RU92016428A - METHOD AND CODING OF DIGITAL SIGNAL - Google Patents

Claims (8)

1. A method of encoding a digital signal, in which the orthogonal conversion of the input digital signal is performed, splitting the orthogonally converted signal into signal components in the critical bands, encoding the signal components in the corresponding critical bands by the number of bits corresponding to the difference levels between the permissible noise level of each critical band, each of which are established by the values of the signal components of each of the critical bands, and the values of the corresponding critical bands, and dividing the orthogonally converted signals into blocks to perform block floating processing of each block to transmit floating coefficients of each block, characterized in that, in order to improve performance in the case of block floating processing of each small block whose width is less than the width of the critical strip, instead of the floating coefficients of each of the critical bands, information related to permissible noise levels is transmitted and information about word lengths corresponding to numbers is transmitted itov allocated for each of the small blocks. 2. A method of encoding a digital signal, in which the orthogonal conversion of the input digital signal is performed, splitting the orthogonally converted signal into signal components in critical bands, encoding the signal components in the corresponding critical bands by the number of bits corresponding to the difference levels between the permissible noise level of each critical band, set by the values of the signal components of each of the critical bands, and the values of the corresponding critical bands, and the division of orthogonally transformed signals into blocks to carry out block floating processing every blocks to transmit floating coefficients every blocks, characterized in that in order to increase speed,
- in the case of performing block floating processing of each large block, the width of which is greater than the width of the critical strip, transmit information related to the floating coefficients of each of the large blocks, and transmit information about the lengths of the layers corresponding to the number of bits allocated to each of the critical bands. 3. A method of encoding a digital signal, in which the orthogonal conversion of the input digital signal is performed, splitting the orthogonally converted signal into signal components in critical bands, encoding the signal components in the corresponding critical bands by the number of bits corresponding to the difference levels between the allowable noise level of each of the critical bands set according to the values of the signal components of each of the critical bands, and the values of the corresponding critical bands, and is divided e orthogonally transformed signals into blocks to carry out block floating processing every blocks to transmit floating coefficients every blocks, characterized in that, in order to increase speed,
- in the case of performing block floating processing of each small block whose width is less than the width of the critical strip, information about the length of words corresponding to the number of bits allocated for one small block from small blocks in the corresponding critical bands is transmitted.  4. A method of encoding a digital signal, in which the orthogonal conversion of the input digital signal is performed, splitting the orthogonally converted signal into signal components in critical bands, encoding the signal components in the corresponding critical bands by the number of bits corresponding to the difference levels between the allowable noise level in the critical band set by the values of the signal components of each of the critical bands, and the values of the corresponding critical bands, and the partition information of the converted signals to blocks for performing block floating-point processing of each block for transmitting floating coefficients of each of these blocks, characterized in that, in order to improve performance, in the case of performing block floating-processing of each small block whose width is less than the width of the critical strip, information is transmitted about word lengths corresponding to the number of bits allocated for each of the small blocks, and instead of floating coefficients of each of the critical bands transmit information related to allowed noise levels, each predetermined range of which is shifted towards lower levels by a predetermined level from signal level ranges in respective critical bands.  5. The encoding method according to paragraphs. 1-4, characterized in that the orthogonal transform is a discrete cosine transform.  6. The method of encoding a digital signal according to paragraphs. 1-4, characterized in that the critical band is divided into 25 bands in the frequency range from 0 to 22 kHz, and with increasing frequencies, the bandwidth increases.  7. The method of encoding a digital signal according to paragraphs. 1-4, characterized in that the value of the signal components of each of the critical bands is the total sum of the amplitude information about the spectral intensities of each of the bands.  8. The method of encoding a digital signal according to claim 7, characterized in that the total sum of the amplitude information is such that the predetermined weighting function is further reduced, which entails the inclusion in the amplitude information of the masking effect of auditory perception.