KR940001736A - Coding and Decoding System Using Variable Bit Allocation - Google Patents

Abstract

The present invention relates to an encoding and decoding system of an audio signal. The present invention relates to an audio signal encoding and decoding system. A variable number of bits are allocated, the signal of each frequency component is quantized according to the allocated number of bits, and a buffer occupancy rate is generated, which is the extent to which the quantized data is stored, so that the bit allocation is adaptively converted according to the buffer occupancy rate. An encoding system and a decoding system for inversely quantizing a signal of each frequency component encoded by such an encoding system, synthesizing and reproducing a signal as an original signal.

Description

Coding and Decoding System Using Variable Bit Allocation

Since this is an open matter, no full text was included.

5 is a block diagram showing an example of an encoding apparatus using variable bit allocation according to the present invention.

6 is a block diagram showing an example of a decoding apparatus using variable bit allocation according to the present invention.

7 is a schematic diagram showing a data state by the bit allocation method of the present invention.

Claims (18)

Analyzing a frequency component of the input signal, spectroscopically analyzing the input signal to calculate a predetermined threshold level at which the noise cannot be detected due to auditory characteristics, and using the threshold level to determine signals of the divided frequency bands. An encoding method comprising quantizing, comprising: storing quantized and formatted data in an appropriate format; Generating occupancy, which is the extent to which data is stored, in the data storage step; Adaptively allocating the number of bits required for quantization according to the threshold level and the occupancy ratio obtained as a result of the spectrum analysis, and quantizing the signals of the divided frequency bands according to the allocated number of bits. Encoding method. 2. The method of claim 1, wherein the bit allocation step comprises: allocating bits at a predetermined fixed ratio when the data occupancy is less than a predetermined reference value or more than another predetermined reference value; And allocating bits at variable rates when the data occupancy is present in the two predetermined reference values. The encoding method according to claim 2, wherein the fixed ratio bit allocation step is characterized in that, when the data occupancy is equal to or less than a predetermined reference value, the number of bits allocated to a predetermined amount of unit data to be quantized is equal to or greater than the average number of bits. 3. The encoding method according to claim 2, wherein the fixed ratio bit allocation step is characterized in that the number of bits allocated to the unit data of a predetermined amount to be quantized is equal to or less than the average number of bits when the data occupancy is equal to or greater than another predetermined reference value. The encoding method of claim 2, wherein the variable bit allocation step saves bits in unit data in which bits remain for a predetermined amount of unit data to be quantized, and allocates the saved bits to unit data that lacks bits. Way. 3. The method of claim 1 or 2, wherein the bit allocation step comprises: allocating bits in order from a signal of a low frequency band to a signal to be quantized; And allocating bits such that a mask-to-noise ratio (MNR) of a signal of each frequency band is equal to or greater than OdB. CLAIMS 1. A method for decoding an encoded signal, comprising the steps of: inputting a signal encoded by the method of claim 1, comprising: deformatting the encoded signal and separating the signal into pure data components and additional information; Inversely quantizing a signal of the separated data component, receiving the separated additional information and providing bit allocation information necessary for the inverse quantization; And synthesizing a signal of each dequantized frequency component. 8. The decoding method of claim 7, wherein the providing of the bit allocation information provides the bit allocation information with the number of bits allocated for a predetermined amount of unit data in the quantization step of encoding. A coding apparatus comprising means for analyzing a frequency component of an input signal, and means for spectral analyzing the input signal to calculate a predetermined threshold level at which the noise cannot be detected due to auditory characteristics. A buffer for generating occupancy indicative of a stored degree; Means for adaptively allocating the number of bits required for quantization according to the threshold level calculated by the spectrum analyzer and the occupancy of the buffer; each output from the frequency analyzer according to the bit allocation information supplied from the bit assignment unit; And quantization means for quantizing a frequency component signal and supplying the quantized signal to the buffer. 10. The apparatus of claim 9, wherein the buffer stores data input at a variable rate and outputs the stored data at a fixed rate. 10. The apparatus of claim 9, wherein the bit allocation means comprises: means for comparing the buffer occupancy rate with a predetermined reference value; And means for allocating bits at a variable rate according to the comparison result. 12. The encoding method according to claim 11, wherein the comparing means sets first and second reference values having a predetermined size for buffer occupancy, and compares the buffer occupancy supplied from the buffer with the first and second reference values. Device. The encoding device according to claim 9 or 11, wherein the bit allocation means has a number of bits allocated for a predetermined amount of unit data to be quantized when the buffer occupancy is equal to or less than the first reference value. 12. The encoding apparatus according to claim 9 or 11, wherein the bit allocation means has a number of bits allocated for a predetermined amount of unit data to be quantized when the buffer occupancy is equal to or greater than the second reference value or less. 12. The apparatus of claim 9 or 11, wherein the bit allocation means saves bits in unit data in which bits remain for a predetermined amount of unit data to be quantized when the buffer occupancy is between the first reference value and the second reference value. And assigning the saved bits to unit data that lacks bits. 10. The encoding apparatus according to claim 9, wherein the bit allocation means allocates bits in order from a signal of a low frequency band to a signal output from the frequency analysis means. 17. The encoding apparatus according to claim 9 or 16, wherein the bit assignment means allocates bits so that MNR of a signal of each frequency component output from the frequency analysis means is equal to or greater than OdB. An apparatus for decoding an encoded signal, comprising: an input terminal to which a signal encoded by the encoding apparatus of claim 9 is input; Means for deformatting the signal applied to the input to separate the signal of the pure data component and the additional information; Means for dequantizing the signals of the separated data components; Means for receiving the separated additional information and providing bit allocation information to the dequantization means; And means for synthesizing a signal of each dequantized frequency component. ※ Note: The disclosure is based on the initial application.