KR100921869B1 - Apparatus for detecting an error of sound - Google Patents

Abstract

The error detection apparatus of a sound source according to the present invention includes a pre-sound source model in which error information for error discrimination for each frequency signal corresponding to a plurality of sound sources is defined, and a sound source signal is received in units of frames, and the frequency is analyzed and framed. An error that generates error detection information by comparing a frequency analysis module that outputs a frequency signal in units of units, and error information for determining a frequency signal of a frequency signal defined in a pre-sound source model unit and a frequency signal in units of frames output from the frequency analyzer. The detection module may include an error processing module configured to process a sound source signal of a frame based on the error detection information generated by the error detection unit.

As described above, the present invention detects an error of a sound source based on a prior sound source model, and thus does not use additional information (error detection additional information) for error detection, thereby reducing the transmission amount of information and transmitting error and sound source. An error generated when decoding a signal may be detected and corrected.

Sound source, error, pre-model, frequency analysis, energy

Description

Error detection device of sound source {APPARATUS FOR DETECTING AN ERROR OF SOUND}

1 is a block diagram showing a structure for general error detection and correction;

FIG. 2 is a diagram illustrating a structure of a transport stream applied to FIG. 1.

3 is a block diagram showing an error detection apparatus of a sound source according to an embodiment of the present invention,

4 is a block diagram showing an error detection apparatus of a sound source according to another embodiment of the present invention.

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100, 300, 400: transmitter 110, 310, 410: receiver

314: error detection unit

The present invention relates to error detection, and more particularly, to an error detection apparatus for a sound source based on a dictionary sound source model.

In general, in a structure in which a speech signal is encoded, transmitted to a decoder through a communication or other medium, and then decoded, error detection of a received signal is transmitted by adding additional information for error detection to a digital signal encoded at a transmitting end and receiving the same. It is done by analyzing from. This is a method of detecting transmission errors of all general signals as well as voice. Specifically, various methods exist, and typical methods include an iterative transmission method, a parity check method, and a cyclic redundancy check (CRC) method.

All of the above schemes have a common structure as shown in FIG. 1 and differ from each other in how to add error detection information.

That is, as shown in Figure 1, the error detection device of the sound source signal is largely composed of a transmitter 100 and a receiver 110, the transmitter 100 is a sound source encoder 102 for receiving and encoding an external sound source. ) And an error detection information adding unit 104 for transmitting the transport stream after adding the error detection information to the encoded signal, and the receiving end 110 extracts the error detection information from the received transport stream and transmits the detected error information. An error detection unit 112 for detecting an error and a sound source decoding unit 114 for extracting an original sound source by receiving and decoding a sound source compressed stream in a transport stream when there is no error in the transport stream.

The transport stream is composed of an encoded sound source compressed stream and error detection information for error detection, as shown in FIG.

Referring to the error detection method, first, an iterative transmission method is a method of detecting whether an error occurs in the receiver 110 by repeatedly transmitting a compressed stream several times at the transmitter 100 side.

Next, in the parity checking method, a parity bit (error detection information) for distinguishing whether the sum of bit streams of the compressed stream is odd or even is added to the end of the compressed stream and transmitted to the receiving end 110, and the error detecting unit of the receiving end 110 is provided. At 112, the bit sum of the transport stream is checked to see if an error occurs.

Next, the CRC scheme defines a compressed stream as a coefficient of a polynomial, transmits a quotient (error detection information) divided by a predefined fixed polynomial to the end of the compressed stream, and transmits it to the receiving end 110, and the receiving end 110. The error detector 112 detects whether an error occurs by dividing the transport stream by a fixed polynomial.

In addition to the above-described methods, error detection methods using error detection information that are substantially used in current products include Reed Solomon code, Turbo code, Viterbi code, and the like.

However, the conventional error detection method described above requires additional information for error detection and detects only transmission errors in the coded front end, and correctly detects an error when an unexpected error occurs in a decoder and other devices. There is a problem that can not be.

An object of the present invention is to solve the problems of the prior art, and by detecting the error of the sound source based on the entire sound source model, the additional information (error detection additional information) is not used for error detection. In addition, the present invention provides an error detection apparatus for a sound source that can reduce a transmission amount and detect errors in a transmission error and an error generated when decoding a sound source signal by performing error detection after the sound source decoder.

In addition, another object of the present invention, by using a conventional error detection and correction method and an error detection method based on a prior sound source model, it is possible not only to detect an error generated during transmission, but also generated during sound source decoding An error detection apparatus for a sound source capable of detecting an error is provided.

In order to achieve the above object, the present invention provides an error detection apparatus for a sound source in the sound source compressed stream by receiving and decoding the encoded sound source compressed stream from a transmitter, for each frequency signal corresponding to a plurality of sound sources. A pre-sound source model unit in which error information for determining conditions is defined, a frequency analysis unit receiving a sound source signal defined in the pre-sound source model unit in units of frames, and analyzing the frequency to output a frequency signal in units of frames; An error detection unit for generating error detection information by comparing error information defined in a pre-sound source model unit with frequency signals output from the frequency analyzer unit, and based on the error detection information generated by the error detection unit; An error processing unit for processing the sound source signal of the frame, The error discrimination condition information is an error occurrence reference value as a frequency maximum value K of the highest high frequency region in the frequency signal corresponding to the sound source and M energy information information A of the high frequency region in the frequency signal corresponding to the sound source. Characterized in that made.

In order to achieve the above object, the present invention provides an error detection apparatus for a sound source in the sound source compressed stream by receiving the transport stream from a transmitting end generating a transport stream by adding error detection additional information to an encoded sound source compressed stream. And extracting the error detection additional information from the transport stream to determine whether an error exists in a sound source compressed stream in the transport stream, and correcting and outputting an error of the sound source compressed stream when the error exists. A sound source decoder for decoding a sound source compressed stream output from the error detection and correction unit, outputting a sound source signal, and condition information for error discrimination for each frequency signal corresponding to a plurality of sound sources is defined; Output from a pre-sound source model unit and the sound source decoder A frequency analyzer for receiving a sound source signal in units of frames and analyzing the frequency and outputting the frequency signal in units of frames; and condition information for error determination of the frequency signals defined in the pre-sound source model unit and outputting the frequency signals in the frequency analyzer. An error detection unit generating error detection information by comparing frequency signals in units of frames, and an error processing unit processing a sound source signal of the frame based on the error detection information generated by the error detection unit.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

3 is a block diagram showing an error detection apparatus of a sound source according to an embodiment of the present invention.

Referring to FIG. 3, an error detecting apparatus for a sound source is largely composed of a transmitter 300 and a receiver 310, and the transmitter 300 receives a sound source encoder 302 for receiving a sound source and encoding the sound source to generate a compressed sound stream. Include.

The transmitter 300 transmits the sound source compressed stream generated by the sound source encoder 302 as a transport stream to the receiver 310.

The receiver 310 receives a transport stream and decodes the sound source compressed stream in the transport stream to output a sound source signal, and a frequency signal for a sound source signal in units of frames and a pre-stored frequency signal for each sound source. And a sound source error detection unit 314 for generating error detection information based on the error discrimination information and processing the sound source signal of the corresponding frame based on the error detection information.

Here, the sound source error detector 314 receives a pre-sound source model 320 in which error information for error discrimination for each frequency signal corresponding to a plurality of sound sources is defined, and receives a sound source signal in units of frames, and analyzes the frequency. Comparison between the frequency analysis module 322 for outputting a frequency signal in a frame unit, the condition information for error determination of the frequency signal defined in the pre-sound source model 320 and the frequency signal in a frame unit output from the frequency analysis module 322. The error detection module 324 generates error detection information through the error detection module 324 and an error processing module 326 that processes a sound source signal of the frame based on the error detection information generated by the error detection module 324.

The frequency analysis module 322 receives a sound source signal in a frame unit having a predetermined size from the sound source decoder 312 and analyzes the DCT frequency to output a frequency signal in a frame unit.

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The process of calculating error information for error determination, which is a frequency distribution condition for each sound source, will be described first. In order to remove the difference according to the relative size of the sound source, the frequency signal is normalized so that the sum of the energy of the corresponding frame is 1. The frequency domain is divided into N, the sum of the energy in each region is calculated, the frequency distribution condition corresponding to the sound source is calculated, and the high frequency region M (M> N) is used in the frequency signal corresponding to the sound source as an error occurrence reference value. Energy sum information (A) is calculated, and the maximum value (K) of the highest high frequency region is calculated from the frequency signal corresponding to the sound source, and this is used as condition information for error determination.
The pre-sound source model 320 stores error information (K, A) for error determination, which is a frequency distribution condition for each normalized sound source, as described above.

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The error detection module 324 compares the energy distribution of the frequency signal with respect to the sound source signal of the frame output from the frequency analysis module 322 and the condition information for error determination, that is, the high frequency region in the energy distribution of the frequency signal with respect to the sound source signal. If the M sum of energy information is "A" or more, and / or the frequency maximum value of the highest high frequency region in the energy distribution of the frequency signal for the sound source signal is "K" or more, error information is detected. Provided to processing module 326.

The error processing module 326 processes a sound source signal of a corresponding frame based on the error detection information of the error detection module 324, that is, when error detection information indicating that there is an error is inputted, the corresponding sound source signal detected by the error is "0". By initializing (silencing) and outputting, it is possible to prevent the user from listening to the distorted sound source.

In an embodiment of the present invention, the transmitter 300 transmits only the sound source compressed stream to the receiver 310 without including the error detection additional information in the transport stream. However, in another embodiment, the error detection additional information is compressed. After the transport stream is included in the stream, the transport stream may be transmitted to the receiver 310. That is, the sound source error detection apparatus based on the sound source dictionary model may be incorporated into the conventional error detection method.

Hereinafter, another embodiment of the present invention will be described with reference to FIG. 4.

4 is a block diagram illustrating an error detection apparatus of a sound source according to another exemplary embodiment of the present invention.

Referring to FIG. 4, an error detection apparatus for a sound source includes a transmitter 400 and a receiver 410, and the transmitter 400 largely encodes a sound source to generate a sound source compressed stream, and a sound source. And an error detection information adding unit 404 for generating a transport stream by adding error detection additional information to the compressed stream, wherein the error detection additional information is provided using the sound source encoding unit 402 and the error detection information adding unit 404. The included sound source compressed stream is transmitted as a transport stream to the receiver 410.

The receiving unit 410 receives the transport stream, extracts additional error detection information from the transport stream, determines whether there is an error in the sound source compressed stream of the transport stream, and corrects and outputs an error of the sound source compressed stream when the error exists. An error detection and correction unit 412, a sound source decoding unit 414 for decoding a sound source compressed stream output from the error detection and correction unit 412, and outputting a sound source signal, and an error detection unit in the receiver 310 of FIG. An error detection unit having the same configuration as 314 is included.

That is, in another embodiment of the present invention, a conventional error detection method, that is, the error detection and correction unit 412 of the receiver 410 detects and corrects an error, and an error defined in the pre-sound source model 320. Error detection is performed once more by comparing the condition information for discrimination and the energy distribution of the frequency signal with respect to the sound source signal of the frame. That is, the error detection and correction unit 412 detects an error generated during transmission, and also detects an error occurring after that including the sound source decoder 414 using the error detector 314 in the receiving end 410. can do.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention can reduce the transmission amount of information by detecting an error of a sound source based on a prior sound source model, since no additional information (error detection additional information) is used for error detection.

In addition, the present invention has the advantage that by detecting the error after the sound source decoder, it is possible to detect not only transmission error but also an error generated when decoding the sound source signal.

According to the present invention, a conventional error detection and correction method and an error detection method based on a prior sound source model are used in parallel, so that an error generated during transmission can be detected as well as an error generated when decoding a sound source. .

Claims (7)

An apparatus for detecting an error of a sound source in a sound source compressed stream by receiving and decoding the encoded sound source compressed stream from a transmitter, A pre-sound source model unit in which error condition information for each frequency signal corresponding to a plurality of sound sources is defined;  A frequency analyzer which receives the sound source signal defined in the pre-sound source model unit in frame units and frequency-analyzes the signal, and outputs the frequency signal in frame units; An error detection unit generating error detection information by comparing the error determination condition information defined in the pre-sound source model unit with a frequency signal in units of frames output from the frequency analyzer; An error processor configured to process a sound source signal of the frame based on the error detection information generated by the error detector; The error determination condition information is an error occurrence reference value, the maximum frequency value K of the highest high frequency region in the frequency signal corresponding to the sound source and the M sum information A of the high frequency region in the frequency signal corresponding to the sound source. Error detection device of a sound source, characterized in that consisting of. An error detection apparatus for a sound source in a sound source compressed stream by receiving the transport stream from a transmitting end generating a transport stream by adding error detection additional information to an encoded sound source compressed stream. The error detection and correction unit extracts the error detection additional information from the transport stream and determines whether there is an error in the sound source compressed stream in the transport stream, and corrects and outputs an error of the sound source compressed stream when the error exists. Wow, A sound source decoder to decode the sound source compressed stream output from the error detection and correction unit to output a sound source signal; A pre-sound source model unit in which error condition information for each frequency signal corresponding to a plurality of sound sources is defined; A frequency analyzer which receives the sound source signal output from the sound source decoder in units of frames and analyzes the frequency of the sound source signals and outputs the frequency signals in units of frames; An error detection unit generating error detection information by comparing the error information for error determination of the frequency signal defined in the pre-sound source model unit with the frequency signal in units of frames output from the frequency analyzer; An error processing unit processing the sound source signal of the frame based on the error detection information generated by the error detecting unit Error detection device of a sound source comprising a. The method of claim 2, The error determination condition information is an error occurrence reference value, the maximum frequency value K of the highest high frequency region in the frequency signal corresponding to the sound source and the M sum information A of the high frequency region in the frequency signal corresponding to the sound source. Error detection device of a sound source, characterized in that consisting of. The method according to claim 1 or 3, The error detector may provide error detection information to the error processor that error is found in the sound source signal when the sum of M energy in the high frequency region is greater than A in the frequency signal distribution of the input sound source signal. Error detection device. The method according to claim 1 or 3, The error detector may provide error detection information to the error processor that error is found in the sound source signal when the maximum frequency of the highest frequency region number in the frequency signal distribution of the input sound source signal is greater than or equal to K. Error detection device. The method according to claim 1 or 3, The error detector may be configured when the sum of M energy of a high frequency region in the frequency signal distribution of the input sound source signal is equal to or greater than A and the maximum frequency of the highest frequency region in the frequency signal distribution of the sound source signal is equal to or greater than M. And error detecting information indicating that there is an error in a signal. The method according to claim 1 or 2, And the error processing unit initializes and outputs a sound source signal of the frame to "0" when error detection information indicating that there is an error is received from the error detection unit.

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