DE2019280C3 - Electrical circuit arrangement for speech signal analysis - Google Patents

Abstract

1303808 Formant tracking vocoder PLESSEY CO Ltd 22 April 1970 [24 April 1969] 21000/69 Heading H4R In a formant tracking vocoder, Fig. 1, speech SP is fed to two channels to derive two formant frequencies of speech. Each channel includes a band stop filter F -1 or F -2 tuned to reject one formant frequency and a frequency discriminator F 2T or FIT to detect the frequency of the other formant. The output of the discriminators in each channel are utilized to tune the band stop filter in the other channel to reject the appropriate formant. A third channel may be provided including two band stop filters F -11 and F -22 to reject the two formants, each being tuned by the appropriate discriminator output, in order to provide a signal in which the pitch frequency can easily be determined by discriminator C 0 . Each formant discriminator may include a band reject filter with a phase sensitive detector connected between input and output with the integrated output of the detector controlling the filter tuning, and providing the discriminator output. In this arrangement the output from the band reject filter is a suitable signal from which the pitch frequency can be determined. Three formant tracker, Fig. 4.-The channel which includes the filter F -2 to reject the middle formant is fed to low pass and high pass filters LP1 and HP1 in order to separate out the lowest and highest frequency formants which are detected by respective discriminators. The outputs from these discriminators control respective filters F -1 and F -3 in the other channel in order to detect the middle formant. The three discriminator outputs control band stop filters F -11 , F -22 and F -33 in the pitch discriminator channel.

Description

The invention relates to an electrical circuit arrangement for speech signal analysis with two parallel transmission channels, each with a formant filter to remove a formant frequency the speech signal supplied to it and a formant recognition circuit for generating one of the in the output signal Contain the formant filter remaining formant frequency corresponding control signal.

In a known circuit arrangement of this type, signals are generated at the outputs of the transmission channels which correspond to a desired formant frequency. For this purpose, the speech signals are first filtered, and signals corresponding to the formant frequency are derived from the filtered signals. The individual channels are independent of one another, and there is no mutual influence of one transmission channel on another.
The invention is based on the object of designing a circuit arrangement of the type specified at the beginning so that, with a particularly simple structure, signals corresponding to formant frequencies and signals corresponding to the pitch of the speech signal to be analyzed can be generated at the same time.

According to the invention, this object is achieved in that the control signal from the formant recognition circuit of a transmission channel to the Fonnant filter of the other transmission channel for control its blocking characteristic is applied and that one fed with the speech signal, from the output signal at least a formant recognition circuit controlled measuring device for generating the pitch frequency the signal indicating the speech signal is present in the circuit arrangement according to the invention

the speech signal in each transmission channel is first filtered in a Fonnant filter, which is one of two assumed formant frequencies removed from the speech signal. These filters are in terms of their Locking characteristic controllable, which means that by means of

J5 of a control signal fed to the filter shows the position of the Minimum of the filter curve can be shifted. After filtering, the output signal contains the corresponding formant filter only one formant frequency, from which in the formant6ij: identification circuit

a signal is generated that is still after the filtering corresponds to the existing formant frequency. With the help of this signal, the blocking characteristic of the formant filter is determined of the respective other channel is set in the manner described This means that the output

«Signal of a channel affects the other channel and in this the blocking characteristic of the Formant filter controls To generate a signal that indicates the pitch of the speech signal, is used in the circuit arrangement according to the invention a measuring

device which is fed with the output signal of at least one channel. The of the invention Circuit arrangement emitted signals can be transmitted in a simple manner, and they can at a receiving location for speech synthesis

can be used.

Advantageous refinements of the invention are characterized in the subclaims

The invention will now be explained by way of example with reference to the drawing

1 shows a block diagram of an embodiment of a circuit arrangement according to the invention,

2 shows a diagram to explain the characteristic of a formant filter, as it is in the circuit arrangement from F i g. 1 is used,

F i g. 3 shows a block diagram of an exemplary embodiment of a formant recognition circuit and

4 shows a block diagram of a further embodiment the circuit arrangement according to the invention

In FIG. 1, a speech signal SP is shown which is shared by the inputs of two formant filters !! F-1 and F_2, which are contained in two separate channels. These filters have characteristics as shown by the solid line in FIG. The frequency at which the minimum of the in FIG. 2, corresponds to a formant frequency that is contained in the speech signal SP , the frequency at which the minimum lies can be changed in each ι ο filter F_i and F_2 by means of corresponding control voltages that are supplied via control lines Q and C _2. In this way, the filters F_i and F_2 remove the formant frequencies (according to the dashed line in FIG. 2) to which they are tuned so that the output of each filter F- \ and F_ ₂ provides a speech signal which contains only one formant frequency The outputs of the filters F- \ and F_ ₂ are fed to formant detection circuits Firund F ₂ T , which slowly change signals S; and generate S ₂ representative of the shape sequence f 1 and f ₂ . The signals S \ and Si are fed back to the Fonnant filters F-2 and F_i for control purposes. The signals Si and S ₂ are also fed to the control inputs of the filters F-ii and F-22, which belong to a measuring device and are connected in series; The speech signal SP is also fed to these filters. These filters F_n and F-22, the transfer functions of which have two zeros, suppress formants with the formant frequencies / i and & J "and the larynx signal / 0 remains. A display of the pitch frequency or the pitch frequency can be obtained ₀ by means of a Stimmlagenmeßeinrichtung C, said means may have the form of a pulse counting device, it can also be made of the autocorrelation method using a to the periodicity of the larynx signal to measure the method of measuring the periodicity using autocorrelation. is known per se and is basically based on a variable delay circuit to which the signal to be measured is fed, the output signal of the variable delay circuit and the actual signal being multiplied and the result signal then being integrated circuit from the delay value zero, the integrated output signal changes from a maximum value to a minimum value and back to a maximum value again, and from the delay that is required to change the output signal of the integrator from one maximum to the next, an indication of the periodicity can be obtained.

In the transmission of speech, a signal representing the pitch frequency or the pitch frequency output from the measuring device Co and the signals Si and S ₂ representing the formant frequencies f \ and / 2 can be transmitted through a telephone line and to to control a speech synthesis circuit can be used at the receiver, the speech signals SP restores Other control signals for producing sounds which do not originate from the larynx (e.g., Pfeifoder sibilants), but emanate from the teeth and lips, may also in restoring the speech signal used .

In Figure 3, a formant recognition circuit is shown, which in F i g. 1 can be used. The form recognition circuit consists of a filter F, where a phase-sensitive rectifier PSR is connected between its input F and output Fo.The output signal of this phase-sensitive rectifier PSR is integrated by means of the integration circuit / TV, and the integrated output signal is amplified with a high gain by means of an amplifier HG and fed back to the filter F in order to control its characteristic. The feedback signal to the filter Fbefindet to the minimum value if the filter characteristic is exactly adjusted to the formant frequency, which is measured, the feedback signal to the filter F is further used as a further output signal Fo 'The output signal F ₀ of the formant register shown in Figure 3 corresponds to the output signals Si or S ₂ in FIG. 2, while the output signal Fo corresponds to the output shown in FIG. The output signal F ₀ 'corresponds to the larynx signal, so that the pitch οφ * · pitch frequency can be displayed by means of a pitch frequency measuring device Ca , as in the case of the FIG. 1 shown circuit. The output signals Fo 'from both formant detection circuits or from one format detection circuit can be used to obtain an indication of the pitch or pitch frequency. When this type of formant detection circuit is used in the embodiment shown in FIG. 1 is used, the arrangement of filters F-ti and F-22 to produce an indication of the forehead position frequency can be omitted.

In FIG. 4, a further modification of the arrangement shown in FIG. 1 is shown. The circuit shown in Figure 4 is suitable for handling three-form speech; and three output signals Si, S ₂ and S ₃ with the formant frequencies n f \, h and / 3 are generated as in the arrangement in FIG. 1, the speech signal SP is fed to the formant filters F_i and F_2, which have characteristics that correspond to the formant frequencies / ι and h. Since it is assumed that the speech signal SP contains a three-form speech, the output signal of the filter F-1 has the formant frequencies / i and / 3, while the output signal of the filter F-2 is a speech signal containing the formant frequencies f 1 and H the output signal of filter _F-2 is a high-pass filter and a low pass filter HPi LPi supplied to the high-pass filter HPi is designed such that it transmits the formant frequency / 3, while blocking the Formantenfrequenz./1; the low-pass filter LPi passes the formant frequency / 1, but not the formant frequency & Pas Output signal of the low-pass filter ·; LPi is fed to a formant detection circuit F \ _T which generates an output signal Si which is used for the formant frequency :! f \ is characteristic. The output signal of the high- pass filter HPi is fed to a further formant recognition circuit Fit , which generates an output signal 53 which characterizes the formant frequency / 3

The output signal of the formant filter F ~ \ is fed to a further formant filter F_ ₃ , the output signal of which is a speech signal which only contains the formant frequency / 2; and this speech signal is supplied to a formant recognition circuit Fjr, the output signal Sj of which corresponds to the formant frequency A. The output signals Si, S ₂ and S ₃ are supplied to the formant filters F-1, F-2 and F_ ₃ so that their characteristics are controlled. Also be

they are fed to the form filters F-w, Fn and F-33 . The filter F_ _n, F-22 and F_ "are connected in cascade and the speech signal SP is supplied to the input of the filter F u applied to the output / 0 of the filter F-33 corresponds to the larynx signal, an indication of the voice pitch frequency may in turn means of the voice register frequency measuring device C ₀ as in the case of the FIG. I illustrated embodiment can be obtained.

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Electrical circuit arrangement for speech signal analysis with two parallel transmission channels, each containing a formant filter for removing a formant frequency from the speech signal fed to it and a formant recognition circuit for generating a control signal corresponding to the formant frequency remaining in the output signal of the formant filter, characterized in that the control signal from the formant recognition circuit (F \ t, fit) of a transmission channel to the formant (F- \, F ₂₎ of the other transmission channel is applied to control its reverse characteristic, and that a supplied with the voice signal (SP) controlled by the output signal of at least one Formanterkennungsschaltung measuring device ( F- n, F-22, G,) for generating a signal indicating the pitch frequency of the speech signal (SP) is present 2. Circuit arrangement according to claim 1, characterized in that with the formant filter (F- \, F- 2) and the formant detection circuit (F \ _T , Fit) one of the parallel channels, a low-pass filter (LPi) is connected in series that the output of the formant filter of this one channel is connected to a high-pass filter (HP 1), the output of which is connected to a further formant recognition circuit (Fij) , that the other channel contains a further formant filter (F- ₃ ) and that the output signal of the further formant recognition circuit (F ₃ τ) is applied to the further formant filter (F- ₃ ) for its control 3. Circuit arrangement according to claim 1 or 2, characterized in that each formant recognition circuit has a filter (F), a phase-sensitive rectifier (PSR ) which is fed with the input signals and the output signals of the filter (F) , and an integration circuit (IN) for Integrating the output of the phase sensitive rectifier (PSR) 4. Circuit arrangement according to claim 1 or 2, characterized in that the output each Formant recognition circuit connected to a further formant filter connected in cascade is that the speech signal is applied to the input of this further formant filter and that for Display of the pitch frequency the output signal of the formant filter connected in cascade is evaluated will. 5. Circuit arrangement according to one of the preceding claims, characterized in that the Measuring device contains a pulse counting device 6. Circuit arrangement according to one of claims I to 4, characterized in that the Measuring device an autocorrelation device for displaying the periodicity of the supplied Contains signals