KR0162219B1 - Digital audio signal decoder - Google Patents

Abstract

The present invention relates to an apparatus for decoding a digital audio signal. The decoding apparatus of the present invention deletes unnecessary portions of the input bitstream, converts only necessary portions sequentially or in clusters into bit rates and dynamic frequencies required for decoding, and outputs a signal converted by the preanalyzer. And a digital audio decoder for decoding the audio signal into an audible audio signal. Accordingly, the present invention facilitates the operation of the decoder, and when the digital audio decoder is configured with an MPEG 1 chip, the present invention provides an effect of processing an MPEG 2 bitstream without changing the MPEG 1 chip.

Description

Digital audio signal decoding device

1 is a block diagram showing an apparatus for decoding a general digital audio signal.

2 is a block diagram showing an apparatus for decoding an audio signal according to the present invention.

3 (a) and (b) are conceptual diagrams for explaining the operation of the pre-analyzer of the FIG. 2 apparatus.

* Explanation of symbols for main parts of the drawings

21: Pre Analyzer 25: Digital Audio Decoder

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for decoding a compressed audio bitstream, and more particularly, to an apparatus for decoding an audio signal capable of removing unnecessary portions in a bitstream and decoding only necessary portions.

In general, wideband audio signals such as voice and music require a lot of memory and a large bandwidth as the amount of data becomes large when digitizing, storing or transmitting. Therefore, after encoding and compressing the audio signal, it is transmitted or stored, and restored to an audio signal having an error that cannot be recognized by a human.

FIG. 1 is a block diagram illustrating a general decoding apparatus for digital audio signals, and receives an audio bitstream compressed according to the MPEG 1 to MPEG 2 audio standards. The digital audio decoder 10 decodes the received compressed audio bitstream to obtain an audible audio signal.

However, since the amount of data that can be decoded by the digital audio decoder is limited, when more data is input, the data cannot be decoded and an error occurs. In addition, if data is not input all at once or is not input regularly, an error occurs because the decoder does not receive the necessary data at a desired time, and a problem occurs that the decoder must delay or wait to receive the data necessary for decoding.

Accordingly, an object of the present invention is to provide an apparatus for decoding a digital audio signal in which the unnecessary parts for decoding included in the compressed audio bitstream are removed, and only the necessary parts can be uniformly distributed and decoded in view of the above problems. In providing.

In order to achieve the above object, the apparatus for decoding a digital audio signal of the present invention removes an unnecessary portion of the compressed audio bitstream, and converts only the necessary portion to match the bit rate and the operating frequency of the digital audio decoder. And a digital audio decoder for decoding the bitstream converted by the preanalyzer and outputting an audible audio signal.

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

2 is a block diagram showing an apparatus for decoding a digital audio signal according to the present invention, which is a pre-analyzer for the present invention in front of the digital audio decoder 25 corresponding to the digital audio decoder 10 of FIG. a parser 21.

In the encoded and compressed audio bitstream, as shown in FIG. 3A, a portion necessary for decoding and an unnecessary portion may be input to each successive praim. Thus, the pre-analyzer 21 connected to the front end of the digital audio decoder 25 deletes unnecessary portions of the compressed bitstream of FIG. The image is divided into sizes that can be processed in 25) and output to the digital audio decoder 25. The dictionary analyzer 21 also converts and outputs a bit rate and an operating frequency of a portion necessary for decoding to match the bit rate and the clock speed of the digital audio decoder 25. In other words, the decoding speed of the digital audio decoder 25 and the input speed of the audio bitstream required for decoding are kept constant.

Meanwhile, as shown in FIG. 3 (b), the preliminary analyzer 21 is unnecessary even when decoding the audio bitstream compressed according to the MPEG 2 compression method using a commercially available MPEG 1 chip. Is deleted, and only the necessary portion is divided into a predetermined size or a size that can be processed by the digital audio decoder 25 and output to the digital audio decoder 25. In other words, MPEG 2 improves and supplements MPEG 1, a stereo system, to support 5.1 channels, and the bitstream format is used to distinguish consecutive audio frames from each other. It consists of a header inserted in the header, an MPEG-1 compatible part of left (L) and right (R) channels, and an extension frame of other channels. In this case, the MPEG 1 chip may not recognize the extended frame part and may not be able to decode because the bit rate of the MPEG 2 bit stream is too high depending on the situation. Therefore, the pre-analyzer 21 removes the extended frame part which the MPEG 1 chip does not recognize and makes only the compatible part with the MPEG 1 clustered or sequential to digitally decode the MPEG 1 chip. It is supplied to the group 25. The pre-analyzer 21 also converts the bit rate and the operating frequency of a portion necessary for decoding to match the bit rate and the clock speed available in the MPEG 1 chip constituting the digital audio decoder 25. Output

The digital audio decoder 25 decodes the bitstream indicated by α in FIGS. 3A and 3B supplied from the preliminary analyzer 21 into an audible audio signal.

As described above, the apparatus for decoding a digital audio signal of the present invention removes unnecessary parts for decoding included in the compressed audio bitstream and distributes only necessary parts evenly, thereby smoothing the operation of the decoder. It has the effect of being able to process MPEG 2 bitstreams without modifying the chip.

Claims (1)

Omissions.