APPARATUS AND METHOD FOR GENERATING AUDIO DATA, AND APPARATUS AND METHOD FOR PLAYING AUDIO DATA

BACKGROUND

1. Field of the Invention

The present invention relates to a method for generating audio data and a method for playing audio data.

2. Description of the Related Art

In recent times, various audio technologies related to an audio system as well as a next-generation television (TV) system such as a three-dimensional (3D) TV or an ultra high definition (UHD) TV are undergoing developments. Such technologies may refer to technology of a multichannel audio system, using a greater number of loud speakers than a 5.1 channel scheme defined in International Telecommunication Union Radio communication Sector (ITU-R) recommend BS.775 standard.

However, an issue may arise in the recently disclosed multichannel audio system in that a multichannel audio signal may not be played properly unless a predetermined audio device is used because the multichannel audio system represents a multichannel audio signal, exclusively.

Accordingly, defining a manner of representing or describing multichannel audio representing various multichannel audio signals and applicable to a next generation audio system may be required.

SUMMARY

According to an aspect of the present invention, there is provided an apparatus for playing audio data, the apparatus including a descriptor extractor to extract a descriptor associated with a multi channel audio signal from a bitstream generated by an apparatus for generating audio data, and a player to play the multi channel audio signal, based on the extracted descriptor, wherein the descriptor includes information associated with an audio signal included in the multi channel audio signal.

The descriptor may include at least one of a sound essence descriptor, a sound-field configuration descriptor, and a sound channel descriptor.

The sound channel descriptor may include at least one of a channel label descriptor and a channel position descriptor.

The channel label descriptor may include information associated with at least one of an allocation number of an audio signal, an audio channel label, and a type of a channel component object.

The audio channel label may include at least one of a horizontal channel label, a vertical channel label, a distance channel label, and an object channel label, wherein the type of the channel component object includes at least one of a nominal frequency range of a channel component, a type of channel component directivity, and moving information associated with a moving object.

The channel position descriptor may include information associated with at least one of an allocation number of an audio signal, spatial position data, distance position data, a tolerance of a spatial position, a tolerance of a distance position, and a type of a channel component object.

The spatial position data may include information associated with at least one of an azimuth angle and an elevation angle representing a position in an audio signal playing space.

The information associated with a tolerance of the spatial position may include information associated with at least one of a horizontal tolerance, a vertical tolerance, and sound image localization based on a play time.

The information associated with the tolerance of the distance position may include at least one of information associated with a tolerance of the spatial position may include information associated with at least one of a horizontal tolerance, a vertical tolerance, and sound image localization based on a play time.

The type of the channel component object may include at least one of a nominal frequency range of a channel component and a type of channel component directivity.

The apparatus for playing the audio data may further include a displayer to display, on a screen, information included in the descriptor.

According to another aspect of the present invention, there is provided an apparatus for generating audio data, the apparatus including a descriptor generator to generate a descriptor for displaying a multi channel audio signal, and a bitstream generator to generate the descriptor and the multi channel audio signal in a form of a bitstream.

The bitstream generator may encode and multiplex the descriptor and the multichannel audio signal in order to generate a bitstream.

The apparatus for generating the audio signal may further include a transmitter to transmit the generated bitstream to an apparatus for playing audio signal.

According to still another aspect of the present invention, there is provided a method for playing audio data, the method including extracting a descriptor for displaying a multi channel audio signal from a bitstream generated by an apparatus for generating audio data, and playing the multi channel audio signal, based on the extracted descriptor, wherein the descriptor comprises information associated with an audio signal included in the multi channel audio signal.

According to yet another aspect of the present invention, there is provided a method for generating audio data, the method including generating a descriptor for displaying a multi channel audio signal, and generating the descriptor and the multi channel audio signal in a form of a bitstream, wherein the descriptor comprises information associated with an audio signal included in the multi channel audio signal.

BRIEF DESCRIPTION OF THE DRAWINGS

These and/or other aspects, features, and advantages of the invention will become apparent and more readily appreciated from the following description of exemplary embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a diagram illustrating an operation of playing generated audio data according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating a detailed configuration of an apparatus for generating audio data according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating a detailed configuration of an apparatus for playing audio data according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating an example of generating audio data according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating an example of playing audio data according to an embodiment of the present invention;

FIG. 6 is a diagram illustrating an operation of a method for generating audio data according to an embodiment of the present invention; and

FIG. 7 is a diagram illustrating an operation of a method for playing audio data according to an embodiment of the present invention.

DETAILED DESCRIPTION

Reference will now be made in detail to exemplary embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. Exemplary embodiments are described below to explain the present invention by referring to the figures.

FIG. 1 is a diagram illustrating an operation of playing generated audio data according to an embodiment of the present invention.

Referring to FIG. 1, an apparatus 110 for generating audio data may generate audio data including a multichannel audio signal. The multichannel audio signal may include a channel-based audio signal and an object-based audio signal. For example, the multichannel audio signal may represent multichannel sound content, such as a 10.2 channel, a 22.2 channel, and the like. The apparatus 110 for generating the audio data may generate audio data and metadata necessary for playing the audio data in a form of a bitstream. The metadata may include a descriptor for representing a multichannel audio signal. The descriptor may include information associated with a position at which an audio signal included in the multichannel audio signal is played, and the like. The descriptor may include information indicating an audio channel and a position at which the audio channel is played, and the like. The apparatus 110 for generating the audio data may transmit the generated bitstream to an apparatus 120 for playing audio data.

The apparatus 120 for playing the audio data may extract the multichannel audio signal and the metadata from the bitstream. The apparatus 120 for playing the audio data may play the multichannel audio signal, based on the descriptor included in the metadata. For example, the apparatus 120 for playing the audio data may render the multichannel audio signal, based on play information included in the descriptor. The apparatus 120 for playing the audio data may mix the multichannel audio signal, based on play conditions of the apparatus 120 for playing the audio data, and play the mixed multichannel audio signal.

FIG. 2 is a diagram illustrating a detailed configuration of an apparatus 210 for generating audio data according to an embodiment of the present invention.

Referring to FIG. 2, the apparatus 210 for generating the audio data may include a descriptor generator 220 and a bitstream generator 230. The apparatus 210 for generating the audio data may further include a transmitter 240.

The descriptor generator 220 may generate a descriptor for displaying a multichannel audio signal. The descriptor may include information associated with a position at which an audio signal included in the multichannel audio signal is played, and the like. The generated descriptor may be stored in a header of a multichannel audio format signal, using metadata, or stored in a plurality of headers of a plurality of audio channels configuring the multichannel audio signal. The metadata may be divided into a plurality of types based on utility, and a basic structure may be defined to be applicable to configuring and exchanging multichannel sound content. For example, a basic structure descriptor may be used for producing and exchanging the multichannel sound content.

Hereinafter, the basic structure of the descriptor according to the present exemplary embodiment will be discussed.

Terms used in the descriptor may be defined in Table 1.

TABLE 1

Terms
Description

Sound Channel
Configured by plurality of sound channel

positions (directions) to be played

Includes play frequency level characteristic

and space-oriented characteristic (sound

channel component object)

Includes object-based audio signal

Type of Sound
Represents plurality of sound channel signal

Channel
components (play frequency level characteristic,

Component Object
space-oriented characteristic)

Sound-field
Represents channel arrangement required for

configuration
reproducing single sound space

Sound-field
Represents sound space established by sound

field configuration

Sound Essence
Represents sound of TV/radio program

Sound essence may refer to information associated with a representation related to a program, a representation or name related to a sound-field, and the like. The sound-field may be represented by a sound-field configuration having a hierarchical configuration. The sound-field configuration may be configured by a plurality of sound channels. The plurality of sound channels may be described by at least one representation from among a channel label and a channel position. The descriptor generator 220 may select a necessary descriptor, based on various scenarios in which multichannel sound content is exchanged.

The descriptor may include at least one of a sound essence descriptor, a sound-field configuration descriptor, and a sound channel descriptor.

The sound essence descriptor may include information associated with at least one of a program name, a type of sound essence, a name of a sound-field configuration, and a loudness value.

A configuration of the sound essence descriptor may be represented in Table 2.

TABLE 2

Name of

Descriptor
Subject of Description
Example

Program name
Program title
Programme Title

Type of Sound essence
Name of Type and Content
Complete mix

(Sound-field)
of Sound essence

Name of Sound-field
Name of defined
22.2ch, 10.2ch, etc.

configuration
multichannel sound

arrangement or configuration

Loudness value
Loudness value

The sound-field configuration descriptor may include information associated with at least one of a name of a sound-field configuration, a number of audio channels, a multichannel sound arrangement description, a list of channel allocations, and a down-mixing coefficient. The sound-field configuration descriptor may describe multichannel arrangement data.

The configuration of the sound-field configuration descriptor according to the present exemplary embodiment may be represented in Table 3.

TABLE 3

Name of

Descriptor
Subject of Description
Example

Name of Sound-field
Name of defined
22.2ch, 10.2ch, etc.

configuration
multichannel sound

arrangement

The number of
The total number of
24 channels, 12 channels

channels
channel

Multichannel sound
Numbers of horizontal
middle: 10, front: 5, side: 2, back: 3,

arrangement
and/or vertical channels
top: 9, front: 3, side: 3, back: 3,

description

bottom: 3, front: 3, side: 0, back: 0,

LFE: 2

List of channel
Mapping of channel
1: Mid_L, 2: Mid_R, 3: Mid_C, 4: LFE 5:

allocation
allocation
Mid_LS, 6: Mid_RS,

Down-mixing
Coefficients in order to

coefficient
down mix to conventional

Sound-field (5.1ch, 2ch or

1ch)

The sound channel descriptor may include at least one of a channel label descriptor and a channel position descriptor.

A configuration of the sound channel descriptor according to the present exemplary embodiment may be represented in Table 4.

TABLE 4

Name of Descriptor
Subject of Description
Example

Indicator of Sound
Indicator of Channel
11: Channel label data

Channel descriptor
label data and Channel
[On]/Channel position

position data
data [On]

The channel label descriptor may describe channel label data. The channel label descriptor may include information associated with at least one of an allocation number of an audio signal, an audio channel label, and a type of a channel component object.

The audio channel label may include at least one of a horizontal channel label, a vertical channel label, a distance channel label, and an object channel label.

The type of the channel component object may include at least one of a nominal frequency range of a channel component, a type of channel component directivity, and moving information of a moving object.

A configuration of the channel label descriptor according to the present exemplary embodiment may be represented in Table 5.

TABLE 5

Name of Descriptor
Subject of Description
Example

Allocation number
Allocation number
1: first channel, 2: second channel, . . .

Channel label
Horizontal Channel label
C: Center of screen, L: Left side of

(A label to indicate the

screen, Lc: Inner side on the left of the

intended channel for

screen, Lw: Outer side on the left of

sound reproduction)

screen

Vertical Channel label
Mid: Middle layer, Tp: Top layer (above

the listener's ear height), Bt: Bottom layer

(under the listener's ear height)

Distance Channel label
Near, Far

Object Channel label
Vocal, Piano, Drum, etc

Type (Characteristics)
Nominal frequency Range
Full: general channel, LFE: Low

of channel component

frequency effect channel

object

(Include channel label or other?)

Type of channel
/Direct/Diffuse/Surround

component directivity
(Include channel label or other?)

Moving Information
Information for moving objects: (Time,

position) information

The channel position descriptor may describe channel position data. The channel position descriptor may include information associated with at least one of an allocation number of an audio signal, spatial position data, distance position data, a tolerance of a spatial position, a tolerance of a distance position, and a type of a channel component object.

The spatial position data may include information associated with at least one of an azimuth angle and an elevation angle indicating a position at which an audio signal is played.

The distance position data may represent a distance from a center of an audio signal playing space to a position at which an audio signal is played in the audio signal playing space.

The information associated with the tolerance of spatial position may include information associated with at least one of a horizontal tolerance, a vertical tolerance, and sound image localization based on a play time.

The information associated with the tolerance of distance position may include information associated with at least one of a distance from a center of an audio signal playing space to a position at which an audio signal is played in the audio signal playing space and moving information of a moving object.

The type of the channel component object may include at least one of a nominal frequency range and a type of channel component directivity.

A configuration of the channel position descriptor according to the present exemplary embodiment may be represented in Table 6.

TABLE 6

Name of Descriptor
Subject of Description
Example

Allocation number
Allocation number
1; first channel

Spatial position data
Azimuth angle
000: center of screen, 060: 60-degrees)

Elevation angle
000: position of listener's ear height, 060:

60-degrees)

Distance position data
distance
3: 3 meter

Tolerance of Spatial
horizontal tolerance
10: ±10 degrees, 15: ±15 degrees

position
vertical tolerance
10: ±10 degrees, 15: ±15 degrees

Moving Information of
Information for moving objects: especially

time
Time information

Tolerance of Distance
distance
3: 3 meter

position
Moving Information of
Information for moving objects: especially

position
Position information

Type (Characteristics)
Nominal frequency Range
Full: general channel, LFE: Low

of channel component

frequency effect channel

object
Type of channel
/Direct/Diffuse/Surround

component directivity

The following is an example of a configuration of a descriptor for describing a multichannel audio signal in a 22.2 channel.

Embodiment 1

(A) Sound Essence descriptors

Program name
sample 22.2ch

Type of Sound essence
complete mix

(Sound-field)

Name of Sound-field
22.2ch

configuration

(channel arrangement index)

Loudness value
−24.0 LKFS

(B) Sound-field configuration descriptors

Name of Sound-field
22.2ch

configuration

The number of channels
24

Others*
Down-mixing
Null

coefficient

(C) Sound Channel descriptors

Indicator of Sound Channel descriptor
On/On

Channel
Spatial

Tolerance level
Tolerance

Allocation
Channel
component
position
Distance
of Spatial
level of

number
label
type
data
data
position
Distance

1
FL
Full
(310, 0)
Null
(10, 5)
Null

2
FR
Full
(50, 0)
Null
(10, 5)
Null

3
FC
Full
(0, 0)
Null
(5, 5)
Null

4
L
LFE
(300, −30)
Null
(30, 10)
Null

5
BL
Full
(225, 0)
Null
(15, 15)
Null

6
BR
Full
(135, 0)
Null
(15, 15)
Null

7
FLc
Full
(335, 0)
Null
(10, 5)
Null

8
FRc
Full
(25, 0)
Null
(10, 5)
Null

9
BC
Full
(180, 0)
Null
(10, 15)
Null

10
R
LFE
(60, −30)
Null
(30, 10)
Null

11
SiL
Full
(270, 0)
Null
(10, 5)
Null

12
SiR
Full
(90, 0)
Null
(10, 5)
Null

13
TpFL
Full
(310, 40)
Null
(10, 10)
Null

14
TpFR
Full
(50, 40)
Null
(10, 10)
Null

15
TpFC
Full
(0, 40)
Null
(5, 10)
Null

16
TpC
Full
(Null, 90)
Null
(10, 15)
Null

17
TpBL
Full
(225, 40)
Null
(15, 10)
Null

18
TpBR
Full
(135, 40)
Null
(15, 10)
Null

19
TpSiL
Full
(270, 40)
Null
(10, 10)
Null

20
TpSiR
Full
(90, 40)
Null
(10, 10)
Null

21
TpBC
Full
(180, 40)
Null
(10, 10)
Null

22
BtFC
Full
(0, −30)
Null
(5, 10)
Null

23
BtFL
Full
(310, −30)
Null
(10, 10)
Null

24
BtFR
Full
(50, −30)
Null
(10, 10)
Null

Embodiment 2

(A) Sound Essence descriptors

Program name
sample 22.2ch

Type of Sound essence
complete mix

(Sound-field)

Name of Sound-field
22.2ch

configuration

(channel arrangement index)

Loudness value
−24.0 LKFS

(B) Sound-field configuration descriptors

Name of Sound-field
22.2ch

configuration

The number of channels
24

multichannel sound arrangement
middle: 10, front: 5, side: 2, back: 3,

description
top: 9, front: 3, side: 3, back: 3,

bottom: 3, front: 3, side: 0, back: 0,

LFE: 2

List of channel allocation
01: FL, 02: FR, 03: FC, 04: L_LFE, 05: BL, 06:

BR, 07: FLc, 08: FRc,

09: BC, 10: R_LFE, 11: SiL, 12: SiR, 13:

TpFL, 14: TpFR, 15: TpFC, 16: TpC,

17: TpBL, 18: TpBR, 19: TpSiL, 20: TpSiR,

21: TpBC, 22: BtFC, 23: BtFL, 24: BtFR

Others*
Down-mixing
Null

coefficient

(C) Sound Channel descriptors

Indicator of Sound Channel descriptor
On/On

Channel
Spatial

Tolerance level
Tolerance

Allocation
Channel
component
position
Distance
of Spatial
level of

number
label
type
data
data
position
Distance

1
FL
Full
(310, 0)
Null
(10, 5)
Null

2
FR
Full
(50, 0)
Null
(10, 5)
Null

3
FC
Full
(0, 0)
Null
(5, 5)
Null

4
L
LFE
(300, −30)
Null
(30, 10)
Null

5
BL
Full
(225, 0)
Null
(15, 15)
Null

6
BR
Full
(135, 0)
Null
(15, 15)
Null

7
FLc
Full
(335, 0)
Null
(10, 5)
Null

8
FRc
Full
(25, 0)
Null
(10, 5)
Null

9
BC
Full
(180, 0)
Null
(10, 15)
Null

10
R
LFE
(60, −30)
Null
(30, 10)
Null

11
SiL
Full
(270, 0)
Null
(10, 5)
Null

12
SiR
Full
(90, 0)
Null
(10, 5)
Null

13
TpFL
Full
(310, 40)
Null
(10, 10)
Null

14
TpFR
Full
(50, 40)
Null
(10, 10)
Null

15
TpFC
Full
(0, 40)
Null
(5, 10)
Null

16
TpC
Full
(Null, 90)
Null
(10, 15)
Null

17
TpBL
Full
(225, 40)
Null
(15, 10)
Null

18
TpBR
Full
(135, 40)
Null
(15, 10)
Null

19
TpSiL
Full
(270, 40)
Null
(10, 10)
Null

20
TpSiR
Full
(90, 40)
Null
(10, 10)
Null

21
TpBC
Full
(180, 40)
Null
(10, 10)
Null

22
BtFC
Full
(0, −30)
Null
(5, 10)
Null

23
BtFL
Full
(310, −30)
Null
(10, 10)
Null

24
BtFR
Full
(50, −30)
Null
(10, 10)
Null

A next-generation multichannel audio signal may be utilized in a next-generation audio/video (A/V) system, such as an ultra high definition television (UHDTV) in households, other nations, and studios, through such a scheme for describing descriptors.

The bitstream generator 230 may generate a descriptor and a multichannel audio signal in a form of a bitstream. The bitstream generator 230 may encode and multiplex a descriptor multichannel audio signal to generate a bitstream.

The transmitter 240 may transmit the generated bitstream to an apparatus for playing audio data.

FIG. 3 is a diagram illustrating a detailed configuration of an apparatus 310 for playing audio data according to an embodiment of the present invention.

Referring to FIG. 3, the apparatus 310 for playing the audio data may include a descriptor extractor 320 and a player 330. The apparatus 310 for playing the audio data may further include a displayer 340.

The descriptor extractor 320 may extract a descriptor associated with a multichannel audio signal from a bitstream generated by an apparatus for generating audio data. The descriptor extractor 320 may extract a descriptor from a header of a multichannel audio format signal, or a header of a plurality of audio channels configuring a multichannel audio signal. The descriptor may include information associated with a position at which an audio signal included in the multichannel audio signal is played. The descriptor may include at least one of a sound essence descriptor, a sound-field configuration descriptor, and a sound channel descriptor. For detailed descriptions of the descriptor, reference may be made to analogous features provided with reference to FIG. 2.

The player 330 may play a multichannel audio signal, based on the extracted descriptor. The player 330 may play a multichannel audio signal, based on play information of a multichannel audio signal described in the descriptor. By way of example, the player 330 may render a plurality of audio signals included in a multichannel audio signal, based on play position information included in the descriptor.

The player 330 may perform down-mixing on the multichannel audio signal, based on play conditions information of the apparatus 310 for playing the audio data. For example, the player 330 may perform down-mixing on audio data of a 22.2 channel to audio data of a 10.2 channel in order to play the audio data mixed to the 22.2 channel in the apparatus 310 for playing the audio data of 10.2 channel conditions. The play conditions information may include information associated with channel conditions of the apparatus 310 for playing the audio data, loud speaker arrangement, and the like.

The displayer 340 may display, on a screen, information included in metadata or information included in the descriptor. For example, the displayer 340 may display play position information of an audio signal, identifier information of an audio signal currently being played, and the like.

FIG. 4 is a diagram illustrating an example of generating audio data according to an embodiment of the present invention.

An apparatus for generating audio data may generate audio data, based on a descriptor of a basic structure, such that a receiver for receiving audio data may readily perform correction, conversion, exchange, and the like, on an audio signal. The apparatus for generating the audio data may store descriptor information in a header of a multichannel audio format signal, or a header of a plurality of audio channels configuring a multichannel, and transmit the descriptor information to the receiver.

The apparatus for generating the audio data may include a mixer 420, a coder 460, and a multiplexer 470. The mixer 420 may mix several audio sources 410, and output a channel-based audio signal 430 and an object-based audio signal 440. The coder 460 may code metadata 450 including the descriptor and a multichannel audio signal. The multichannel audio signal may include the channel-based audio signal 430 and the object-based audio signal 440. The descriptor may include information indicating a configuration of a multichannel The multichannel coder 460 may code an audio signal and a descriptor separately through various schemes, or code the audio signal and the descriptor together. The multiplexer 470 may generate a bitstream through multiplexing the coded multichannel audio signal and the metadata 450.

FIG. 5 is a diagram illustrating an example of playing audio data according to an embodiment of the present invention.

An apparatus for playing audio data may include a demultiplexer 510, a decoder 520, a renderer 560, and a displayer 580.

The demultiplexer 510 may perform demultiplexing on a received bitstream. The decoder 520 may decode the demultiplexed bitstream, and output a multichannel audio signal and metadata 550 to the renderer 560. The multichannel audio signal may include a channel-based audio signal 530 and an object-based audio signal 540. The renderer 560 may play a multichannel audio signal, based on the metadata 550. The renderer 560 may play a multichannel audio signal, based on information associated with a loudspeaker arrangement or information on a position of the object-based audio signal 540. The information associated with the loudspeaker arrangement or the information on the position of the object-based audio signal 540 may be input to the apparatus for playing the audio data.

A multichannel audio signal may be played based on the play conditions information 570 of the apparatus for playing the audio data. The apparatus for playing the audio data may play an original multichannel audio signal or perform down-mixing on a multichannel audio signal, based on play conditions of the apparatus for playing the audio data. The multichannel audio signal may be played in conformity to the play conditions of the apparatus for playing the audio data.

An example in which the apparatus for playing the audio data performs down-mixing on a signal produced in a 22.2 channel in an initial mixing step to match a 10.2 channel structure of play conditions may be represented in Table 7. Additionally, a down-mixing coefficient descriptor may describe conversion among various multichannels.

TABLE 7

10.2 channel

signal
Combination of 22.2 channel signals

L
FL + BtFL(−6 dB) + FLc

C
FC + BtFC(−6 dB)

R
FR + BtFR(−6 dB) + FRc

LS
−3 dB(TpSiL + SiL) + TpC(−3 dB)

RS
−3 dB(TpSiR + SiR) + TpC(−3 dB)

LB
BL + BC(−3 dB)

RB
BR + BC(−3 dB)

LH
TpFL + TpFC(−3.5 dB)

RH
TpFR + TpFC(−3.5 dB)

CH
−3 dB(TpBL + TpBR) + TpBC

LFE1
LFE1

LFE2
LFE2

The renderer 560 may play audio signals configuring a multichannel audio signal, based on azimuth angle and elevation angle information set forth in spatial position data, in a sequence of a channel according to an allocation number, as defined in channel position data of a descriptor. The renderer 560 may play an object-based audio signal 540, based on sound image localization information based on a play time of content, described in a type of a channel component object. For example, a user may randomly control a spatial position at which the object-based audio signal 540 is played.

The displayer 580 may display, on a screen, information described in a descriptor. The user may verify flexibility of speaker arrangement conditions of the user, compared to an optimal play position, based on information on a tolerance of spatial position of a descriptor, and verify name information of individual channels, based on channel label information of the descriptor. When the object-based audio signal 540 is included in a multichannel audio signal, the user may verify a sound of a corresponding object-based audio signal, via an object channel label of a channel label.

FIG. 6 is a diagram illustrating an operation of a method for generating audio data according to an embodiment of the present invention.

In operation 610, an apparatus for generating audio data may generate a descriptor for displaying a multichannel audio signal. The descriptor may include information associated with a position at which an audio signal included in the multichannel audio signal is played. The apparatus for generating the audio data may store the generated descriptor in a header of a multichannel audio format signal, using metadata, or in a header of a plurality of audio channels configuring the multichannel audio signal. The descriptor may include at least one of a sound essence descriptor, a sound-field configuration descriptor, and a sound channel descriptor.

In operation 620, the apparatus for generating the audio data may generate a descriptor and a multichannel audio signal in a form of a bitstream. The apparatus for generating the audio data may encode and multiplex the descriptor and the multichannel audio signal to generate a bitstream.

In operation 630, the apparatus for generating the audio data may transmit the generated bitstream to an apparatus for playing audio data.

FIG. 7 is a diagram illustrating an operation of a method for playing audio data according to an embodiment of the present invention.

In operation 710, an apparatus for playing audio data may extract a descriptor for displaying a multichannel audio signal from a bitstream generated by an apparatus for generating audio data. The apparatus for playing the audio data may extract a descriptor from a header of a multichannel audio format signal, or a header of a plurality of audio channels configuring the multichannel audio signal.

In operation 720, the apparatus for playing the audio data may play a multichannel audio signal, based on the extracted descriptor. The apparatus for playing the audio data may play the multichannel audio signal, based on play information of the multichannel audio signal described in the descriptor. The apparatus for playing the audio data may render a plurality of audio signals included in the multichannel audio signal, based on play position information included in the descriptor. The apparatus for playing the audio data may perform down-mixing on the multichannel audio signal, based on play conditions information, such as information on channel conditions of the apparatus for playing the audio data, information on loudspeaker arrangement, and the like.

According to the present exemplary embodiment, the apparatus for playing the audio data may display information included in metadata or the descriptor. The apparatus for playing the audio data may display information based on a position at which an audio signal is played, information on an identity of an audio signal currently being played, and the like.

The above-described exemplary embodiments of the present invention may be recorded in computer-readable media including program instructions to implement various operations embodied by a computer. The media may also include, alone or in combination with the program instructions, data files, data structures, and the like. Examples of computer-readable media include magnetic media such as hard disks, floppy disks, and magnetic tape; optical media such as CD ROM discs and DVDs; magneto-optical media such as floptical discs; and hardware devices that are specially configured to store and perform program instructions, such as read-only memory (ROM), random access memory (RAM), flash memory, and the like. Examples of program instructions include both machine code, such as produced by a compiler, and files containing higher level code that may be executed by the computer using an interpreter. The described hardware devices may be configured to act as one or more software modules in order to perform the operations of the above-described exemplary embodiments of the present invention, or vice versa.

Although a few exemplary embodiments of the present invention have been shown and described, the present invention is not limited to the described exemplary embodiments. Instead, it would be appreciated by those skilled in the art that changes may be made to these exemplary embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Number	Date	Country	Kind
10-2012-0112984	Oct 2012	KR	national
10-2013-0102544	Aug 2013	KR	national
10-2013-0121247	Oct 2013	KR	national

	Number	Date	Country
Parent	14434484	Apr 2015	US
Child	15803464		US

APPARATUS AND METHOD FOR GENERATING AUDIO DATA, AND APPARATUS AND METHOD FOR PLAYING AUDIO DATA

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