KR101679712B1 - Method and Apparatus for Audio Loudness Measurement - Google Patents

Abstract

A method and apparatus for measuring audio volume are provided. The apparatus for measuring audio volume according to an embodiment of the present invention includes first filters for first filtering audio data, second filters for secondarily filtering audio data, a synthesizer for synthesizing filtered audio data, The first and second filters filter audio data on a block basis for the first block and filter audio data on a sub-block basis for blocks after the first block. Thus, in performing audio data filtering necessary for audio volume measurement, the unit to be filtered is reduced, and audio volume measurement can be performed with a configuration having low complexity.

Description

TECHNICAL FIELD [0001] The present invention relates to an audio loudness measurement method and apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to audio measurement, and more particularly, to a method and apparatus for measuring audio volume when reproducing audio data received via a broadcast or stored in a file.

Audio Loudness refers to the amount of subjective audio sound perceived by the human auditory system, that is, the sensory size of the audio that a person feels, and the audio volume measurement refers to digitizing the audio volume.

For hearing protection, it is necessary to ensure that the audio volume does not exceed the allowable range. In order to regulate this, a technology for objectively measuring the audio volume is required, and processing of audio signals with high complexity is required.

Therefore, there is a need to search for measures to lower the complexity of audio volume measurement without degrading the measurement performance.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a method and apparatus for performing audio data filtering for audio volume measurement in order to realize low complexity in audio volume measurement, And to provide an apparatus and method for measuring audio volume.

According to an aspect of the present invention, there is provided an apparatus for measuring audio volume, including: first filters for first-order filtering audio data; Second filters for secondarily filtering the audio data filtered by the first filters; A synthesizer for synthesizing the audio data filtered by the second filters; And a measuring unit for measuring a volume of the audio data synthesized by the synthesizing unit, wherein the first filters and the second filters filter audio data on a block basis for the first block, The audio data is filtered on a sub-block basis.

The first and second filters may filter input audio data on a sub-block basis while shifting previously filtered audio data on a sub-block basis for blocks after the first block.

In addition, the block includes audio data for a specific time (m), and the sub-block may include audio data for m / n (n is a natural number of 2 or more).

The first filters may be filters that reflect the acoustic influence by the human head on the audio data, and the second filters may be filters that reflect the human auditory characteristic on the audio data.

In addition, the first filters may be second order Infinite Impulse Response (IIR) filters, and the second filters may be RLB (Revised Low frequency B) filters.

The combining unit may combine the audio data filtered by the second filters with different weights.

According to another aspect of the present invention, there is provided an apparatus for measuring audio volume, the apparatus comprising: a silence processor for excluding a volume corresponding to silence in a volume measured by the measuring unit; Data.

According to another aspect of the present invention, there is provided a method of measuring audio volume, the method comprising: firstly filtering audio data; Second filtering the first filtered audio data; Synthesizing the second filtered audio data; And measuring a volume of the audio data synthesized in the synthesizing step, wherein the first filtering step and the second filtering step filter the audio data in units of subblocks constituting the block.

As described above, according to the embodiments of the present invention, in performing audio data filtering required for audio volume measurement, the units to be filtered are reduced, and audio volume measurement can be performed with a configuration having low complexity. This makes it possible to lower the specification of the processor constituting the audio volume measuring apparatus, and it is also possible to create a low cost effect.

1 is a block diagram of an audio volume measuring apparatus according to an embodiment of the present invention;
2 is a diagram showing an audio data duplication state according to an audio data shift,
3 is a diagram illustrating a filtering method for audio volume measurement according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a block diagram of an audio volume measuring apparatus according to an embodiment of the present invention. An apparatus for measuring audio volume according to an embodiment of the present invention is an apparatus for receiving multi-channel audio data and measuring an audio volume.

In FIG. 1, it is assumed that the audio volume measuring apparatus according to the embodiment of the present invention is capable of measuring the volume of 5.1 channel multi-channel audio. It should be noted, however, that the woofer audio data among the 5.1-channel audio data is a low-frequency band and thus excluded from the volume measurement object.

1, an apparatus for measuring audio volume according to an embodiment of the present invention includes pre-filters 110-1 to 110-5, RLB filters (Revised Low frequency B filters) A synthesizing unit 130, a measuring unit 140, and a silence processing unit 150. In the present embodiment,

The pre-filters 110-1 through 110-5 are filters that reflect the frequency-dependent acoustic effects of the human head on incoming audio data. To this end, the pre-filters 110-1 through 110-5 pass only a band of 1 kHz or more, and cut off a band of less than 1 kHz.

The pre-filters 110-1 through 110-5 may be implemented with secondary IIR (Infinite Impulse Response) filters, but may be implemented with other filters.

The RLB filters 120-1 to 120-5 secondarily filter the first-order filtered audio data in the pre-filters 110-1 to 110-5. The RLB filters 120-1 to 120-5 are filters that reflect the auditory characteristics of a person with high sensitivity to high frequency audio in the audio data.

To this end, the RLB filters 120-1 to 120-5 give a high weight to the audio data in the high frequency band and a low weight to the audio data in the low frequency band.

As described above, the audio loudness measuring apparatus according to the embodiment of the present invention adopts a two-stage filter structure composed of a pre-filter and an RLB filter in order to convert audio data into audio data sensed by a human auditory system.

The filtering units of the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 are 'gate block' or 'sub-gate block'. The 'gate block' is the audio data of '400 ms', and the 'subgate block' is the audio data of '100 ms' which is 1/4 of the gate block.

On the other hand, the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 have buffers of a gate block size.

When audio data input to the audio loudness measuring apparatus according to the embodiment of the present invention is started, the pre-filters 110-1 to 110-5 store the audio data of the first gate block (0 to 400 ms) , After the buffer is full) and performs filtering on the audio data of the first gate block (0 to 400 ms).

The RLB filters 120-1 to 120-5 also perform filtering on the audio data of the first gate block (0 to 400 ms) filtered by the pre-filters 110-1 to 110-5.

Next, the pre-filters 110-1 through 110-5 and the RLB filters 120-1 through 120-5 shift the filtered audio data by a sub-gate block (100 ms) (100 ms) for sub-gate blocks.

That is, the pre-filters 110-1 to 110-5 shift the audio data of the filtered first gate block (0 to 400 ms) by 100 ms and the audio data of the newly inputted sub gate block (400 to 500 ms) Lt; / RTI >

The RLB filters 120-1 to 120-5 also shift the audio data of the first filtered secondary block (0 to 400 ms) by 100 ms and input the new audio data from the RLB filters 120-1 to 120-5 And performs filtering on the audio data of the primary filtered sub-gate block (400 to 500 ms).

As a result, the audio data stored in the buffers of the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 are divided into the existing audio data 75% is duplicated and 25% is not duplicated.

Subsequently, the filtering of the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 is also performed in units of sub-gate blocks (100 ms). That is, the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 are configured to 1) shift the audio data of "100 to 500 ms" by 100 ms and " 2) filtering the audio data of "200 to 600 ms" by 100 ms and filtering the audio data of "600 to 700 ms", 3) shifting the audio data of "300 to 700 ms" by 100 ms and shifting the audio data of "700 to 800 ms" The audio data is filtered, and this is continued even after the audio data after "700 to 800 ms" is input.

The synthesis unit 130 synthesizes the audio data filtered by the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5. The synthesis unit is a unit of a gate block (400 ms) to be.

That is, the synthesizer 130 synthesizes the audio data of the first gate block (0 to 400 ms), 2) synthesizes the audio data of the second gate block (100 to 500 ms), and 3) (200 to 600 ms), and synthesizes the audio data with the gate block unit (400 ms) while shifting the subsequent gate block by the sub-block (100 ms) unit.

As shown in FIG. 1, the combining unit 130 includes mean square calculating units 131-1 to 131-5, weight calculating units 132-1 to 132-5, and a summing unit 133 . Accordingly, the audio data in the combining unit 130 are subjected to Mean Square calculation, and different weights are added to the audio data.

The measuring unit 140 measures the volume of the audio data synthesized by the synthesizing unit 130 and the silence processor 150 excludes a volume corresponding to silence in the volume measured by the measuring unit 140.

3 is a diagram illustrating a filtering method for audio volume measurement according to another embodiment of the present invention.

As shown in FIG. 3, for the audio data of the first gate block (0 to 400 ms), the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 Filtering is performed in units of gate blocks (400 ms).

That is, after the audio data of the first gate block (0 to 400 ms) is completely received, filtering is performed using all the audio data of the first gate block (0 to 400 ms).

On the other hand, for audio data not included in the first gate block (0 to 400 ms), the pre-filters 110-1 to 110-5 and the RLB filters 120-1 to 120-5 convert the audio data Filter by subgate block unit (100ms).

That is, whenever the audio data of the new sub-gate block is received, the pre-filters 110-1 through 110-5 and the RLB filters 120-1 through 120-5 convert the filtered audio data to sub- The audio data is filtered in units of sub-gate blocks (100 ms), while being shifted in units (100 ms).

Up to now, the audio volume measuring apparatus and method have been described in detail with preferred embodiments.

In the above embodiment, it is assumed that the size of the gate block is "400 ms " and the size of the subgate block is" 100 ms " Therefore, it is needless to say that the size of the gate block and the size of the subgate block can be set differently from the above. For example, it is needless to say that the technical idea of the present invention can be applied to the case where the size of the gate block is set to "400 ms" and the size of the sub-gate block is set to "200 ms".

Furthermore, the technical idea of the present invention can also be applied to the case where the initial gate block is modified to perform the filtering in units of sub-gate blocks instead of the gate block unit.

In addition, it is possible to implement the filtering in units of gate blocks for each specific interval. For example, it is possible to implement filtering at the time of 10,000 ms after the start of the audio data input, in units of gate blocks instead of sub-gate blocks.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

110-1 to 110-5: Pre-filter:
120-1 to 120-5: RLB filter (Revised Low frequency B Filter)
130:
131-1 to 131-5:
132-1 to 132-5:
133:

Claims (8)

First filters for first filtering the audio data;
Second filters for secondarily filtering the audio data filtered by the first filters;
A synthesizer for synthesizing the audio data filtered by the second filters; And
And a measuring unit for measuring the volume of the audio data synthesized by the synthesizing unit,
Wherein the first filters and the second filters comprise:
For the first block, the audio data is filtered in block units,
And the audio data is filtered on a sub-block basis for blocks after the first block.
The method according to claim 1,
The first filters and the second filters may comprise:
Wherein the filtering unit filters input audio data on a sub-block basis while shifting previously filtered audio data on a sub-block basis with respect to a block after the first block.
The method according to claim 1,
The block includes audio data for a specific time (m)
Wherein the sub-block includes audio data for m / n (n is a natural number of 2 or more).
delete The method according to claim 1,
The first filters may comprise:
Secondary IIR (Infinite Impulse Response) filters,
Wherein the second filters comprise:
And RLB (Revised Low frequency B) filters.
The method according to claim 1,
The synthesizing unit,
And synthesizes the audio data filtered by the second filters while giving different weights to the audio data filtered by the second filters.
The method according to claim 1,
And a silence processing unit which excludes a volume corresponding to silence in the volume measured by the measuring unit,
The audio data includes,
Wherein the audio data is audio data of different channels.
First filtering the audio data;
Second filtering the first filtered audio data;
Synthesizing the second filtered audio data; And
And measuring a volume of the audio data synthesized in the synthesizing step,
Wherein the first filtering step and the second filtering step comprise:
Wherein the audio data is filtered in units of subblocks constituting the block.

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