KR100652004B1 - Apparatus and method for error correction of audio data - Google Patents

Abstract

The present invention relates to an apparatus and method for error correction of a digital audio signal for compensating for an error of an audio signal generated on a transmission channel. In particular, the present invention constructs a reference vector by using the front and back frames of the lost frame, replaces the lost frame by finding the frame having the highest correlation coefficient with the reference vector in the search region. By compensating the boundary portion using a raised cosine function to have continuity with the rear frame, the sound quality of the digital audio signal can be restored to the original sound even when an error occurs during transmission.

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Description

Apparatus and method for error correction of audio data}

1 is a block diagram illustrating an AC-3 audio decoder including an error concealment unit according to the present invention.

2 illustrates an example of a frame in which an error occurs in AC-3 audio according to the present invention.

3 is a detailed block diagram of the error concealment unit of FIG. 1; FIG.

4 is a diagram illustrating an example of a pattern matching process using the front and rear frames of a lost frame according to the present invention.

5 is a view showing an example of a recovery process of a lost frame according to the present invention;

Explanation of symbols for main parts of the drawings

301: reference vector generating unit 302: pattern matching unit

303: compensation unit

The present invention relates to a digital audio system, and more particularly, to an apparatus and method for error correction of a digital audio signal for compensating for an error of an audio signal generated on a transmission channel.

In general, audio signals can obtain better quality when digitally encoded than analog signals. However, since the amount of data generated when digitally encoded increases, the amount of generated data is reduced by using a compression technique.

In particular, the digital audio signal is encoded according to a prescribed compression standard such as AC (Audio Coding) -3 or Moving Picture Experts Group (MPEG) audio and transmitted in units of frames, so that the entire frame is lost due to a single error in the frame header. It is very sensitive to errors in back frames.

Therefore, error correction and detection codes are used to overcome the problems caused by the error. In the case of AC-3 audio, a cyclic redundancy code (CRC) is used, which is an error detection code. At this time, the error correction or detection code transmits a certain amount of additional data after the actual data to correct or detect the error. However, these methods have a disadvantage in that error correction is not possible for an error outside the range of error correction capability.

On the other hand, as another method for overcoming transmission errors of digital audio signals, if an error occurs when transmitting through a channel, an error generated through post processing after the decoder may be felt by human hearing. There is an error concealment method to conceal it.

That is, when an error frame is detected, the AC-3 decoder corrects the error by using a simple error concealment method such as silence, repeat of a block, and repeat of a frame.

However, even if the frame lost by this simple error concealment method is restored, the sound quality of the digital audio signal is greatly degraded by the error during transmission.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to correct an AC-3 audio frame lost by an error by using pattern matching. And providing a method.

An error correction apparatus for a digital audio signal according to the present invention for achieving the above object comprises a reference vector using the front and back frames of the lost frame, and the reference vector and the correlation coefficient are the most in the search region. It is characterized by finding a high frame and replacing lost frames.
In particular, the error correction apparatus of a digital audio signal according to the present invention includes a reference vector generator for obtaining a vector as a reference for waveform matching from an audio signal of a front and back frame based on a lost frame among input audio frames, and a preset search region. And a pattern matching unit for finding a frame most similar to the reference vector and replacing a lost frame, and a compensating unit for compensating a boundary between the replaced frame and an adjacent frame for continuity of the frame. .
The compensation unit may compensate for the boundary part using a raised cosine function so that the restored frame may have continuity with the front and rear frames.
According to an exemplary embodiment of the present invention, an error correction method of an audio signal may include obtaining a vector as a reference for waveform matching from an audio signal of a front and back frame based on a lost frame among input audio frames, and using a waveform from an audio signal within a preset search region. Obtaining a vector to be matched; obtaining a correlation coefficient between the reference vector and the target vector obtained in the above step; and replacing frame data between the vector having the largest correlation coefficient with an audio signal of a lost frame. And compensating for each boundary portion between the replaced frame and the adjacent frame for continuity of the frame.
The compensating step is characterized by compensating each boundary portion between the replaced frame and the adjacent frame by applying a raised cosine function to each boundary portion between the replaced frame and the adjacent frame to obtain a weighted island.

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Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an AC-3 decoder including an error concealment unit 106 for performing error correction of a digital audio signal according to the present invention.

The rest of the configuration except for the error concealment unit 106 is a well-known technique, and thus a detailed description thereof will be omitted.

3 is a detailed block diagram of the error concealment unit 106. The reference vector generator 301 which generates a reference vector as a reference for pattern matching, finds a frame most similar to the reference vector in a search region, and loses it. And a pattern matching unit 302 for replacing the replaced frame with the found frame, and a compensation unit 303 for compensating a boundary between the replaced frame and the adjacent frame.

In the present invention configured as described above, the decoding unit 101 detects an error occurring during AC-3 frame synchronization and transmission from the AC-3 bit stream transmitted through the channel, and then converts the error detection information into the error concealment unit 106. Output In addition, quantized mantissas are output to the mantissa dequantizer 103 through AC-3 audio deformatting, and the mantissa quantizer 103 performs dequantization on the quantized mantissa using bit allocation information. After the execution, the output is output to the filter bank 105. The encoded spectral envelope is output to the spectral envelope decoding unit 104, decoded, and then output to the filter bank 105. At this time, the bit allocation unit 102 detects bit allocation information from the encoded spectral envelope and outputs the bit allocation information to the mantissa dequantization unit 103. The filter bank 105 outputs a pulse coded modulation (PCM) time sample obtained after filtering the two inputs using the stored filter coefficients to the error concealment unit 106.

In this case, the reference vector generator 301 of the error concealment unit 106 may know which frame of the PCM time sample is lost from the error detection information.

If it is assumed that frame 2 is lost due to an error as shown in FIG. 2, the reference vector generator 301 uses the audio signals of frames 1 and 3, that is, frames before and after the lost frame 2, as shown in FIG. 4. A vector X as a reference for pattern matching of a waveform is made, and a vector Y _k as a target of pattern matching of a waveform is obtained from an audio signal in a search range. Here, the range of the search area is determined according to the storage capacity.

That is, if the audio signal of frame 1 is represented by f _k , the audio signal of frame 3 is represented by t _k , and the audio signal within the search region is represented by y _k , vectors X and vector Y _k may be represented by Equation 1 below.

Then, pattern matching unit 302 correlated with the vector Y _k and the vector then obtained as shown in equation (2) to the X with the correlation coefficient, the navigation-domain vector Y _k vector Y _k and the vector X by moving the start point k in the Find the location k = K with the largest (correlation) coefficient.

여기서, ∥X∥는 각각의 벡터 원소에 대한 제곱의 평균을 의미한다.

Where X is the mean of the squares for each vector element.

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로서 대체할 수 있다.Data in the audio signal of the second frame loss as shown in Fig. 5 by using the vector Y _k of the K found in this way to the starting point between the vector Y _k

Can be substituted as

That is, the pattern matching unit 302 replaces the lost frame information with the most similar frame information found by applying Equation 2 above.

On the other hand, the next problem to find a replacement for the audio signal of the lost frame 2 is that the frame before and after the replaced frame and the replaced frame has continuity. To this end, the compensator 303 embosses the boundary between frames, i.e., 256 signals at the back of frame 1 and 256 signals at the front of the part to be replaced, 256 signals at the rear of the part to be replaced and 256 signals in front of the frame 3 to be replaced. We can solve this problem by applying the cosine function of and obtaining the weighted sum. In other words, by reducing both ends of the frame and keeping the median value, the audio quality is smoothly compensated for. Here, the sampled number 256 is arbitrarily determined and may be changed by the designer.

Through this process, frame 2 lost due to an error is replaced with a frame having the highest correlation coefficient in the search area, and the replaced frame is restored to have continuity with the audio signal of the front and rear frames.

The present invention can be applied to any product equipped with an AC-3 decoder as well as a digital television, and can effectively conceal errors even in transmission under an error-prone environment.

As described above, according to the apparatus and method for error correction of a digital audio signal according to the present invention, a reference vector is formed by using the front and rear frames of the lost frame, and the reference vector and the correlation coefficient are the highest in the search region. By finding and replacing lost frames, it is possible to restore the sound quality of a digital audio signal closer to the original sound even if an error occurs during transmission. In addition, the reconstructed sound quality may be further improved by compensating the boundary portion using the raised cosine function so that the reconstructed frame may have continuity with the front and rear frames.

Claims (8)

An error correction apparatus of an audio signal for recovering a lost audio signal, A reference vector generator for obtaining a reference vector, which is a reference for waveform matching, from audio signals of front and rear frames based on a lost frame among input audio frames; A pattern matching unit which finds a frame most similar to the reference vector and replaces the lost frame within a preset search region; An error in the digital audio signal, comprising a compensating unit for applying a raised cosine function to each boundary between the replaced frame and the adjacent frame to obtain a continuity of the frame, and then obtaining and compensating a weighted island. Correction device. The method of claim 1, wherein the pattern matching unit After obtaining the vector to be the waveform matching target from the audio signal in the preset search area, and then obtaining the correlation coefficient with the reference vector obtained by the reference vector generator, the frame data between the vectors having the largest correlation coefficient is lost. And an audio signal of a frame in which the error is corrected. delete The method of claim 2, wherein the pattern matching unit An error correction apparatus for a digital audio signal, comprising: obtaining a correlation coefficient between a vector, which is a reference for waveform matching, and a vector, which is a target of waveform matching, in a preset search region by applying the following equation.

Here, X is a vector for waveform matching, Y _k is a vector for waveform matching, ∥X∥ means the mean of the square of each vector element. The method of claim 1, wherein the compensation unit Embossed for the predetermined number of sample audio signals in front of the replaced frame and the predetermined number of sample audio signals at the back of the previous frame, the predetermined number of sample audio signals at the back of the replaced frame and the predetermined number of sample audio signals in front of the subsequent frame. And applying a raised cosine function to obtain a weighted island to compensate each boundary portion between the replaced frame and the adjacent frame. In the error correction method of an audio signal for recovering a lost audio signal, (a) obtaining a reference vector, which is a reference for waveform matching, from an audio signal of a front and back frame based on a lost frame among input audio frames; (b) obtaining a target vector, which is a target of waveform matching, from an audio signal in a preset search region; (c) After obtaining a correlation coefficient between the reference vector obtained in step (a) and the target vector obtained in step (b), the frame data between the vector of the position having the largest correlation coefficient is lost. Replacing with a signal; And (d) applying a raised cosine function to each boundary portion between the replaced frame and the adjacent frame for continuity of the frame, and then obtaining a weighted island to compensate for each boundary portion between the replaced frame and the adjacent frame. Error correction method of a digital audio signal, characterized in that it comprises a step. The method of claim 6, wherein step (c) And a correlation coefficient between a reference vector and a target vector in a preset search region by applying the following equation.

Here, X is a vector for waveform matching, Y _k is a vector for waveform matching, ∥X∥ means the mean of the square of each vector element. delete

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