP radio broadcasting, after calculating the delay time, start the time stretch that expands and outputs the voice received by the current tuner in the time axis direction, and gradually Instead of delaying the sound by the delay time, without delaying the calculation of the delay time, time stretching is started to expand and output the sound in the time axis direction. The voice received by the active tuner is delayed to some extent before the calculation process is completed. Therefore, after calculating the delay time, the time required to delay the sound received by the active tuner by the time stretch by the calculated delay time can be shorter than when the time stretch is started after the delay time. Therefore, according to the present embodiment, it is possible to quickly switch the output sound from the sound received by digital radio broadcast or analog radio broadcast to the sound received by IP radio broadcast.

  Here, in the radio broadcast receiver 1 according to the above embodiment, in place of the IP radio player 103, broadcasts of an arbitrary broadcast system or broadcast medium having a relationship between digital radio broadcast, analog radio broadcast and simulcast are provided. You may make it provide the receiver which receives. In this case, similarly to the audio data output from the IP radio player 103, the audio data output from the receiver provided in place of the IP radio player 103 is processed.

  DESCRIPTION OF SYMBOLS 1 ... Radio broadcast receiver, 2 ... Radio broadcast station, 3 ... WAN, 4 ... IP radio server, 5 ... Mobile phone, 101 ... Digital radio tuner, 102 ... Analog radio tuner, 103 ... IP radio player, 104 ... Mobile communication Device ... 105 ... external interface 106 ... input device 107 ... display device 108 ... control unit 109 ... delay unit 110 ... selector 111 ... DA converter 112 ... amplifier 113 ... speaker 114 ... memory for tuner 115: Memory for player 116: Comparison unit.

Claims (11)

A radio broadcast receiver capable of receiving a radio broadcast and a parallel broadcast that is a broadcast related to the radio broadcast and the simulcast,
A radio receiver that receives radio broadcasts and outputs audio data representing received voice;
A parallel broadcast receiver that receives the parallel broadcast in a relationship between the radio broadcast and the simulcast received by the radio receiver, and outputs audio data representing the received voice;
A delay time calculation unit for calculating a delay time of audio data output by the parallel broadcasting with respect to audio data output by the radio reception unit;
Audio data output by the radio reception unit, a delay unit that outputs a delay for a set delay target time, and
A control unit that sets the delay time calculated by the delay time calculation unit as the delay target time in the delay unit;
A selection unit that selectively outputs one of audio data output from the delay unit and audio data output from the parallel broadcast reception unit as output target audio data, and outputs audio of the output target audio data to a user; Have
When the control unit switches the output target audio data from the audio data output by the delay unit to the audio data output by the parallel broadcast reception unit, the parallel broadcast reception unit starts reception of the parallel broadcast, When the parallel broadcast receiver starts outputting audio data, the delay unit starts a time expansion output operation for expanding and outputting the audio data output from the radio receiver in the time axis direction, and the delay When the time calculation unit starts calculating the delay time, and the delay time calculation unit calculates the delay time, the calculated delay time is set in the delay unit as the delay target time, and the delay unit If the delay time of the output audio data reaches the delay target time, the output target audio data is sent to the selection unit. Let switch to the audio data line broadcast reception unit outputs,
The radio is characterized in that, after the delay target time is set, the delay unit continuously performs the time expansion output operation until a delay of audio data output from the delay unit reaches the delay target time. Receiver device. The radio receiver according to claim 1,
The delay unit is
If the delay time of the audio data output from the delay unit is smaller than the set delay target time when the delay target time is set, the delay of the audio data output from the delay unit is the delay Until the target time is reached, continue the time expansion output operation,
When the delay target time is set, if the delay time of the audio data output by the delay unit is larger than the set delay target time, the time expansion output operation is stopped and the radio reception is performed. Start the time reduction output operation to reduce the audio data output by the unit in the time axis direction, and continue the time reduction output operation until the delay of the audio data output by the delay unit reaches the delay target time A radio receiver characterized in that The radio receiver according to claim 1,
The delay unit is
If the delay time of the audio data output from the delay unit is smaller than the set delay target time when the delay target time is set, the delay of the audio data output from the delay unit is the delay When the target time is reached, the time expansion output operation is stopped, and the audio data output by the radio reception unit is started to be output after being delayed by a delay target time,
When the delay target time is set, if the delay time of the audio data output by the delay unit is larger than the set delay target time, the time expansion output operation is stopped and the radio reception is performed. Start the time reduction output operation to reduce the audio data output by the unit in the time axis direction, and when the delay of the audio data output by the delay unit reaches the delay target time, the time reduction output operation , Start the operation to output the audio data output by the radio reception unit with a delay of the target delay time,
When the control unit switches the output target audio data from the audio data output from the parallel broadcast receiving unit to the audio data output from the delay unit, the control unit sends the output target audio data to the delay unit. Is switched to the audio data output after being delayed by the delay target time. The radio receiver according to claim 1,
The controller is
When switching the output target audio data from the audio data output from the delay unit to the audio data output from the parallel broadcast reception unit, the delay time calculated by the delay calculation unit is set as the delay target time in the delay unit. If set, the parallel broadcast receiving unit starts receiving the parallel broadcast, and if the parallel broadcast receiving unit starts outputting audio data, the delay unit starts the time expansion output operation Without causing the delay time calculation unit to start calculating the delay time, and when the delay time calculation unit calculates the delay time, the calculated delay time is set as the delay target time to the delay unit. When the delay time of the audio data output from the delay unit reaches the delay target time, the selection unit sets the output target audio. Allowed to switch the Odeta the audio data output from said parallel broadcast receiving unit,
The delay unit is
When the delay target time is set and the delay time of the audio data output by the delay unit is smaller than the set delay target time, the delay unit outputs the time expansion output operation. The delay is performed until the delay of the audio data reaches the target delay time. When the delay of the audio data output by the delay unit reaches the target delay time, the time expansion output operation is stopped, and the radio receiver outputs Start the operation to output the audio data to be delayed by the target delay time,
When the delay target time is set, if the delay time of the audio data output by the delay unit is greater than the set delay target time, the audio data output by the radio reception unit is time axis direction The time reduction output operation is performed until the delay of the audio data output from the delay unit reaches the target delay time, and the delay of the audio data output from the delay unit reaches the target delay time. Then, the radio reception apparatus is characterized in that the time reduction output operation is stopped, and the audio data output from the radio reception unit is started to be output after being delayed by a delay target time. The radio receiver according to claim 4,
When the control unit switches the output target audio data from the audio data output from the parallel broadcast receiving unit to the audio data output from the delay unit, the control unit sends the output target audio data to the delay unit. Is switched to the audio data output after being delayed by the delay target time. The radio broadcast receiver according to claim 1, 2, 3, 4 or 5,
The parallel broadcasting is IP radio broadcasting,
The parallel broadcast receiving unit is an IP radio player that receives an IP radio broadcast and outputs audio data representing received sound. The radio broadcast receiver according to claim 1, 2, 3, 4, 5 or 6,
The radio broadcast receiving apparatus, wherein the radio broadcast is at least one of a digital radio broadcast and an analog radio broadcast. A radio broadcast receiver according to claim 1, 2, 3, 4, 5, 6 or 7,
The radio broadcast receiving apparatus is an in-vehicle radio broadcast receiving apparatus mounted on an automobile. In a radio broadcast receiving apparatus capable of receiving a radio broadcast and a parallel broadcast that is a broadcast related to the radio broadcast and a simulcast, the audio output to the user is received from the received audio of the radio broadcast. A seamless switching broadcast that seamlessly switches to audio,
Starting reception of the parallel broadcast;
When reception of the reception sound of the parallel broadcast is started, a time expansion output operation for expanding the reception sound of the radio broadcast in the time axis direction and outputting it to the user is started, and for the reception sound of the radio broadcast Starting the calculation of the delay time of the received sound of the parallel broadcasting;
After the delay time is calculated, if the delay time due to the time expansion output operation of the radio broadcast reception sound reaches the delay target time, the sound output to the user is changed to the parallel broadcast reception sound. And a step of switching. A seamless switching method according to claim 9, wherein
The parallel broadcasting is IP radio broadcasting,
A seamless switching method, wherein the radio broadcast is at least one of a digital radio broadcast and an analog radio broadcast. The seamless switching method according to claim 9 or 10,
A seamless switching method, wherein the radio broadcast receiving apparatus is an in-vehicle radio broadcast receiving apparatus mounted on an automobile.