SU1043737A1 - Method and apparatus for forming signals controlling synthesis of speech - Google Patents

Abstract

1. A method of generating signals, controlling the synthesis of speech, concludes in their decoupling at the expense of sequential cclic indirect conversion of two input signals, one of which is shifted relative to the other in time, in multiplying one of the input signals to the control signal and receiving two output signals due to the parallel summation of the result of multiplication and the second input signal, moreover in the first cycle. the input signals are generated from the original speech signal, characterized in that, in order to improve the quality of speech synthesis, their total and difference values and the intensity ratio of the received signals are determined from the input signals and the latter are used in each CO conversion cycle to control the equalization of these signals intensity, as well as speech synthesis control signals. /

Description

WITH

one

with

2. An apparatus for carrying out the method of Claim 1, consisting of series-connected blocks, each of which contains a delay element, a multiplier and two output adders, characterized in that, in order to improve the quality of speech synthesis, a meter is inserted into each of the blocks intensity ratios and an additional pair of adders, the first input of each block, respectively, through the delay element is connected to the first inputs of the additionally entered adders, the second inputs of which are connected to the second input of the block; one of the four inputs of the adders

is inverse, the outputs of the additionally entered adders are connected respectively to two inputs of the ratio of signal intensities, the output of the control signal of which is also connected to the control input of the multiplier, to the second input of which the output of one of the additionally added adders is connected, and the output of the other adder is connected to the first inputs of the output pair of adders, to the second inputs of which the output of the multiplier is connected, while one of the four inputs of the output pair of adders is inverse.

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The invention relates to communications equipment and can be used in speech recognition and synthesis devices,.

Methods are known for generating signals of primary parameters of speech synthesis control, which use linear prediction parameters, and devices for implementing these methods.

A known method of generating speech synthesis control signals consists in extracting them by sequentially cyclically transforming two input signals, one of which is shifted relative to the other in time, determining partial correlation coefficients, multiplying them by the original and delayed signals, and receiving parallel counting result of the multiplication and input signals 2J.

It is also known a device that implements the specified method of forming

Speech synthesis control signals, containing a delay element, a correlometer, multipliers and adders, in which the input circuits are connected to the inputs of these blocks, the second inputs of the multipliers are connected to the outputs of the correliometer, and the second inputs of the adders - to the outputs of the multipliers 2.

The disadvantage of this method and

The device is unstable speech synthesis due to the fact that the primary parameters used are sensitive to distortion and interference.

The aim of the invention is to improve the quality of speech synthesis. The goal is achieved by the fact that according to the method of generating speech synthesis control signals I, consisting in their separation: due to sequential cyclic nonlinear conversion of two input signals, one of which is offset from the other in time, multiplying one of the input signals to the control signal and receiving two output signals by parallel summing the result of the multiplication and the second

input signal, the input signal being formed from the original speech signal in the first conversion cycle, the sum and difference values and the intensity ratio of the received signals are determined from the input signals and the last signal in each conversion cycle is used to control the alignment of these signals in intensity and speech synthesis control signals. .

In addition, the device contains. sequentially connected blocks, each of which contains a delay element, a multiplier and two output adders, an intensity ratio meter and an additional pair of adders are entered into each of the blrks, the first input of each block, respectively, is connected to the first inputs of the additional adders added through the delay element; the inputs of which are connected to the second input of the block, while one of the four inputs of the adders is inverse, the outputs of the additionally entered adders are connected respectively o with two inputs of the ratio meter

signal intensities, the output of the control signal of which is also connected to the control input of the multiplier, to the second input of which the keys output one of the additional entered adders, and the output of the other additionally entered adder is connected to the first inputs of the output pair of adders, the second multiplier of which is connected to the output of the multiplier , while one of the four inputs of the output pair of adders is an investment:. The drawing shows a functional block diagram of a device conversion unit that implements the proposed method. . Each conversion unit contains two inputs 1 and 2, a delay element 3, adders 4 and 5, an intensity ratio meter b, a smart knife 7, an output signal of 8 directors, adders 9 and 10, and outputs 11 and 1 The device operates as follows, -. Hai two inputs of the device unit are given signals from the outputs of the previous unit. Moreover, the signals from signals 3 are held by an elec- tion of 3 delays and N; the outputs of the adders 4 and 5 form a total on one and a difference on another voltage, which are fed to the inputs of the intensity ratio meter b. The signal from the output of the adder 4 is fed to the input of the multiplier 7, the signals from the output of the multiplier 7 and from another adder 5 are fed to the inputs of the adders 9 and 10. The outputs of the adders 9 and 10 are the outputs of the block, the signal from the output of the intensity ratio meter b is applied to the control 5 input multiplier 7 in this phase. In which the control signal of the multiplier 7 equalizes the intensities of the signals at the output of the multiplier 7 and at the output of the adder 5. The signal at the Output of the intensity meter b is a signal for controlling the synthesis of speech of this block. A speech synthesis control signal generating unit consists of sequentially connected blocks. An empty speech signal is applied to the two inputs of the first device block. Using the above method and device for generating speech control signals will improve its quality.

Claims (2)

1. A method of generating signals (control of speech synthesis, which consists in isolating them through a sequential cyclic nonlinear. ·> Conversion of two input signals, one of which is offset relative to the other in time, by multiplying one of the input signals by a control signal and in obtaining two output signals due to the parallel summation of the result of multiplication and the second · input signal, moreover, in the first cycle.conversion input signals are formed from the original speech signal m, that, in order to improve the quality of speech synthesis, from the input signals their total and difference values and the ratio of the intensities of the received signals are determined and g are used in each cycle> transformations' to control the alignment of these signals, and /) equalization of these signals | V * sivnosti, as well as control signals for speech synthesis. / | / 2. The device for implementing the method according to claim 1, consisting of series-connected blocks, each of which contains a delay element, a multiplier and da output adders, characterized in that, in order to improve the quality of speech synthesis, an intensity ratio meter is introduced into each of the blocks and an additional pair of adders, with the first input respectively. Accordingly, each of the blocks is connected through a delay element to the first inputs of the additionally input adders, the second inputs of which are connected to the second input of the block, while one of the four inputs of the adders is inverse, the outputs of the additionally input adders are connected respectively to two inputs of the signal intensity ratio meter, the output the control signal of which is also connected to the control input of the multiplier, to the second input of which the output of one of the additionally entered adders is connected, and you the progress of another adder is connected to the first inputs of the output pair of adders, to the second inputs of which the output of the multiplier is connected, while one of the four inputs of the output pair of adders is inverse; nym.