JP2006163178A - Encoding device and decoding device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To automatically map audio channels of respective pieces of audio mode information. <P>SOLUTION: A switch part 12 maps an inputted audio signal based upon audio channel mapping information showing how each audio channel of audio mode information is assigned to an input/output channel and an audio encoding part 13 inputs the audio signal mapped by the switch part 12, encodes it with the audio mode information to output audio PES data 109, and adds the audio channel mapping information to the same transmission unit with the audio PES data 109. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an encoding apparatus that transmits audio signals using a plurality of audio input / output channels, and a decoding apparatus that receives the audio signals.

  For example, in a video / audio transmission system using MPEG (Moving Picture Experts Group) -2 implemented by a broadcasting station or a transmission company, audio channel mapping of which audio channel is assigned to a plurality of audio input / output channels Can be arbitrarily changed by the user. Conventionally, voice mode information and its voice channel mapping are determined in advance by the encoding device on the sending side and the decoding device on the receiving side, and set by the encoding device and the decoding device according to the agreement. Is being transmitted.

  As a conventional technique, for example, in Patent Document 1, a content recording apparatus that encodes content by adding audio mode information representing the type of audio data such as monaural, stereo, and dual audio to the content, and the content are added to the content. In this content recording device and content playback device, there is disclosed a content playback device that extracts the current audio mode information and automatically sets the audio mode based on the extracted audio mode information and plays back the content. It is necessary to set the voice channel mapping for each voice mode information.

JP 2004-2448056 A (paragraph numbers 0011, 0012, 0023, 0024)

  Since the conventional encoding device and decoding device are configured as described above, when the audio signal is normally received, the mapping of each audio mode information and the audio channel is set in the encoding device and the decoding device, respectively. When there is a difference in the mapping of the voice channel of each voice mode information, there is a problem that a normal voice signal is lost.

  The present invention has been made to solve the above-described problems, and an object thereof is to obtain an encoding device and a decoding device capable of automatically performing audio channel mapping of each audio mode information.

  An encoding apparatus according to the present invention includes a switch unit that maps an input audio signal based on audio channel mapping information indicating how to allocate each audio channel of audio mode information to an input / output channel, and the switch unit. A voice encoding unit that inputs the mapped voice signal, encodes the voice mode information to output voice PES data, and adds the voice channel mapping information to the same transmission unit as the voice PES data; Is.

  According to the present invention, it is possible to obtain an effect that the decoding apparatus can automatically perform audio channel mapping of each audio mode information corresponding to the encoding apparatus.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing the configuration of an encoding device and a decoding device according to Embodiment 1 of the present invention. 1, an encoding device 1 is encoded with a video encoding unit 11 that encodes a video signal, a switch unit 12 that maps each audio channel, and an audio encoding unit 13 that encodes an audio signal. And a coding control unit 15 for controlling the video coding unit 11, the switch unit 12, the audio coding unit 13, and the multiplexing unit 14.

  In FIG. 1, the decoding device 2 includes a separation unit 21 that separates an encoded video signal and an audio signal, a video decoding unit 22 that decodes the encoded video signal, and an encoded audio signal decoding. And a decoding control unit 25 that controls the separation unit 21, the video decoding unit 22, the audio decoding unit 23, and the switch unit 24.

Next, the operation will be described.
First, the operation of the encoding device 1 will be described.
The video encoding unit 11 encodes the input video signal based on the control signal 101 from the encoding control unit 15 and outputs video PES (Packetized Elementary Stream) data 102 to the multiplexing unit 14.

  Based on the control signal 103 from the encoding control unit 15, the switch unit 12 receives the input audio signal 1 / 2ch, audio signal 3 / 4ch, audio signal 5 / 6ch, audio signal 7 / 8ch, audio signal 104, audio signal The signal 105, the audio signal 106, and the audio signal 107 are mapped and output to the audio encoding unit 13.

  Here, the control signal 103 from the encoding control unit 15 includes each audio channel (eg, MPEG-2 AAC 5.1ch) of audio mode information such as an encoding method (eg, MPEG-2 AAC) or PCM (eg, SMPTE 302M). L, R, C, LFE, LS, and RS, and in the case of SMPTE 302M, L and R) are included in the voice channel mapping information indicating how to allocate the input and output channels. That is, the switch unit 12 selects the input audio signal 1 / 2ch, audio signal 3 / 4ch, audio signal 5 / 6ch, audio signal 7 / 8ch based on the control signal 103 including the audio channel mapping information. Mapping is performed by rearranging the audio signal 104, the audio signal 105, the audio signal 106, and the audio signal 107 so that they can be input to an encoder (not shown) corresponding to each audio mode information in the audio encoding unit 13. To the speech encoding unit 13.

  FIG. 2 is a diagram illustrating an example of audio channel mapping information. For example, in the example of FIG. 2A, MPEG-2 AAC 5.1 ch L, R, C, LFE, LS, RS audio channels are allocated, and SMPTE 302M L and R audio channels are allocated to input and output channels CH7 to CH8.

  Based on the control signal 108 from the encoding control unit 15, the audio encoding unit 13 adds the audio channel mapping information in the private data area of the PES header, which is the same transmission unit as the audio PES data 109, and the audio signal 104. The audio signal 104, the audio signal 105, the audio signal 106, and the audio signal 107 are encoded by the audio signal 105, the audio signal 106, and the audio signal 107 on the basis of the encoding method or PCM specified by each audio mode information. The PES data 109 is output to the multiplexing unit 14.

  FIG. 3 shows the data structure of the audio PES data 109 output from the audio encoding unit 13. In FIG. 3, audio PES data 109 is composed of a PES header 301, an ES (Elementary Stream) header 302, and audio ES data 303. Audio channel mapping information is added as ch PES data 304 in the private data area of the PES header 301.

  The multiplexing unit 14 multiplexes the video PES data 102 and the audio PES data 109 based on the control signal 110 from the encoding control unit 15 and outputs TS (Transport Stream) data 111 to the transmission path.

Next, the operation of the decoding device 2 will be described.
The separation unit 21 separates the video PES data 202 and the audio PES data 203 from the TS data 111 transmitted from the encoding device 1 based on the control signal 201 from the decoding control unit 25, and uses the separated video PES data 202. The audio PES data 203 is output to the video decoding unit 22 and the separated audio PES data 203 is output to the audio decoding unit 23. The video decoding unit 22 decodes the video PES data 202 based on the control signal 204 from the decoding control unit 25 and outputs a video signal.

  The audio decoding unit 23 separates the PES header 301 and the ES header 302 from the separated audio PES data 203 based on the control signal 205 from the decoding control unit 25, and the audio PES as ch PES data 304 in the PES header 301. The audio channel mapping information added to the same transmission unit as the data 203 is extracted and notified to the decoding control unit 25 by the signal 206, and the encoding method indicated by the audio mode information included in the extracted audio channel mapping information The audio ES data 303 in the audio PES data 203 is decoded based on the PCM and the audio signal 207, the audio signal 208, the audio signal 209, and the audio signal 210 are output.

  Based on the control signal 211 including the audio channel mapping information from the decoding control unit 25, the switch unit 24 converts the input audio signal 207, audio signal 208, audio signal 209, and audio signal 210 into the audio signal 1 / 2ch, The audio signal 3 / 4ch, the audio signal 5 / 6ch, and the audio signal 7 / 8ch are mapped and output.

  As described above, according to the first embodiment, the encoding device 1 maps and encodes the audio signal based on the audio channel mapping information, and the audio channel mapping information is transmitted in the same transmission unit as the audio PES data 109. The decoding apparatus 2 extracts the audio channel mapping information added in the private data area of the PES header 301 which is the same transmission unit as the audio PES data 203. At the same time, the decoding apparatus 2 automatically maps the audio channel of each audio mode information corresponding to the encoding apparatus 1 by decoding and outputting the audio signal based on the extracted audio channel mapping information. The effect that it can be performed automatically is acquired.

Embodiment 2. FIG.
4 is a block diagram showing the configuration of an encoding device and a decoding device according to Embodiment 2 of the present invention. In FIG. 4, compared to FIG. 1 of the first embodiment, in the encoding apparatus 1, PSI (Program Specific Information) data 121 is output from the encoding control unit 15 to the multiplexing unit 14. In the decoding device 2, the PSI data 221 is output from the separation unit 21 to the decoding control unit 25, and the signal 206 of FIG. 1 output from the speech decoding unit 23 to the decoding control unit 25 is deleted. The other structure is the same as FIG.

Next, the operation will be described.
In the first embodiment, the audio channel mapping information is added to the private data area of the PES header 301, which is the same transmission unit as the audio PES data 109, and transmitted from the encoding device 1 to the decoding device 2. In the second embodiment, voice channel mapping information is transmitted using PSI data 121 which is a transmission unit different from voice PES data 109. PSI data is generally used when section data defined by MPEG2 is transmitted. In the second embodiment, audio channel mapping information is transmitted using PSI data 121.

  FIG. 5 is a diagram showing a data structure of the audio PES data 109 output from the audio encoding unit 13 and the PSI data 121 output from the encoding control unit 15. As described above, the audio channel mapping information 401 is included in the PSI data 121 which is a transmission unit different from the audio data.

  In the encoding apparatus 1, the audio encoding unit 13 is instructed by each audio mode information for each of the audio signal 104, the audio signal 105, the audio signal 106, and the audio signal 107 based on the control signal 108 from the encoding control unit 15. The audio signal 104, the audio signal 105, the audio signal 106, and the audio signal 107 are encoded based on the encoding method and PCM, and the audio PES data 109 is output to the multiplexing unit 14.

  The encoding control unit 15 outputs the audio channel mapping information to the multiplexing unit 14 using the PSI data 121, and the multiplexing unit 14 based on the control signal 110 from the encoding control unit 15, the video PES data 102, the audio The PES data 109 and the PSI data 121 are multiplexed and the TS data 111 is output to the transmission path. Other processing of the encoding apparatus 1 is the same as that of the first embodiment.

  In the decoding device 2, the separation unit 21 is based on the control signal 201 from the decoding control unit 25, the video PES data 202, the audio PES data 203, the PSI data 221 from the TS data 111 transmitted from the encoding device 1. , The separated video PES data 202 is output to the video decoding unit 22, the separated audio PES data 203 is output to the audio decoding unit 23, and the separated PSI data 221 is output to the decoding control unit 25.

  The audio decoding unit 23 separates the PES header 301 and the ES header 302 from the separated audio PES data 203 based on the control signal 205 including the audio channel mapping information from the decoding control unit 25, and generates the audio channel mapping information. The audio ES data 303 in the audio PES data 203 is decoded based on the encoding method and PCM specified by the included audio mode information, and an audio signal 207, an audio signal 208, an audio signal 209, and an audio signal 210 are output. . Other processes of the decoding device 2 are the same as those in the first embodiment.

  As described above, according to the second embodiment, encoding apparatus 1 maps and encodes an audio signal based on audio channel mapping information, and transmits the audio channel mapping information to a transmission unit different from audio PES data 109. The PSI data 121 is used to multiplex and transmit the video PES data 102 and the audio PES data 109, and the decoding device 2 uses the PSI data 221 which is a transmission unit different from the multiplexed audio PES data 203. In addition to extracting the channel mapping information, the decoding apparatus 2 decodes and maps the audio signal based on the extracted audio channel mapping information, and outputs the audio signal corresponding to the encoding apparatus 1. An effect is obtained that channel mapping can be performed automatically.

It is a block diagram which shows the structure of the encoding apparatus and decoding apparatus by Embodiment 1 of this invention. It is a figure which shows the example of the audio | voice channel mapping information used with the encoding apparatus and decoding apparatus by Embodiment 1 of this invention. It is a figure which shows the data structure of the audio | voice PES data output from the audio | voice encoding part of the encoding apparatus by Embodiment 1 of this invention. It is a block diagram which shows the structure of the encoding apparatus and decoding apparatus by Embodiment 2 of this invention. It is a figure which shows the data structure of the audio | voice PES data output from the audio | voice encoding part of the encoding apparatus by Embodiment 2 of this invention, and the PSI data output from an encoding control part.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Encoding apparatus, 2 Decoding apparatus, 11 Video encoding part, 12 Switch part, 13 Voice encoding part, 14 Multiplexing part, 15 Encoding control part, 21 Separation part, 22 Video decoding part, 23 Voice decoding part, 24 switch unit, 25 decoding control unit, 101 control signal, 102 video PES data, 103 control signal, 104 audio signal, 105 audio signal, 106 audio signal, 107 audio signal, 108 control signal, 109 audio PES data, 110 control signal , 111 TS data, 121 PSI data, 201 control signal, 202 video PES data, 203 audio PES data, 204 control signal, 205 control signal, 206 signal, 207 audio signal, 208 audio signal, 209 audio signal, 210 audio signal, 211 control signal, 221 PSI data, 301 P S header 302 ES header, 303 audio ES data, 304 ch PES data, 401 audio channel mapping information.

Claims (8)

A switch unit for mapping an input audio signal based on audio channel mapping information indicating how to assign each audio channel of the audio mode information to an input / output channel;
An audio signal mapped by the switch unit is input, encoded with the audio mode information, and output as audio PES (Packetized Elementary Stream) data, and the audio channel mapping information is added to the same transmission unit as the audio PES data. And a speech encoding unit.   The encoding apparatus according to claim 1, wherein the audio encoding unit adds the audio channel mapping information in a private data area of a PES header which is the same transmission unit as the audio PES data. A switch unit for mapping an input audio signal based on audio channel mapping information indicating how to assign each audio channel of the audio mode information to an input / output channel;
A speech encoding unit that inputs a speech signal mapped by the switch unit, encodes the speech mode information, and outputs speech PES data;
And a multiplexing unit that multiplexes the audio PES data output by the audio encoding unit and multiplexes the audio channel mapping information using data of a transmission unit different from the audio PES data.   4. The encoding apparatus according to claim 3, wherein the multiplexing unit multiplexes the audio channel mapping information using PSI (Program Specific Information) data which is a transmission unit different from the audio PES data. Extracting from the audio PES data audio channel mapping information added to the same transmission unit as the audio PES data and indicating how each audio channel of the audio mode information is assigned to the input / output channel, and the audio mode information A voice decoding unit that decodes the voice PES data and outputs a voice signal;
A decoding apparatus comprising: a switch unit that maps and outputs the audio signal output from the audio decoding unit according to the audio channel mapping information.   6. The decoding apparatus according to claim 5, wherein the voice decoding unit extracts the voice channel mapping information added in the private data area of the PES header which is the same transmission unit as the voice PES data. How to assign each audio channel of audio mode information multiplexed using audio PES data and transmission unit data different from the audio PES data from TS (Transport Stream) data to be transmitted to input / output channels A separation unit for separating voice channel mapping information indicating
A voice decoding unit that separates voice ES data from the separated voice PES data, decodes the voice ES data according to the voice mode information, and outputs a voice signal;
A decoding apparatus comprising: a switch unit that maps and outputs the audio signal output from the audio decoding unit according to the audio channel mapping information.   8. The decoding apparatus according to claim 7, wherein the separation unit separates the multiplexed audio channel mapping information using PSI data which is a transmission unit different from the audio PES data.

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