JP2013168726A - Distribution system, transmission device, receiving device, and channel changing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a distribution system for reducing a sense of discomfort felt by a user in changing a channel.SOLUTION: A transmission device 1 comprises: a tuner section 11 for outputting a sound signal by demodulating broadcasting waves, and changing a channel of broadcasting waves to be demodulated according to a request signal; a packet transmission section 102 for converting the sound signal outputted by the tuner section 11 into a time-sequence data packet, and transmitting it to a receiving device 2; and a notification signal transmission section 103 for creating a notification signal indicating the data packet at a time when change of the channel by the tuner section 11 is completed, and transmitting the notification signal to the receiving device 2. The receiving device 2 comprises: a request transmission section 201 for transmitting a request signal for requesting the change of the channel of the broadcasting wave to the transmission device 1; and a reproduction processing section 202 for acquiring the sound signal from the data packet received by the transmission device 1 and reproducing it, muting the sound signal to be reproduced at the same time as the request transmission section 201 transmits the request signal, and canceling muting according to the notification signal transmitted by the transmission device 1.

Description

  The present invention relates to a distribution system, a transmission device, a reception device, and a channel change method for distributing multimedia data acquired from broadcast waves via a network.

  In a tuner such as a general radio or television, the following steps are taken when changing the channel (frequency). (A) Press a channel selection button such as channel up / down key, preset key, auto seek key. (B) The output sound is muted. (C) Change the reception frequency of the tuner up to the target channel or the receivable channel. (D) Cancel mute of output sound. Through the above steps, the channel can be changed without letting the user hear the noise at the time of changing the reception channel of the tuner or the noise of the channel having a poor reception state (see Patent Document 1).

  On the other hand, in a distribution system in which multimedia data such as video and audio acquired from a broadcast wave is stream-distributed in real time by a transmission device and reproduced by a reception device, between the reproduction time of the broadcast wave and the reproduction time of the reception device. A time lag occurs. The time lag is caused by a transmission buffer time when the transmission device transmits, a transmission delay time due to wireless communication between the transmission device and the reception device, a reception buffer time when the reception device receives, and the like.

  The time lag can be shortened by setting the buffer time at the time of transmission / reception to be shortened, but the sound is likely to be cut off if any failure occurs in the wireless transmission. Therefore, in order to realize stream delivery stably, it is necessary to secure a buffer to some extent.

JP-A-4-354435

  In the distribution system as described above, the following steps are taken when changing the channel. (A) The receiving device transmits a request signal to the transmitting device in response to pressing of the channel Up / Down key, preset key, auto seek key, or the like. (B) The transmission device receives the request signal and mutes the audio output of the tuner unit. (C) The transmission apparatus changes the reception channel of the tuner unit up to the target channel or the receivable channel. During the channel change, the transmission apparatus streams data in which the audio output of the tuner unit is muted. (D) When the channel change is completed, the transmission device cancels mute of the audio output of the tuner unit.

  In this case, if the time lag between the reproduction time of the broadcast wave and the reproduction time in the receiving device is 5 seconds, the sound output in the receiving device is muted 5 seconds after transmitting the request signal. After the change of the channel is completed, the mute is released and the sound of the changed channel is played back. Therefore, the user perceives the time lag strongly, which causes a sense of incongruity.

  In order to avoid this, the receiving apparatus can reduce the user's uncomfortable feeling by transmitting a request signal for changing the channel and muting the sound. However, during muting, it is difficult to accurately determine where in the received data the data after the channel change is made, and it is difficult to determine the timing for releasing the muting. Although it is possible to predict the time lag and appropriately determine the timing for releasing the mute, it is difficult to reproduce the multimedia data from the packet immediately after the channel change.

  In view of the above problems, an object of the present invention is to provide a distribution system, a transmission device, a reception device, and a channel change method that reduce a sense of discomfort that a user feels when changing a channel.

  In order to achieve the above object, according to a first aspect of the present invention, a tuner unit (11) that outputs an audio signal by demodulating a broadcast wave, and a request signal transmitted from a receiving device that reproduces the audio signal. The tuner control unit (101) that changes the channel of the broadcast wave to be demodulated, converts the audio signal output from the tuner unit (11) into a time-series data packet, and transmits the converted data packet to the receiving device. Notification that generates a notification signal indicating a data packet at the time when the channel change of the packet transmission unit (102) and the tuner control unit (101) is completed, and transmits the generated notification signal to the reception device (2) A transmission device (1) including a signal transmission unit (103), and a request signal for requesting a change of a channel of a broadcast wave demodulated by the transmission device (1). ) And a voice signal is acquired from the data packet transmitted by the transmission device (1) and reproduced, and the request transmission unit (201) reproduces the request signal at the same time. The gist of the present invention is a distribution system including a receiving device (2) including a reproduction processing unit (202) that mutes an audio signal and releases the mute based on the notification signal transmitted by the transmitting device (1). .

  Further, in the distribution system according to the first aspect of the present invention, the notification signal transmission unit (103) uses the sequence number indicating the data packet at the time when the channel change is completed as the notification signal, as the reception device (2). Can be sent to.

  In the distribution system according to the first aspect of the present invention, the packet transmission unit (102) converts the audio signal output from the tuner unit (11) into an RTP data packet, and transmits the notification signal transmission unit ( 103) can transmit an RTP data packet having a specific data pattern as a notification signal to the receiving device (2).

  In the distribution system according to the first aspect of the present invention, the packet transmission unit (102) converts the audio signal output from the tuner unit (11) into an RTP data packet, and transmits the notification signal transmission unit ( 103) adds the changed channel information to the RTP data packet converted by the packet transmission unit (102), and sends the data packet with the channel information added to the receiving apparatus (2) as a notification signal. Can be sent.

  Further, in the distribution system according to the first aspect of the present invention, the notification signal transmission unit (103) includes the changed channel information in the RTP extension header of the RTP data packet converted by the packet transmission unit (102). Can be added.

  The second aspect of the present invention demodulates a tuner unit (11) that outputs an audio signal by demodulating a broadcast wave and a request signal transmitted from a receiving device (2) that reproduces the audio signal. A tuner control unit (101) for changing the channel of the broadcast wave, and an audio signal output from the tuner unit (11) are converted into time-series data packets, and the converted data packets are transmitted to the receiving device (2). Notification signal for generating a notification signal indicating a data packet at the time when the channel change of the packet transmission unit (102) and the tuner control unit (101) is completed, and transmitting the generated notification signal to the reception device (2) The gist of the present invention is a transmission device including the transmission unit (103).

  According to a third aspect of the present invention, an audio signal is output by demodulating a broadcast wave, and a data packet converted from the audio signal is transmitted to a receiving device (2). ) Transmits a request signal for requesting a change of the channel of the broadcast wave to be demodulated, and obtains and reproduces an audio signal from the data packet transmitted by the transmitter (1), and transmits the request. A receiving unit comprising: a playback processing unit (202) for muting an audio signal to be played at the same time as the unit (201) transmits a request signal and releasing the mute based on the notification signal transmitted by the transmitting device (1); It is a summary.

  According to a fourth aspect of the present invention, a transmission device outputs a sound signal by demodulating a broadcast wave, and a channel of the broadcast wave to be demodulated according to a request signal transmitted from a reception device that reproduces the sound signal. A step of changing the audio signal output in the step of changing the channel by the transmitting device into a time-series data packet, and transmitting the converted data packet to the receiving device; A step of generating a notification signal indicating a data packet at the time when the change is completed, and transmitting the generated notification signal to the receiving device; and a request for requesting the receiving device to change a channel of a broadcast wave demodulated by the transmitting device. Transmitting a signal to the transmitting device; and a receiving device acquires and reproduces an audio signal from a data packet transmitted by the transmitting device. A channel change comprising: a step of muting an audio signal reproduced simultaneously with transmission of the request signal by the receiving device; and a step of releasing the mute based on the notification signal transmitted by the transmitting device. The gist is the method.

  According to the present invention, it is possible to provide a distribution system, a transmission device, a reception device, and a channel change method that reduce a sense of discomfort that a user feels when changing a channel.

It is a block diagram explaining the basic composition of the distribution system concerning a 1st embodiment. It is an example which illustrated the data structure of the notification signal used for the delivery system which concerns on 1st Embodiment. It is an example which illustrated the data structure of the request signal used for the delivery system which concerns on 1st Embodiment. It is a flowchart explaining the channel change method of the delivery system which concerns on 1st Embodiment. It is a figure explaining the delay time in the delivery system concerning a 1st embodiment. It is a figure explaining operation | movement of the delivery system which concerns on 1st Embodiment. It is a figure explaining operation | movement of the delivery system which concerns on 2nd Embodiment. It is an example which illustrated the data structure of the notification signal used for the delivery system which concerns on 2nd Embodiment. It is an example which illustrated the data structure of the notification signal used for the delivery system which concerns on 3rd Embodiment. It is an example which illustrated the data structure of the notification signal used for the delivery system which concerns on 3rd Embodiment.

  Next, first to third embodiments of the present invention will be described with reference to the drawings. The following embodiments exemplify apparatuses and methods for embodying the technical idea of the present invention, and programs used in these apparatuses. The technical idea of the present invention is described below. The present invention is not limited to the devices and methods exemplified in the embodiments and the programs used for these devices. The technical idea of the present invention can be variously modified within the technical scope described in the claims.

(First embodiment)
As shown in FIG. 1, the distribution system according to the first embodiment of the present invention includes a transmission apparatus 1 that performs stream distribution of multimedia data, a reception apparatus 2, and a transmission apparatus 1 and a reception apparatus 2. And a relay device 3 that relays communication.

  The transmission device 1 stream-distributes multimedia data, which is time-series data such as video and audio acquired from broadcast waves, to the reception device 2 in real time via the relay device. The receiving device 2 includes a personal computer (PC), a smartphone, and the like, and the receiving device 2 reproduces multimedia data stream-distributed from the transmitting device 1. The relay device 3 is communicably connected to the transmission device 1 and the reception device 2. The relay device 3 includes a wireless LAN router that relays wireless LAN (Local Area Network) router communication such as Wi-Fi (registered trademark) and wired LAN communication.

  The transmission apparatus 1 receives data from the reception apparatus 2 via the tuner section 11 that outputs an audio signal by demodulating a broadcast wave, the processing section 10 that processes various operations performed by the transmission apparatus 1, and the relay apparatus 3. The communication part 13 which transmits / receives is provided.

  The tuner unit 11 includes an antenna, demodulates a broadcast wave received by the antenna, and outputs a multimedia signal such as a video signal or an audio signal. The multimedia signal output from the tuner unit 11 is input to the signal processing unit 12. The signal processing unit 12 receives the multimedia signal output from the tuner unit 11 and performs AD conversion. The multimedia signal subjected to AD conversion in the signal processing unit 12 is input to the processing unit 10.

  The processing unit 10 includes a tuner control unit 101 that controls the operation of the tuner unit 11, a packet transmission unit 102, a notification signal transmission unit 103, and a transmission buffer unit 104 that buffers data packets that the transmission device 1 transmits to the outside. As a logical structure. The packet transmission unit 102 converts the multimedia signal output from the tuner unit 11 into a time-series data packet, and sequentially transmits the converted data packet to the receiving device 2 via the communication unit 13.

  When the broadcast signal channel (frequency) received by the tuner unit 11 is changed, the notification signal transmission unit 103 generates a notification signal indicating a data packet at the time when the change of the channel is completed. The generated notification signal is transmitted to the receiving device 2.

  For example, as illustrated in FIG. 2, the notification signal is generated so that a tuner control command for controlling the output sound of the tuner unit 11 is included in a data part of a TCP (Transmission Control Protocol) packet.

  The receiving device 2 includes a communication unit 21 that transmits / receives data to / from the transmitting device 1 via the relay device 3, a processing unit 20 that processes various calculations performed by the receiving device 2, an input unit 22, and an output unit 23. Prepare.

  The input unit 22 receives a user operation and inputs an operation signal corresponding to the user operation to the processing unit 20. The input unit 22 inputs an operation signal for instructing selection of a channel to be demodulated by the tuner unit 11 of the transmission apparatus 1, FM / AM band switching, reception state monitoring, and the like to the processing unit 20. The input unit 22 includes, for example, a channel Up / Down key for selecting an adjacent channel, a preset key for selecting a preset channel, an auto seek key for selecting a receivable channel, and the like. Become. The output unit 23 includes, for example, a speaker or a display device.

  The processing unit 20 includes, as a logical structure, a request transmission unit 201, a reproduction processing unit 202 having a mute processing unit 203, and a reception buffer unit 204 that buffers data received from the outside by the receiving device 2.

  The request transmission unit 201 transmits a request signal for requesting a change of the broadcast wave channel demodulated by the tuner unit 11 of the transmission device 1 in accordance with the operation signal input from the input unit 22.

  For example, as illustrated in FIG. 3, the request transmission unit 201 generates a request signal so that a tuner control command for controlling the tuner unit 11 is included in the data portion of the TCP packet. For example, when the broadcast wave channel demodulated by the tuner unit 11 is set to FM 83.0 MHz, the “TCP data” that is the data part of the TCP packet is “0xAA000302206C”.

  The reproduction processing unit 202 inputs the data packet transmitted from the transmission device 1 via the communication unit 21, and converts the input data packet into a multimedia signal. The reproduction processing unit 202 reproduces the multimedia signal by outputting it to the output unit 23.

  The mute processing unit 203 of the reproduction processing unit 202 mutes the multimedia signal to be reproduced at the same time as the request transmission unit 201 transmits the request signal. The mute processing unit 203 cancels mute based on the notification signal transmitted by the notification signal transmission unit 103 of the transmission device 1.

  An example of the operation of the distribution system according to the first embodiment will be described using the flowchart of FIG. 4 with reference to FIGS.

  First, driving of the transmission device 1 and the reception device 2 is started, and the multimedia data acquired from the broadcast wave by the transmission device 1 is stream-distributed to the reception device 2 via the relay device 3. The tuner unit 11 of the transmission apparatus 1 receives and demodulates broadcast waves of analog radio such as FM radio and AM radio, for example, and outputs an audio signal to the signal processing unit 12.

  The packet transmission unit 102 converts the audio signal AD-converted by the signal processing unit 12 into a data packet of RTP (Real-time Transport Protocol), and transmits the data packet to the reception device 2 via the relay device 3 for stream distribution. To do. The reproduction processing unit 202 of the reception device 2 converts the data packet transmitted by the transmission device 1 into an audio signal and reproduces it.

As shown in FIG. 5, there is a time lag of a delay time _Td between the broadcast wave reproduction time in the transmission apparatus 1 and the reproduction time in the reception apparatus 2. The delay time _Td is a total of a transmission buffer time when the transmission device 1 transmits, a transmission delay time due to wireless communication between the transmission device 1 and the reception device 2, a reception buffer time when the reception device 2 receives, and the like. .

Next, at time t ₁ shown in FIG. 6, the input unit 22 of the receiving device 2 accepts an operation for changing a broadcast wave channel, and inputs an operation signal corresponding to the operation to the request transmission unit 201. The request transmission unit 201 transmits a request signal for requesting channel change to the transmission device 1 in accordance with the operation signal input from the input unit 22 (step S1).

At time t _1, the mute processing section 203 of the reproduction processing unit 202, simultaneously with the transmission of the request signal, to mute the audio signal being reproduced (step S2). Receiving apparatus 2 at time T ₁ of the from the drive start to time t _1, the sound of the front channel change broadcast waves, playing a delay time T _d.

In time t _2, the tuner control unit 101 of the transmitting apparatus 1 via the communication unit 13 receives a request signal transmitted from the receiving apparatus 2 (step S3).

Further, at time t _2, the tuner unit 11, under the control of the tuner control unit 101 in response to the request signal, to initiate a change in the frequency of a broadcast wave to be demodulated to a desired channel, or until receivable channels (step S4 ). While the tuner unit 11 changes the channel, the packet transmission unit 102 transmits an audio data packet or a silent data packet output during the channel change to the reception device 2.

  While the tuner unit 11 changes the channel, the packet transmission unit 102 transmits the voice data whose channel is being changed to the receiving device 2 as it is, or converts the voice data whose channel is being changed into a silent data packet to the receiving device 2. Send. The audio data during channel change here is a noise sound that is heard until a channel is selected. Since the audio data during the channel change is muted in the receiving apparatus 2, the user does not actually hear these sounds.

Next, at time t ₃ , when the tuner unit 11 completes the channel change, the notification signal transmission unit 103 of the transmission device 1 sets, for example, an RTP sequence number indicating a data packet when the channel change is completed, It transmits to the receiver 2 as a notification signal (step S5). The sequence number of RTP is information on the order of streaming data expressed by 2 bytes of 0x0000 to 0xFFFF.

  For example, as illustrated in FIG. 2, when the notification signal transmission unit 103 uses a TCP packet as the notification signal, the TCP data of the notification signal has an RTP sequence number “0x1234” indicating the data packet at the time when the channel change is completed. "0xBB0003401234".

At time t _4, the mute processing section 203 of the receiving apparatus 2, a sequence number transmitting apparatus 1 transmits, receives as a notification signal (step S6). Delay and time t _d of the time t ₅ from time t _1, at time T ₂ of the the time from the time t ₅ to time t ₆ and then the mute is canceled, the receiving apparatus 2 is muted.

At time _{t 6,} the mute processing section 203, notification signal received by the receive data packet shown at time _{t 4} (step S7). At time t _6, the mute processing section 203, and unmute the receiver at the same time as the audio signal of the data packet indicated by the notification signal, to reproduce the data packet after the data packet indicated by the notification signal (step S8). Receiving apparatus 2, at time T ₃ after the time t6, the audio of the broadcast wave after the channel change is being played by a delay time T _d.

  According to the distribution system according to the first embodiment of the present invention, from the time when the receiving apparatus 2 performs an operation of selecting a channel to the time of receiving a data packet after the channel change, the receiving apparatus 2. Since the sound is muted at, a sense of incongruity felt by the user when changing the channel can be reduced.

(Second Embodiment)
In the first embodiment, the case where the notification signal transmission unit 103 transmits the sequence number as the notification signal has been described, but a specific data pattern may be adopted as the notification signal. That is, in the distribution system according to the second embodiment of the present invention, the data at the time when the channel change is completed by the notification signal transmission unit 103 transmitting a specific data pattern as the notification signal to the reception device 2. Notify the packet. Since the configuration not described in the second embodiment is substantially the same as that of the first embodiment, the overlapping description is omitted.

  An example of the operation of the distribution system according to the second embodiment will be described with reference to FIG. 7 using the flowchart of FIG. The processing of step S1 to step S4 is the same as that of the first embodiment.

When a change of the frequency is started at time t ₂ shown in FIG. 7, the notification signal transmitter 103,
The RTP data packet converted by the packet transmission unit 102 is changed to an RTP data packet having a specific data pattern. The notification signal transmission unit 103 transmits an RTP data packet having a specific data pattern to the reception device 2 as a notification signal (step S5).

For example, if the size of each RTP data packet is 1440 bytes, the specific data pattern is different from normal audio data, for example, all the size of the specific data packet is set to “0xFF”. Between time t ₂ and time t _{3 when} the tuner unit 11 changes the channel, the notification signal transmission unit 103 transmits an RTP data packet having a specific data pattern to the reception device 2.

  For example, as illustrated in FIG. 8, the packet transmission unit 102 stores Lch audio data (Rch data data (Rch data data) in a RTP data packet when 16 bits of quantization bits and stereo linear PCM (Pulse Code Modulation) audio data are stored). 2 bytes) and Rch audio data (2 bytes) are sequentially stored for 1440 bytes. The notification signal transmission unit 103 continues to transmit 1440 bytes of the audio data as a specific data pattern (for example, all “0xFF”) to the reception device 2 while the tuner unit 11 changes the channel. . Since all of the audio data cannot normally be “0xFF”, the receiving apparatus 2 can determine that the transmitting apparatus 1 is changing the channel while the receiving apparatus 2 continues to receive the audio data of “0xFF”. Further, the receiving device 2 can determine that the channel change is completed when the received audio data changes to other than “0xFF”.

Next, at time t ₃ , when the tuner unit 11 completes the channel change, the notification signal transmission unit 103 ends the transmission of the notification signal, and the packet transmission unit 102 receives the audio data packet after the channel change. Send to.

Between the time t ₅ to time t _6, the mute processing section 203 of the receiving apparatus 2 continues to receive a notification signal transmitting apparatus 1 has transmitted (step S6).

At time t _6, the mute processing section 203 receives the data packet after the channel change is a data packet immediately after the notification signal (Step S7). At time t _6, the mute processing section 203, and unmute the receiver at the same time as the audio signal of the data packet after the channel change, to reproduce the data packet after the data packet after the channel change (step S8).

  As described above, the notification signal transmission unit 103 of the distribution system according to the second embodiment, when the channel change is completed by continuously transmitting data packets having a specific data pattern during the channel change. Can be notified.

  According to the distribution system according to the second embodiment of the present invention, from the time when the receiving apparatus 2 performs an operation of selecting a channel to the time when the data packet after the channel change is received is received by the receiving apparatus 2. Since the sound is muted at, a sense of incongruity felt by the user when changing the channel can be reduced.

(Third embodiment)
In the distribution apparatus according to the third embodiment of the present invention, the notification signal transmission unit 103 employs a data packet to which information on a channel being selected is added as a notification signal. This is different from the second embodiment. Other configurations that are not described in the third embodiment are substantially the same as those in the first embodiment, and thus redundant description is omitted.

  An example of the operation of the distribution system according to the third embodiment will be described using the flowchart of FIG. The processing of step S1 to step S4 is the same as that of the first embodiment.

  When the tuner unit 11 completes the channel change, the notification signal transmission unit 103 adds channel information, which is channel information after the change, to the RTP data packet converted by the packet transmission unit 102, and the channel information is added. The received data packet is transmitted to the receiving device 2 as a notification signal (step S5). The channel information may be added to the RTP extension header, for example, or may be added to the head of the data packet.

  An example in which channel information is added to the RTP header will be specifically described with reference to FIG. When the packet transmission unit 102 transmits audio data to the reception device 2 by RTP, the notification signal transmission unit 103 adds the channel information received by the tuner unit 11 to the RTP extension header. For example, when the tuner unit 11 receives FM 83.0 MHz, the notification signal transmission unit 103 describes “0xAAAA0002206C” in the RTP extension header. The receiving device 2 can acquire channel information by confirming the RTP extension header. The notification signal transmission unit 103 describes the same value as the value before the channel change in the frequency data of the RTP extension header during the channel change, and the value after the channel change is completed in the frequency data of the RTP extension header after the channel change is completed. Describe. Therefore, the receiving device 2 can determine that the channel change has been completed based on the channel information of the RTP extension header.

  On the other hand, an example in which channel information is added to the head of a data packet will be specifically described with reference to FIG. When seek information and channel information are stored in the first 4 bytes of the audio data, the notification signal transmission unit 103 stores “0x0001” as seek information when the tuner unit 11 is changing the channel, and the channel is being changed. If not, “0x0000” is stored. The channel information stores information on the frequency that the tuner unit is currently receiving. For example, when the tuner unit 11 receives FM 84.7 MHz, the notification signal transmission unit 103 stores “0x2116” in the channel information. In this way, the notification signal transmission unit 103 always adds channel information to the head of the audio data packet and transmits the audio data to the reception device 2, so that the reception device 2 can determine whether or not the channel is being changed. At the same time, the current channel information can be acquired.

  The mute processing unit 203 of the receiving device 2 receives the notification signal (step S6). The mute processing unit 203 receives the notification signal that is the data packet after the channel change (step S7), and simultaneously cancels the mute of the audio signal and reproduces the data packet after the data packet after the channel change (step S8). .

  As described above, the notification signal transmission unit 103 of the distribution system according to the third embodiment transmits the data packet in which the changed channel information is added to the RTP extension header to the reception device 2 as a notification signal. Thus, the data packet at the time when the channel change is completed can be notified.

  According to the distribution system according to the third embodiment of the present invention, the receiving device 2 extends from the time when the user performs an operation of selecting a channel to the time when the data packet after the channel change is received. Since the sound is muted at, a sense of incongruity felt by the user when changing the channel can be reduced.

(Other embodiments)
As described above, the first to third embodiments of the present invention have been described. However, it should not be understood that the description and drawings constituting a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments, examples and operational techniques will be apparent to those skilled in the art.

  For example, the notification signal transmission unit 103 changes the RTP extension header of the data packet whose channel is being changed to specific data, thereby transmitting the data packet whose channel is being changed to the receiving device 2 as a notification signal. May be. The specific data can be different from the normal RTP extension header, for example, all the RTP extension headers are set to “0xFF”. While the tuner unit 11 changes the channel, the notification signal transmission unit 103 transmits a data packet having an RTP extension packet of specific data to the reception device 2.

  When the tuner unit 11 completes the channel change, the notification signal transmission unit 103 ends the transmission of the notification signal, and the packet transmission unit 102 transmits the voice data packet after the channel change to the reception device 2. At this time, the RTP extension header of the data packet after the channel change is all “0x00”, which is normal data.

  The mute processing unit 203 receives the data packet after the channel change, which is the data packet immediately after the notification signal (step S7), and simultaneously cancels the mute of the audio signal that has been transmitted since the request signal was transmitted. The data packet after the data packet is reproduced (step S8).

  As described above, the notification signal transmission unit 103 can notify the data packet at the time when the channel change is completed by continuously transmitting the data packet having the RTP extension header of the specific data during the channel change. it can.

  In the above-described embodiment, the tuner unit 11 is a television tuner and the output unit 23 is a display device, so that a distribution system for streaming video signals to the receiving device 2 in real time can be provided. In this case, the output unit 23 may display a single black image as a mute or display an image of a specific pattern.

  Further, in the above-described embodiment, the distribution system includes the relay device 3 that relays communication between the transmission device 1 and the reception device 2, but the transmission device 1 and the reception device 2 are wireless LANs. You may make it communicate directly by P2P (Peer to Peer) not using a relay apparatus using an ad hoc mode or Bluetooth (trademark).

  In the above-described embodiment, the functions of the transmission device 1 and the reception device 2 may be realized using a program for causing a computer to realize the functions. That is, a program for causing a computer to realize each function of the distribution system according to the embodiment of the present invention is included. The program may be read from a recording medium and loaded into a computer, or may be transmitted via a network and loaded into a computer.

  As described above, the present invention naturally includes various embodiments not described herein. Therefore, the technical scope of the present invention is defined only by the invention specifying matters according to the scope of claims reasonable from the above description.

DESCRIPTION OF SYMBOLS 1 ... Transmission apparatus 2 ... Reception apparatus 3 ... Relay apparatus 10 ... Processing part 11 ... Tuner part 12 ... Signal processing part 13 ... Communication part 20 ... Processing part 21 ... Communication part 22 ... Input part 23 ... Output part 101 ... Tuner control part DESCRIPTION OF SYMBOLS 102 ... Packet transmission part 103 ... Notification signal transmission part 104 ... Transmission buffer part 201 ... Request transmission part 202 ... Reproduction processing part 203 ... Mute processing part 204 ... Reception buffer part

Claims (8)

A tuner unit that outputs an audio signal by demodulating a broadcast wave;
A tuner control unit that changes a channel of a broadcast wave to be demodulated according to a request signal transmitted from a receiving device that reproduces an audio signal;
A packet transmission unit that converts the audio signal output from the tuner unit into a time-series data packet, and transmits the converted data packet to the reception device; and
A transmission device comprising a notification signal transmission unit for generating a notification signal indicating a data packet at the time when the channel change of the tuner control unit is completed, and transmitting the generated notification signal to the reception device;
A request transmitter for transmitting a request signal for requesting a change of a channel of a broadcast wave to be demodulated by the transmitter to the transmitter; and
The audio signal is acquired from the data packet transmitted by the transmission device and reproduced, the request transmission unit transmits the request signal, and the audio signal to be reproduced is muted at the same time. The mute is performed based on the notification signal transmitted by the transmission device. A distribution system comprising: a reception device including a reproduction processing unit that releases   The distribution system according to claim 1, wherein the notification signal transmission unit transmits a sequence number indicating a data packet at the time when the channel change is completed to the reception device as a notification signal. The packet transmission unit converts the audio signal output from the tuner unit into an RTP data packet,
The distribution system according to claim 1, wherein the notification signal transmission unit transmits an RTP data packet having a specific data pattern as the notification signal to the reception device. The packet transmission unit converts the audio signal output from the tuner unit into a specific data packet,
The notification signal transmission unit adds the changed channel information to the specific data packet converted by the packet transmission unit, and transmits the data packet with the channel information added to the reception device as a notification signal. The distribution system according to claim 1.   The distribution system according to claim 4, wherein the notification signal transmission unit adds the changed channel information to an extension header of a specific data packet converted by the packet transmission unit. A tuner unit that outputs an audio signal by demodulating a broadcast wave;
A tuner control unit that changes a channel of a broadcast wave to be demodulated according to a request signal transmitted from a receiving device that reproduces an audio signal;
A packet transmission unit that converts the audio signal output from the tuner unit into a time-series data packet, and transmits the converted data packet to the reception device;
A notification signal transmission unit that generates a notification signal indicating a data packet at the time when the channel change of the tuner control unit is completed, and transmits the generated notification signal to the reception device;
A transmission device comprising: An audio signal is output by demodulating the broadcast wave, and a request signal for requesting a change of the channel of the broadcast wave demodulated by the transmission device is transmitted to the transmission device that transmits the data packet converted from the audio signal to the reception device. A request transmitter;
The audio signal is acquired from the data packet transmitted by the transmission device and reproduced, the request transmission unit transmits the request signal, and the audio signal to be reproduced is muted at the same time. The mute is performed based on the notification signal transmitted by the transmission device. A playback processing unit for canceling
A receiving apparatus comprising: A transmitter that outputs a sound signal by demodulating a broadcast wave, and changes a channel of the broadcast wave to be demodulated according to a request signal transmitted from a receiver that reproduces the sound signal;
The transmitting device converts the audio signal output in the step of changing the channel into a time-series data packet, and transmits the converted data packet to the receiving device;
The transmitter generates a notification signal indicating a data packet at the time when the channel change is completed, and transmits the generated notification signal to the receiver;
The receiving device transmitting a request signal for requesting a change of a broadcast wave channel demodulated by the transmitting device to the transmitting device;
The receiving device acquires and reproduces an audio signal from the data packet transmitted by the transmitting device; and
The receiver mutes an audio signal that is reproduced simultaneously with the transmission of the request signal;
The receiving device releasing the mute based on the notification signal transmitted by the transmitting device;
A channel changing method characterized by comprising:

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