EP3965434A1 - Method for improved sonication of a plurality of sonication areas - Google Patents

Abstract

Method for sound reinforcement of at least two sound reinforcement positions (A, B, C, D) of a sound reinforcement arrangement, each sound reinforcement position (A, B, C, D) having at least one sound generating device (3) and at least one microphone (2) in each case, the Public address arrangement has an audio signal processing device (1) which has at least one amplifier unit and at least one digital signal processing unit, acoustic interference signals being detected at the respective public address station (A, B, C, D) by means of the microphone (2) and the respective microphone output signal (∑N ) is provided to the audio signal processing device (1), the audio signal processing device (1) providing the sound generating device (3) of each sound reinforcement station (A, B, C, D) with a useful signal (S) and a compensation signal (K), with this compensation signal (K) in the audio signal processing device (1) depending on the microphone output signal (∑N) un d of the useful signal (S) of the corresponding sound reinforcement station (A, B, C, D) is generated and/or calculated.

Description

The invention relates to a method according to the preamble of claim 1.

The invention is based on the object of proposing a method and a public address system with which an improved and/or more cost-effective and/or more efficient and/or more effective public address system for a plurality of public address stations can be provided.

This object is achieved according to the invention by the method according to claim 1 and the public address arrangement according to claim 9.

The signal processing unit preferably has at least one sound processor unit and in particular at least one additional microprocessor.

• eine definierte hinterlegte oder durch die Audiosignalverarbeitungseinrichtung berechnete Mithörschwelle, zur Verringerung des Mithörens zwischen verschiedenen Beschallungsplätzen, und insbesondere das Nutzsignal und das Kompensationssignal für eine oder jeweils für mehrere Beschallungsplätze in Abhängigkeit der Mithörschwelle und bevorzugt einer Übertragungs- und/oder Übersprechfunktion zwischen definierten Beschallungsplätzen durch die Audiosignalverarbeitungseinrichtung berechnet und bereitgestellt wird und/oder
• einen Sprachverständlichkeitsindex, welcher für jeden Beschallungsplatz durch die Audiosignalverarbeitungseinrichtung berechnet wird und insbesondere das Nutzsignal in Abhängigkeit des Sprachverständlichkeitsindex berechnet wird, damit Sprachsignale an dem Beschallungsplatz eine Mindestsprachverständlichkeit aufweisen, und/oder
• ein Geräuschunterdrückungssignal in der Audiosignalverarbeitungseinrichtung für wenigstens einen Beschallungsplatz berechnet wird und mittels des Kompensationssignals bereitgestellt wird und/oder
• ein Maskierungssignal durch die Audiosignalverarbeitungseinrichtung berechnet wird zur Maskierung definierter Geräuschanteile in und/oder an einem Beschallungsplatz.

It is preferred that in the audio signal processing device the generation of the useful signal and/or the compensation signal for one or more sound reinforcement positions is carried out and/or calculated as a function of at least one or more of the following parameters:

• a defined, stored listening threshold or one calculated by the audio signal processing device, to reduce listening between different PA stations, and in particular the useful signal and the compensation signal for one or for a plurality of PA stations depending on the listening threshold and preferably a transmission and/or crosstalk function between defined PA stations by the Audio signal processing device is calculated and provided and / or
• a speech intelligibility index, which is calculated for each sound reinforcement station by the audio signal processing device and in particular the useful signal is calculated as a function of the speech intelligibility index, so that speech signals at the sound reinforcement station have a minimum speech intelligibility, and/or
• a noise suppression signal is calculated in the audio signal processing device for at least one sound reinforcement station and is provided by means of the compensation signal and/or
• a masking signal is calculated by the audio signal processing device for masking defined noise components in and/or at a sound reinforcement station.

A masking signal is preferably understood to mean noise or an additional sound signal, which is superimposed on the useful signal by means of the compensation signal and reduces the perception or perceptibility of an interference signal Frequency band or group of frequencies comprising at least one significant frequency or frequency band of the interfering signal or adjacent thereto in terms of spectrum.

It is preferred that at least one of the sound reinforcement stations has an operating element with which the volume of the playback can be adjusted by the sound generating device of the sound reinforcement station, in particular within defined limits, a minimum volume and/or maximum volume.

It is expedient for the noise suppression signal for a sound reinforcement station to be generated/calculated as a function of the useful signals and the microphone output signals of the other sound reinforcement stations and in particular an acoustic transfer function between two or more or two sound reinforcement stations each.

The noise suppression signal is preferably calculated in the audio signal processing device for at least one sound reinforcement station and made available by means of the compensation signal.

It is preferred that the usable part of the audio signal processing device required for the respective sound reinforcement station is in each case or at least a case is arranged in or at the sound reinforcement station structurally separate from the rest of the audio signal processing device.

• Sprachverständlichkeit und/oder
• optimierter Klang und/oder
• Privatheit, geringe Verständlichkeit oder Nichtverständlichkeit der Beschallung an einem anderen Beschallungsplatz, insbesondere mittels eines Maskierungssignals und/oder eines Geräuschunterdrückungssignals, in Abhängigkeit des Nutzsignals eines anderen Beschallungsplatzes, dessen Privatheit gewährleistet werden soll und/oder
• Unterdrückung und/oder Maskierung von Störgeräuschen,

wobei mehrere dieser Zielkriterien/Parameter insbesondere gewichtet berücksichtigt werden.It is expedient that the parameters for calculating the useful signal and/or the compensation signal of one or more public address stations are generated with regard to one or more of the following target criteria/parameters,

• Speech intelligibility and/or
• optimized sound and/or
• Privacy, low intelligibility or non-intelligibility of the sound reinforcement at another sound reinforcement station, in particular by means of a masking signal and/or a noise suppression signal, depending on the useful signal of another sound reinforcement location whose privacy is to be guaranteed and/or
• suppression and/or masking of background noise,

several of these target criteria/parameters being taken into account in a particularly weighted manner.

A target criterion is preferably understood to be a value of a direct or indirect measured variable, such as a characteristic value extracted from a measured signal. The target criterion is based in particular on the characteristic values of the speech intelligibility index or the listening threshold. For example, a target criterion speech intelligibility index can be used for a public address station to ensure the speech intelligibility of a telephone call made at this public address station. Alternatively, a target criterion speech intelligibility index can be used, for example, to prevent the speech intelligibility of a telephone call at another PA station for one's own PA station, in order to ensure privacy. With the help of a target criterion implemented, for example, by means of a listening threshold, it can be ensured that a music signal presented at a PA station always exceeds the listening threshold determined from existing interference signals, in order to ensure that no information loss occurs during the music performance. To achieve a target criterion, adjustments to the amplitudes of the can expediently presented signals at the PA stations, the use of masking signals or the use of noise suppression signals.

It is preferred that at least one or both or all of the sound reinforcement positions have a chair, in particular for sound reproduction, which has a backrest surface or backrest surface and a headrest surface and has at least a first and a second actuator for exciting vibrations, with each of these two actuators in is arranged in the stalls, so that the first and second actuators are each arranged with their excitation surface on the inside of a covering of the headrest surface or the inside of a covering of the backrest surface at essentially the same height.

The sound reinforcement station preferably comprises the seating of a sound reinforcement arrangement, in particular including the environment acoustically directly surrounding or enveloping the person using the seating.

The method and the public address system are preferably designed in such a way that emergency signals or warning signals, in particular from authorities, are not extinguished or masked if they are identified in the audio signal processing device as background noise by means of a microphone output signal.

The audio signal processing device is preferably designed as a central unit for all sound reinforcement stations.

It is preferred that the audio signal processing device is integrated in a single or multiple control devices and/or is implemented by software. This/s control unit(s) can otherwise have other functions or primarily other functions; in particular, this can be a single central control unit of a motor vehicle.

The actuator preferably has an electrical drive for converting electrical signals into mechanical deflections or mechanical vibrations. wherein the drive has a coil through which the current of the electrical signal can or does flow and has a permanent magnet which can or does interact electromagnetically with the coil, the actuator also has a housing with an excitation surface, wherein the housing and/or the excitation surface can be mechanically deflected by the electric drive and/or can be or is mechanically excited to vibrate and can emit acoustic sound signals in the process.

The electrical signals through the coil expediently have the information of the sound signal to be radiated or the useful signal and/or the compensation signal, in particular a music signal and/or speech signal.

It is preferred that the actuator is designed to emit acoustic sound and/or is designed in such a way that the actuator excites or can excite its excitation surface and thus a connected body to vibrate its body structure, as a result of which the flat body surrounded by air emits sound waves .

The method and the public address arrangement are preferably designed for use in motor vehicles, in particular automobiles or buses, alternatively preferably for use in airplanes or ships/boats.

Based on Figures 1 to 4 are exemplified and schematically, the method and the sound system are illustrated at least in part.

figure 1 shows an example of a basic representation of the public address systems A, B, C of the public address system networked via the audio signal processing device 1 . The useful signals S are exchanged or made available to the sound reinforcement stations A, B, C by means of the central audio signal processing device 1 . On the basis of the information about the useful signals S from the adjacent acoustic irradiation positions in the central audio signal processing device 1 and the acoustic transfer functions G between the acoustic irradiation positions A, B, C, the sound emitted by the adjacent acoustic irradiation positions becomes "known background noise", ie for the known background noise N. Public address stations that are not occupied by people, here for example public address station D, are deactivated, for example, in order to reduce the computing effort for the audio signal processing device 1. The audio signal processing device 1 also provides the sound generating device of each public address station A, B, C with a compensation signal K in addition to the useful signal S, this compensation signal K for each public address station A, B, C in the audio signal processing device 1 depending on a cumulative interference signal ΣN of the respective public address station and of the useful signal S of the corresponding public address station is calculated and made available to the respective public address station A, B, C. The cumulative interference signal ΣN is made up of the known interference signal N from the neighboring PA stations and an unknown interference signal Nuk. The cumulative interference signal ΣN is recorded by means of a microphone for each sound reinforcement station A, B, C, for example, and the cumulative interference signal ΣN is thus made available to the audio signal processing device 1 as a microphone output signal.

• eine durch die Audiosignalverarbeitungseinrichtung 1 berechnete Mithörschwelle M, zur Verringerung des Mithörens zwischen verschiedenen Beschallungsplätzen, wobei das Nutzsignal und das Kompensationssignal für die aktiven Beschallungsplätze in Abhängigkeit der Mithörschwelle M und beispielgemäß einer Übertragungs- und/oder Übersprechfunktion G zwischen definierten Beschallungsplätzen durch die Audiosignalverarbeitungseinrichtung 1 berechnet und bereitgestellt wird,
• einen Sprachverständlichkeitsindex STI, welcher für jeden Beschallungsplatz durch die Audiosignalverarbeitungseinrichtung 1 berechnet wird und das Nutzsignal S in Abhängigkeit des Sprachverständlichkeitsindex STI berechnet wird, damit Sprachsignale an dem Beschallungsplatz eine Mindestsprachverständlichkeit aufweisen,
• ein Geräuschunterdrückungssignal ANC in der Audiosignalverarbeitungseinrichtung 1 für wenigstens einen Beschallungsplatz berechnet wird und mittels des Kompensationssignals K bereitgestellt wird, und/oder
• ein Maskierungssignal Msk durch die Audiosignalverarbeitungseinrichtung 1 berechnet wird zur Maskierung definierter Geräuschanteile in bzw. an einem Beschallungsplatz.

Based on 2 the schematic structure of a sound reinforcement station A and its connection to the audio signal processing device 1 is illustrated by way of example. The microphone 2 detects both the known interference signal N and the unknown interference signal Nuk, with the former being considered "known" because of the useful signal from the adjacent sound reinforcement positions via the audio signal processing device 1 and the known acoustic transfer function between sound reinforcement position A and the other sound reinforcement positions. The microphone 2 provides a microphone output signal as a cumulative interference signal ΣN to the audio signal processing device 1 . The sound reinforcement station A is networked with other sound reinforcement stations via the audio signal processing device 1 . In the audio signal processing device 1, the generation of the useful signal S and the compensation signal K for a sound reinforcement station or, for example, for each active sound reinforcement station, is carried out depending on the following parameters:

• a listening threshold M calculated by the audio signal processing device 1 to reduce listening between different sound reinforcement positions, the useful signal and the compensation signal for the active sound reinforcement positions being calculated by the audio signal processing device 1 as a function of the listening threshold M and, for example, a transmission and/or crosstalk function G between defined sound reinforcement positions and is provided
• a speech intelligibility index STI, which is calculated for each public address station by the audio signal processing device 1 and the useful signal S is calculated as a function of the speech intelligibility index STI, so that speech signals at the public address station have a minimum speech intelligibility,
• a noise reduction signal ANC is calculated in the audio signal processing device 1 for at least one sound reinforcement station and is provided by means of the compensation signal K, and/or
• a masking signal Msk is calculated by the audio signal processing device 1 for masking defined noise components in or at a sound reinforcement station.

Public address station A has, for example, like each of the public address stations, an audio output unit 3 which, for example, includes a loudspeaker unit, but can also have a connection for headphones or for other devices capable of audio output.

3 shows an example of the process, at least partially and schematically the structure of the algorithm for the needs-based useful signal S for sound reinforcement station A. A classification of the signal desired by the user decides on the later measures to influence the sound at your own sound reinforcement station A (passenger A) and at the other PA places B, C (passenger B + C). For example, pure speech signals can be adjusted more strongly than qualitatively demanding music signals, this is done within the framework of a classification 4 of one's own useful signal. From the unknown For example, street and ambient noise as unknown interference signals Nuk and known interference signals N, for example originating from the useful signals of the other passengers at the other PA stations, a listening threshold M can be calculated 7, with a previous analysis 5 of the unknown interference noise Nuk and with a previous analysis 6 of the others , known interference signals N. The listening threshold M is used as the basis for the adjustment of the following control option A and/or regulation option B.

Accordingly, for speech intelligibility at passenger position or PA position A, there must be a sufficient distance to the listening threshold M. At the same time, by knowing the transfer function G between the individual sound reinforcement positions, it is possible to estimate how understandable the useful signal S, A from sound reinforcement position A is at another sound reinforcement position, for example B. A sufficiently low speech intelligibility index STI at position B could thus be achieved by a slight reduction in the speech intelligibility index STI of the useful signal S, A at position A.

In the case of control, option A, after the target/actual comparison 9 for the set target values or target criterion 8, a decision is made as to whether or not the useful signal S must be adjusted in terms of speech intelligibility/influencing listeners, etc. 10. The useful signal 10 is accordingly direct output or optimized, after a calculation of an adjusted useful signal 11 output.

In the case of control, option B, a useful signal is first estimated 12 that withstands the target/actual comparison, and the output of the signal is then continuously re-evaluated in the control loop and adjusted if necessary.

In this case, after the estimate 12 of the adjusted useful signal S, this adjusted useful signal S is output, after which sensing is carried out using a microphone 3 . Depending on the signal detected by the microphone, a comparison 9 of the target criterion 8, such as a minimum Speech intelligibility index STI carried out. It is checked whether the target criterion has been reached 10. If it is reached, the useful signal continues to be output. In the event that the target criterion was not met, a calculation 11 of the newly adapted useful signal is carried out and this is then output.

4 shows as an example the schematic structure of the algorithm of the method for needs-based masking / noise suppression or noise canceling (passengers B + C + ...): In the example, this now relates to seat position B, where the telephone call from position A, for example, should not be understandable .

Here, too, a listening threshold M is calculated from the unknown Nuk and known N interference signals 7, with prior analysis 5 of the unknown interference noise Nuk and with prior analysis 6 of the other, known interference signals N. The listening threshold M serves as the basis for a target/actual comparison 9 with at least one target criterion 8.

However, since the case can also arise that the passenger does not request his own useful signal S, for example not listening to the radio or making a phone call, the algorithm first evaluates whether a useful signal is required and, if so, whether this is sufficient to mask the external signals 13. If a useful signal is required at position B and this satisfies the target criterion 10 e.g. a telephone call from passenger A cannot be understood, the signal S is output and is still checked in the control circuit using a microphone 3 and, if necessary, readjusted, using an additional actual/target comparison 9 of the target criterion, 10. If the useful signal is not sufficient as a masker or if there is no useful signal at all, the noise canceling algorithm, also known as the ANC algorithm (active noise cancelling), is used to suppress noise and generate a noise canceling signal ANC used for compliance with the target values 14. Then fin det another actual / target comparison 9 takes place with regard to the target criterion 8 by means of the signal sensed by the microphone 3 . In the event that the nominal target value or target criterion 8 (e.g. des minimum speech intelligibility index) is reached 10, a masking signal M is generated 15 and in this case the speech intelligibility is reduced to the target value. The adjusted useful signal is calculated 11 as a function of the generated masking signal M and then the adjusted useful signal S′ is output.

The tone control of the method after 3 or 4 can alternatively be selected or used simultaneously in the course of the procedure. In this case, for example, one of the algorithms is implemented with priority and/or weighted.

Reference List

1

audio signal processing device

2

microphone

3

audio output unit

4

Classification of your own useful signal

5

Analysis of the unknown noise

6

Analysis of the other useful signals

7

Calculation of the listening threshold

8th

target criterion

9

Comparison actual/target

10

Examination target criterion

11

Calculation of the adjusted useful signal

12

Estimate adjusted useful signal

13

Useful signal sufficient for masking

14

Generation of noise canceling signal

15

Generation of a masking signal

A,B,C,D

PA places

S

useful signal

S'

adapted useful signal

N

Interference signal known from a neighboring PA station

nuc

Interfering signal unknown

ΣN

cumulative interference signal

G

transfer function

K

compensation signal

M

listening threshold

STI

speech intelligibility index

ANC

noise canceling signal

Msk

masking signal

Claims (9)

Method for sound reinforcement of at least two sound reinforcement positions (A, B, C, D) of a sound reinforcement arrangement, each sound reinforcement position (A, B, C, D) having at least one sound generating device (3) and at least one microphone (2) in each case, the public address arrangement has an audio signal processing device (1) which has at least one amplifier unit and at least one digital signal processing unit, characterized in that acoustic interference signals are detected at the respective sound reinforcement station (A, B, C, D) by means of the microphone (2) and the respective microphone output signal (ΣN) is provided to the audio signal processing device (1), the audio signal processing device (1) of the sound generating device (3) each PA station (A, B, C, D) provides a useful signal (S) and a compensation signal (K), this compensation signal (K) in the audio signal processing device (1) depending on the microphone output signal (ΣN) and the useful signal (S) of the corresponding PA station (A, B, C, D) is generated and / or calculated. Method according to Claim 1, characterized in that in the audio signal processing device (1) the generation of the useful signal (S) and/or the compensation signal (K) for a sound reinforcement station (A, B, C, D) or a plurality of sound reinforcement stations depends on at least one or several of the following parameters are performed and/or calculated: - a listening threshold (M) calculated by the audio signal processing device (1) to reduce listening between different sound reinforcement positions, and in particular the useful signal (S) and the compensation signal (K) for one or for several sound reinforcement positions depending on the hearing threshold (M) and preferably a transmission and/or crosstalk function (G) between defined sound reinforcement positions is calculated and provided by the audio signal processing device (1) and/or - a speech intelligibility index (STI), which is calculated for each sound reinforcement station (A, B, C, D) by the audio signal processing device (1) and, in particular, the useful signal (S) is calculated as a function of the speech intelligibility index (STI), so that speech signals can be heard at the sound reinforcement station have a minimum level of speech intelligibility, and/or - a noise reduction signal (ANC) is calculated in the audio signal processing device (1) for at least one sound reinforcement station (A, B, C, D) and is provided by means of the compensation signal (K) and/or - a masking signal (Msk) is calculated by the audio signal processing device (1) for masking defined noise components in and/or at a sound reinforcement station (A, B, C, D). Method according to one of the preceding claims, characterized in that
at least one of the sound reinforcement stations (A, B, C, D) has an operating element with which the volume of the playback by the sound generating device (3) of the sound reinforcement station can be adjusted, in particular within defined limits, a minimum volume and/or maximum volume. Method according to one of the preceding claims, characterized in that the noise suppression signal (ANC) for a public address station (A, B, C, D) as a function of the useful signals (S) and the microphone output signals (ΣN) of the other public address stations and in particular an acoustic transfer function ( G) generated/calculated (14) between two or more or two sound reinforcement stations. Method according to Claim 4, characterized in that the noise suppression signal (ANC) is calculated (14) in the audio signal processing device (1) for at least one sound reinforcement station and is provided by means of the compensation signal (K). Method according to one of the preceding claims, characterized in that
the usable part of the audio signal processing device (1) required for the respective sound reinforcement station (A, B, C, D) is in each case or in at least one case in or on the sound reinforcement station structurally separate from the rest of the audio signal processing device (1). Method according to one of the preceding claims, characterized in that the parameters for calculating the useful signal (S) and/or the compensation signal (K) of one or more public address stations are generated with regard to one or more of the following target criteria/parameters, - Speech intelligibility and/or - optimized sound and/or - Privacy, poor intelligibility or non-intelligibility of the sound reinforcement at another sound reinforcement location and/or - Suppression and/or masking of background noise, several of these target criteria/parameters being taken into account in a particularly weighted manner. Method according to one of the preceding claims, characterized in that at least one or both or all of the sound reinforcement positions (A, B, C, D) have a chair, in particular for sound reproduction,
which has a backrest surface and a headrest surface and has at least a first and a second actuator for exciting vibrations, each of these two actuators being arranged in the chair, so that the first and the second actuator can each have its excitation surface on the inside of a covering of the headrest surface or the inside of a covering of the backrest is arranged at essentially the same height. Public address arrangement, having at least two acoustic irradiation positions, each acoustic irradiation position having at least one sound generating device (3) and at least one microphone (2) in each case, the public address arrangement has an audio signal processing device (1) which has at least one amplifier unit and at least one digital signal processing unit, wherein the acoustic irradiation arrangement is designed to carry out a method according to one of the preceding claims.

Images