DE2836371A1 - Speech intelligibility improvement method for noisy environment - splitting signal into frequency bands whose amplification is differently adjusted - Google Patents

Abstract

The technique applies to loudspeaking telephones in noisy rooms. The electric signal allocated to the speech is split before electroacoustical convertion into several frequency bands, and their amplification is differently adjusted in accordance with the intensity and spectral distribution of the noise in the reproduction room, or with a measurable physical variable related to the noise. The control circuit comprises a main control unit (11) interconnected with a coefficient-store (2). There are cross lines with the frequency band amplifier (4), a frequency band amplifier, a terminal unit (6) and a loudspeaker (7).

Description

Procedure to improve the intelligibility of the speech

playback, especially from telecommunication terminals with loudspeakers with superimposition of noises in the playback room "The invention relates to a method to improve the intelligibility of speech reproduction, in particular from telecommunication terminals with loudspeakers when noises are superimposed in the playback room.

In many communications technology applications, voice reproduction is Disturbed by acoustic noises. Examples are: office telephones and intercoms in large rooms or halls, where due to work-related devices and machines have a background noise level. Often there are other noises due to traffic noise. Furthermore, radio intercom systems are witness Ships, airplanes and trains to name where the intelligibility of the language is disturbed by driving and drive noises. But also with telephone systems The problems mentioned occur with loudspeakers and with radio receivers.

It is known the volume of a radio receiver in motor vehicles depending on the speed of the motor or after measuring the noise level in the engine compartment to automatically listen to music and speech during the Adjust the ride to the changed noise level. However, the known method has the disadvantage that the level is raised evenly in the entire frequency range and that thereby the overall noise level in the motor vehicle in an undesirable manner gets too big. Also, due to the properties of human hearing In this process, the high notes are covered by the low notes.

The invention is based on the disadvantages of the known Avoid prior art and especially with speech reproduction with simple Means to increase the intelligibility.

The task is thereby achieved in a method of the type mentioned at the beginning solved that the electrical signal associated with the language before the e lektris ch-akns table implementation is split into several frequency bands and depending on on the intensity and spectral distribution of a superimposed noise in the reproduction space or a measurable physical one related to this noise Size the gain factors of the individual frequency bands different be raised.

The inventive method has the advantage that the language as Useful signal can be optimally adapted to the existing noise level.

It is useful to raise the gain factors of each To raise frequency bands according to a logarithmic law and when a limit the upper threshold. This increases the naturalness of speech reproduction at low noise levels only slightly influenced and only when the noise level begins to make intelligibility more difficult, the method according to the invention becomes clearly effective. The limitation of the gain factors from a given one The upper threshold prevents the amplifier from being overdriven in individual frequency bands.

It is known that useful signals are high in broadband reproduction Tones covered by deep tones, but not the other way around. Attempts by Feldkeller and Zwicker ("Das Ohr als Nachrichtenempfänger", Hirzel-Verlag, Stuttgart (1967)) have showed that the human ear no longer or the high tones of a useful signal only perceives throttled when broadband noise, which also shares in the range contains lower tones, is superimposed. This effect can with the invention Solution can be used to advantage in which the high spectral components of speech are raised more than the lows.

In work rooms, the source of noise is often a permanently installed one Machine whose noise spectrum, for example dependent on the speed, is known or can be measured once. It is therefore at mechanical noise sources in the playback room relatively simple, a die Noise source and its spectral power characteristic physical quantity measure and, as a function of this variable, the gain factors of the individual Determine and set frequency bands.

In cases where this is not easily possible, it is advisable to by means of an additional measuring circuit from the noise source in the playback room Noises generated by a microphone and an amplifier are largely decoupled to measure from the acoustic useful information and depending on the intensity and spectral distribution of the noise power the amplification factors of each To determine frequency bands. Especially with constantly changing noise sources it turns out to be favorable, depending on the intensity and spectral distribution the noise source reassigns the amplification factors for the frequency bands determine and adapt to the different noises.

In many cases, it is not enough to just specify the reinforcement factors of each Frequency bands can only be set according to the intensity of the noise source. Even the intensity of the language must be taken into account. A further development of the invention therefore provides that the current time power density spectrum of the useful information both is measured before playback as well as during playback of the useful information, that the difference between the two short-term spectra is formed and that according to the measure the difference is used to set the gain factors in the various frequency bands will. The circuit that controls the strengthening factors adjusts designed as a control loop, so that from the difference of the short-term spectra a nominal value for the short-term spectrum of the useful information is determined and the The actual value of the useful information is always compared with its setpoint and readjusted will.

When using a microcomputer, it is expedient to determine of the desired value of the useful information, the cross-correlation power density between the useful signal and the useful signal superimposed by noise and the cross-power spectrum used to determine the setpoint.

Voice transmission systems that use the Using frequency or phase modulation are for better noise suppression designed for high-frequency transmission with a pre-emphasis in the LF frequency response. On the receiving side, the LF amplifier has a de-emphasis, which the transmitter side Reverses the treble increase. With such systems it is particularly easy to in the receiver depending on superimposed noises in the playback room a measurable physical quantity characterizing the noise to control the deemphasis or to regulate, so that it is continuously ineffective controlled with increasing environmental noise or is regulated. In less complex systems it is usually sufficient if there is already one Noise to switch off the deemphasis.

Another advantageous embodiment of the invention provides superimposed noises by switching on at least one non-linear module, for example two diodes connected in anti-parallel or a VDR resistor the Bandwidth when reproducing the useful information due to distortion to increase the useful information.

I The invention will now be illustrated with reference to in drawings Embodiments explained in more detail. They show in detail: FIG. 1: Control the gain coefficient as a function of physical quantities of an oc.r multiple sources of noise; Figure 2: Control of the gain coefficients as a function of the noise intensity of a "noise source; FIG. 3: Control of the gain coefficients depending on the cross-correlation power density and its spectral distribution.

In Figure 1, the useful signal (voice signal) of a voice reproduction device first fed to a preamplifier 4 and then via a frequency response controlled Amplifier 51 and a downstream power amplifier 6 a loudspeaker 7, which should reproduce the language.

The controller is used to control the frequency response controlled amplifier 11, the signals emitted by the controller via evaluation elements 31 to 3m B1 to Bm controls.

In this case it is assumed that it is the disturbing noise source or the disturbing noise sources to mechanical noise sources such. B. Working machines or vehicle engines. From such sources of noise a their physical search parameters characterizing spectral power density such as speed of a motor, the speed of a reciprocating part and / or the Frequency of pulses from clock-controlled machines can be measured and in Borm electrical Signals A1 to An are fed to the controller 11. For example, if one of the Speed signal supplied to the controller, so it can easily be determined the frequencies of the noise source depending on the speed are preferably given off and have a disruptive effect. To the language in presence The frequency-controlled, for example, can now understand these noises well Amplifier can be set manually so that an optimal speech reproduction despite present noise is possible.

The determined gain factors of the individual frequency bands are then stored in a memory 2, which is connected to the controller 11 is in connection, so that in this embodiment the control is dependent of the physical quantity, for example the respective speed by means of a the table stored in the coefficient memory 2, the evaluation elements B1 to 3m can adjust to the saved values.

In Figure 2, an embodiment is shown in which the gain coefficients can be controlled depending on the noise intensity of a noise source.

The same units that have already been introduced in FIG. 1 are marked with provided with the same designations. As a frequency response controlled amplifier is in this For example, an amplifier is chosen whose frequency response increases with the noise level is controllable so that the high frequencies are raised and the lower frequencies be lowered. Such a frequency response control can be costly with little Facilities with a single control line from the controller 12 can be encompassed. With more comfortable facilities, especially when with different sources of noise are to be expected, it is more practical to use the control As in Fig. 1, according to the spectrum of the noise source, the frequency response of the frequency response controlled amplifier.

Since this embodiment is provided for cases where the spectrum of the noise source is not known, using an additional Measuring circuit over the noise generated by the noise source in the playback room a microphone 9 measured largely decoupled from the acoustic useful information. The spectrum analyzer 8, which simultaneously can also contain the microphone amplifier at its input. In dependence of the intensity of the spectral distribution of the noise power are now controlled by the controller 12 with the aid of the coefficient memory associated with it 2 the gain factors or the frequency response of the frequency response-controlled amplifier 52 adjustable. This embodiment and also the following are special suitable if the noise sources are non-stationary sources, which therefore have temporally different and unknown noise spectra.

While in Fig. 2, the microphone that picks up the noise of the useful information was not applied, either because it was sufficient Distance from the speaker 7 was attached or such a directional characteristic has that there is a minimum sensitivity from the direction of the loudspeaker 7, or because instead of a sound 7 speakers provided headphones is, it is assumed in the embodiment of FIG. 3 that in addition to the noises a portion of the useful information, i.e. the speech, is also picked up by the microphone will. For this case it is provided that the short-term power density spectrum of Useful information both before the reproduction and when the useful information is reproduced what is measured is that the difference between the two short-term spectra is formed and that in accordance with the difference the gain factors in the various Frequency bands can be set. For measuring the short-term power density spectrum and in the exemplary embodiment, device 81, an serves to form the difference the two inputs of which are the useful electrical signal directly and the one emitted by the microphone Total signal are fed. The device 81 then controls the controller 12 and this in turn, in connection with the memory 2, a frequency response-controlled Amplifier 52 in accordance with the evaluation result of device 81.

The device 81 can also be designed so that it consists of the Difference between the short-term spectra is a setpoint for the short-term spectrum of the useful information is determined and the actual value is always compared with the setpoint and readjusted. the Regulation can take place, for example, via the controller 12 and the amplifier 52. Furthermore, the device 81 can also be designed in such a way that it has the cross-correlation power density forms between the useful signal and the useful signal superimposed by noise and the cross-power spectrum for determining the setpoint for controlling the frequency response-controlled Amplifier 52 is used.

The devices 81, 12 and 2 can also be implemented as microcomputers which makes them particularly flexible.

The analog signals to be fed to it are then of course to a value that is favorable for an analog / digital converter, and each to convert analog / digital.

There is also a converter between the microcomputer and the frequency-controlled one Amplifier 52 is required, which in turn the digital signals of the microcomputer converts into analog signals for the amplifier 52.

The measures taken to improve the intelligibility of speech reproduction radiotelephone systems with frequency or phase modulation and deemphasis are advantageous are in which the I? eemphasis in the receiver as a function of superimposed noises in the playback room by a measurable physical quantity characterizing the noise controlled or regulated, were not represented by a figure, since the Realization of this process does not encounter any technical difficulties.

It is also not difficult to implement a process in which, when a noise is present, the I) eemphasis of the playback device is easy is switched off.

Likewise, the realization of the "drifting away" of the useful information prepares no problems superimposed on the useful signal, so that in In this case, an exemplary embodiment was dispensed with.

Claims (13)

Claims. (?.) Procedure to improve the intelligibility of the speech reproduction, in particular of telecommunication terminals with loudspeakers when noises are superimposed in the playback room, characterized in that the electrical associated with the language Signal split into several frequency bands before the electrical-acoustic conversion is and depending on the intensity and spectral distribution of a superimposed Noise in the playback room or one related to this noise measurable physical quantity the amplification factors of the individual frequency bands be raised differently. 2. The method according to claim 1, characterized in that the gain factors of the individual frequency bands are raised according to a logarithmic law and at Reaching an upper threshold are limited. I 3. The method according to claim 1 or claim 2, characterized in that that in particular the gain factors of the frequency bands in the range of the higher Frequencies in the presence of noise are raised more than the gain factors of the low-frequency frequency bands. 4. The method according to any one of claims 1 to 3, characterized in that that in the case of mechanical noise sources in the playback room (work machines or vehicle engines) a physical characterizing the noise source and its spectral power density Size (speed, speed and / or frequency of pulses) is measured and that depending on this size, the gain factors of the individual Frequency bands are determined. 5. The method according to any one of claims 1 to 3, characterized in, that by means of an additional measuring circuit from the noise source in the playback room Noises generated by a microphone and an amplifier are largely decoupled measured by the acoustic useful information and depending on the intensity and spectral distribution of the noise power the amplification factors of each Frequency bands are determined. 6. The method according to claim 5, characterized in that as a function on the intensity and spectral distribution of the noise source (s), in particular with traffic noise or Noises caused by different (mobile) Work machines, the gain factors for the frequency bands are determined anew in each case and adapted to the different noises. 7. The method according to any one of claims 1 to 3, characterized in that that the short-term power density spectrum of the useful information both before reproduction as well as when reproducing the useful information is measured that the difference is formed between the two short-term spectra and that according to the difference the gain factors can be set in the various frequency bands. 8. The method according to claim 7, characterized in that from the Difference between the short-term spectra is a setpoint for the short-term spectrum of the useful information is determined and the actual value is always compared with the setpoint and readjusted will. 9. The method according to claim 7 or 8, characterized in that the Cross-correlation power density between the useful signal and that of noise superimposed useful signal is formed and that the cross-power spectrum for determination of the setpoint is used. 10. The method according to any one of the preceding claims, in particular for radio communication systems with frequency or phase modulation and pre-emphasis, thereby characterized that the deemphasis in the receiver as a function of superimposed Noise in the playback room by a measurable physical characteristic of the noise Size is controlled or regulated. 11. The method according to claim 10, characterized in that when present Noise that de-emphasis is switched off. 12. The method according to any one of the preceding claims, characterized in, that with superimposed noises by switching on at least one non-linear Block the bandwidth when reproducing the useful information by "cluttering" the useful information is increased. 13. The method according to any one of the preceding claims 1 to 9, characterized characterized in that the gain factors, short-term power density spectra and / or Cross power density spectra calculated using a microcomputer in each case will.