SU530340A1 - Speech to Pulse Sequence Synchronized with Pitch - Google Patents

Description

The invention relates to radio engineering and can be used in speech spectrum compression systems when transmitting it over communication channels with low bandwidth.

A known speech-to-pulse converter that is synchronous with the pitch, contains a combination of bandpass filters with constant parameters, delay blocks, rectifiers, low-pass filters (LPF), dividers, phase loops controlled by signals from the calculator of the minimum phase characteristic, and an adder . The known transducer aligns the envelope of the current amplitude spectrum of speech using a comb of bandpass filters with constant parameters and a further phase correction of the aligned components of the spectrum, using my controlled phase circuits. Phase loop control signals come from a calculating device with a minimum phase response.

The disadvantage of the known converter is the constancy of the characteristics of the filter bank, which does not allow to take into account the dynamics of the phase-amplitude characteristics of the speech signal in a continuous speech flow, npii in stationary signals at the output of the comb) Trov are phase-shifted. Phase correction

With the help of controlled phase loops, the signals from the calculating device have a minimal phase characteristic very roughly. As a result, the resulting signal has a distorted phase response.

In the real case, due to the dynamics of speech parameters, transients of constant bandpass filters of the comb form false components of the speech spectrum envelope, which through the phase-calculating device and phase contours affect the output signal and lead to a significant complication of the output signal on the period of the main signal. current (in particular, to the appearance of false pulses).

The aim of the invention is to eliminate the distortion of the pulse waveform.

This is achieved by the fact that the adaptation blocks, logarithmic amplifiers, are inserted into a speech converter in a pulse sequence synchronous with the main tone, containing an adder and connected at the input of parallel-connected circuits, each of which is made as a delay unit and sequentially connected rectifiers and a frequency filter. and an exponential amplifier, while at the input of each circuit, except the first one, adaptation blocks are included, the outputs of which and the input of the first circuit through

the delay blocks are connected to the inputs of the rectifier, and the low-pass filter outputs of each circuit through the corresponding log-amplifiers — and the adder are connected to the input of the exponential amplifier.

Such a converter allows to obtain at the output a pulse sequence synchronous with the main tone, with an undistorted phase-amplitude spectrum.

The drawing shows a structural electrical converter circuit.

A speech converter into a pulse sequence synchronous with the main tone contains n parallel-connected circuits, each of which consists of a series-connected delay block 1, rectifier 2, low-pass filter 3 and a logarithmic amplifier 4, the outputs of which are connected to the input of each circuit through the adder 5 amplifier 6 connected to the output of the converter. At the input of each circuit, except the first one, adaptation blocks 7 are included, the inputs of which are combined with the input of the delay unit I of the first circuit and the input of the converter.

The speech converter works in the following way.

The input signal x (t) is fed to the input of the delay unit I of the first circuit and to the inputs of the adaptation blocks 7 of the remaining n-1 circuits. At the outputs of the adaptation blocks 7, signaling terminals y are formed (t .... z / ni (0- Then, in the converter, each of the circuits consisting of delay unit I, rectifier 2 and low pass filter 3) realizes the receipt of current signal-residual dispersions and input Signal system. The system of logarithmic amplifiers 4, adder 5 and exponential amplifier 6 converts the resulting dispersions into their product Mn (t},

equal to the determinant of the Gram matrix. The temporal function Mn (t) is a pulse sequence synchronous with the main tone, with a clear single pulse on a period in which there are no

oscillatory components and no phase-amplitude distortion.

Claims (1)

Invention Formula A speech converter into a pulse sequence synchronous with the main tone, containing an adder and connected at the input into parallel-connected circuits, each of which is made as a delay unit and sequentially connected rectifiers and a low-pass filter, characterized in that, in order to eliminate shape distortions a pulse signal, adaptation blocks, logarithmic amplifiers and an exponential amplifier are introduced, while the adaptation blocks are included at the input of each circuit, except for the first one, whose outputs and the first pi through delay units connected to the inputs of the rectifiers, and the outputs of the low-pass filters of each circuit through the corresponding logarithmic amplifiers and the adder are connected to the input of the exponential amplifier.