RU2003104222A - METHOD AND DEVICE FOR CONVERSION OF SPEECH SIGNAL BY METHOD OF LINEAR PREDICTION WITH ADAPTIVE DISTRIBUTION OF INFORMATION RESOURCES - Google Patents

Claims (4)

1. A method of converting a speech signal by linear prediction, which means that a short-term linear prediction filter is identified during encoding, the identification result is expressed by a linear spectral frequency vector, which is directly quantized by a vector quantizer, a quantized linear spectral frequency vector, and the frequency response of a short-term linear prediction synthesizing filter is generated , the excitation signal of the short-term linear prediction filter set by a linear combination of scaled stochastic and quasiperiodic components contained in the corresponding code books and determined by the analysis procedure by synthesis according to the criterion of the minimum mean-square weighted error between the processed frame of the speech signal and the synthesized frame, a combination of a binary multiplicative code containing information on the quantized code is used for transmission over the communication channel linear spectral frequency vector, code vectors of excitation signal components and their scaling coefficients, when decoding, they form a frame of the speech signal with a synthesizing filter of short-term linear prediction, the frequency response and the excitation signal of which are formed in accordance with the information contained in the code combination received from the communication channel, characterized in that the phono-acoustic classification of the processed frames is used for encoding speech signal into four disjoint classes, performed simultaneously with the short-term filter identification procedure linear prediction, the classification solution is included in the structure of the code combination transmitted over the communication channel, and is used to determine the functioning mode of the classified vector quantizer and dequantizer, which differ in different volumes of code books for each encoded parameter, which ensures adaptive distribution of information resources. 2. A linear conversion prediction speech conversion device containing a short-term linear prediction filter identifier (IFPC), a vector quantizer of linear spectral frequencies (VLCSH), codebooks of stochastic and quasiperiodic components of the excitation signal and their scaling factors, an analysis system through synthesis as a part filter for the synthesis of short-term linear prediction (FSKLP), a weighting perceptual filter (IEF) and a determinant of minimum error, device ph code combination generator (UFCC), comprising a code combination separation device (URCM), a vector linear spectral frequency dequantizer (VDLCCH), code books of stochastic and quasiperiodic excitation signal components and their scaling coefficients, and a short-term linear prediction synthesis filter, characterized in that which contains an acoustic-phonetic classifier (AFC) of the processed frames of the speech signal into four disjoint classes, the output of which It is connected to the control inputs of the high-frequency oscillator, codebooks of the stochastic and quasiperiodic components of the excitation signal and their scaling factors, (UFKK). 3. The device according to claim 2, characterized in that (UFKK) and (URCK) have four modes of formation and separation of the code combination, respectively, controlled by the classification decision (AFC) and differing by the distribution of the number of bits allocated for encoding the speech frame according to the encoded parameters without changing the total bit depth of the code combination. 4. The device according to claim 2, characterized in that it contains classified (ONSCH), (VDKSCH), code books of the stochastic and quasiperiodic components of the excitation signal and their scaling coefficients, which are part of the encoder and decoder, having additional control inputs, to which classification solution from (AFC), and containing different codebook options for each class of speech frames, differing in the number of code vectors.