JP2008228133A - Acoustic system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an acoustic system capable of highly accurately and easily correcting a sound adjustment quantity. <P>SOLUTION: A mixer/processor 6 is a sound adjusting apparatus and is connected to a sound correcting apparatus 8. The sound correcting apparatus 8 stores device property values that a plurality of acoustic devices in an acoustic system 1 have, together with machine type IDs identifying machine types of the acoustic devices. A machine type ID of a plurality of acoustic devices is received by the sound correcting apparatus 8. On the basis of a sound collection signal that is obtained when an audio signal for measurement is outputted, and a device property value being stored in accordance with the received machine type ID, correction for making an acoustic property in a sound field closer to a requested acoustic property is applied to the sound adjustment quantity of the mixer/processor 6. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an acoustic system having a function of automatically correcting an acoustic adjustment amount in acoustic adjustment means such as a mixer.

  Conventionally, in acoustic systems of various facilities such as commercial facilities, a plurality of acoustic devices such as speakers, amplifiers, and microphones are connected to a mixer / processor that is an acoustic adjustment device. The mixer / processor is a device that adjusts acoustic characteristics, and typical acoustic characteristics include acoustic frequency characteristics and volume. The acoustic frequency characteristics are adjusted by appropriately setting the filter coefficient in the equalizer function of the mixer / processor.

During installation and maintenance of the acoustic system, it is necessary to correct the acoustic adjustment amount in the mixer / processor so that desired acoustic characteristics can be obtained. Correcting the adjustment amount of the acoustic frequency characteristic among the acoustic characteristics is called sound field correction. Conventionally, the following automatic correction techniques have been proposed for sound field correction. In this conventional technique, a sound signal for measurement is output from a speaker to a sound field, and sound in the sound field is collected using a microphone. Then, the acoustic frequency characteristic of the collected sound signal is compared with a preset required frequency characteristic, and the filter coefficient of the mixer / processor is corrected so that the acoustic frequency characteristic of the collected sound signal approaches the required frequency characteristic. Thus, conventionally, the acoustic frequency characteristic is measured using a microphone, and the acoustic adjustment amount of the mixer / processor is corrected by comparing the measured value with the required characteristic (see Patent Document 1).
JP 2005-49688 A

  However, in the conventional acoustic system, the sound field is automatically corrected by comparing the measured value of the acoustic frequency characteristic with the required value. However, the characteristics of the acoustic device such as a microphone involved in the measurement of the acoustic frequency characteristic are considered. As a result, there is a problem that the correction accuracy is lowered.

  Explaining the above problem in more detail, each acoustic device constituting the acoustic system has an in-device frequency characteristic that affects the acoustic frequency characteristic of the audio signal to be processed. The output signal of the device changes. If the device characteristics are not taken into account, the actual acoustic frequency characteristic of the sound field and the measurement result of the acoustic frequency characteristic obtained from the collected sound signal will deviate. Even if correction is performed using such a shifted measurement result, the acoustic frequency characteristic of the actual sound field does not match the required frequency characteristic, and high correction accuracy cannot be obtained.

  In addition, regarding the volume of the acoustic characteristics, conventionally, no automatic correction technique has been proposed for the entire acoustic system. Further, the volume correction is performed exclusively by the operator's manual work, and there is a problem that it takes time and effort. Further, depending on the facility, it is required to correct the sound volume even if there is no worker. In order to meet such a demand, automation of the sound volume correction is desired. High accuracy is also required for volume correction.

  The present invention has been made to solve the conventional problems, and an object of the present invention is to provide an acoustic system capable of easily correcting the amount of acoustic adjustment with high accuracy.

  The acoustic system of the present invention includes a plurality of acoustic devices for outputting sound to and collecting sound from the sound field, and the plurality of acoustic devices connected to the plurality of acoustic devices for the sound device for outputting sound. A sound adjustment unit that supplies a sound signal and inputs a sound collection signal from the sound device for sound collection, and corrects a sound adjustment amount in the sound adjustment unit so as to obtain a preset required sound characteristic. Sound correction means, wherein the sound correction means stores device characteristic values possessed by each of the plurality of sound devices together with a model ID for identifying a model of each sound device, and the plurality of sound devices. ID receiving means for receiving the model ID of the device, the sound collection signal obtained when outputting the measurement audio signal, and the model ID received by the ID receiving means in association with the model ID Stored in said vessel characteristic storage means on the basis of the device characteristic value, a correction to bring the acoustic characteristics in the sound field to the request acoustic characteristics is configured to perform to the sound adjustment amount.

  With this configuration, the model IDs of a plurality of acoustic devices constituting the acoustic system are collected, and the device characteristic values corresponding to the plurality of model IDs are read from the device characteristic storage unit. Then, by using not only the collected sound signal that is the measurement data but also the device characteristic value, the acoustic adjustment amount is corrected so that the actual acoustic characteristic in the sound field approaches the required acoustic characteristic. Can be corrected with high accuracy. In addition, since the device characteristic value corresponding to the received model ID is read from the device characteristic storage means, the work of manually inputting the device characteristic value by the operator can be reduced, and therefore the acoustic adjustment amount can be easily corrected.

  In the acoustic system of the present invention, when the acoustic device is replaced, the ID receiving unit receives a model ID of the acoustic device after replacement, and the acoustic correction unit stores the device in the device characteristic storage unit. The acoustic adjustment amount is corrected based on the device characteristic value of the acoustic device before replacement and the device characteristic value of the acoustic device after replacement.

  With this configuration, when the acoustic device is replaced, the model ID of the replaced acoustic device is received. Then, the acoustic adjustment amount is corrected based on the device characteristic value of the acoustic device before replacement and the device characteristic value of the acoustic device after replacement. This eliminates the need for re-measurement of the acoustic characteristics when the acoustic device is replaced, and the acoustic adjustment amount can be corrected quickly and easily in accordance with the replaced acoustic device.

  In the acoustic system of the present invention, the acoustic correction unit corrects a parameter for controlling acoustic frequency characteristics as the acoustic adjustment amount. With this configuration, the acoustic frequency characteristics can be automatically adjusted, and sound field correction can be automatically performed.

  In the acoustic system of the present invention, the acoustic correction unit corrects the volume as the acoustic adjustment amount. With this configuration, volume correction can be performed automatically.

  In addition, the acoustic correction device of the present invention includes a plurality of acoustic devices for outputting sound to and collecting sound from the sound field, and the acoustic device connected to the plurality of acoustic devices for outputting sound. In order to obtain a predetermined required acoustic characteristic for an acoustic system provided with an acoustic adjustment means for supplying a sound signal to the sound collecting device and inputting the sound collecting signal from the sound device for sound collecting An acoustic correction device that corrects an acoustic adjustment amount in the acoustic adjustment unit, wherein the device characteristic storage unit stores a device characteristic value of each of the plurality of acoustic devices together with a model ID for identifying a model of each acoustic device; An ID receiving means for receiving the model IDs of the plurality of acoustic devices, the sound pickup signal obtained when outputting a measurement sound signal, and the model I received by the ID receiving means. The acoustic adjustment amount is corrected based on the device characteristic value stored in the device characteristic storage unit in association with the acoustic characteristic in the sound field to be close to the required acoustic property. ing. This configuration also provides the advantages of the present invention described above.

  Further, the acoustic correction method of the present invention includes a plurality of acoustic devices for outputting sound to and collecting sound from the sound field, and the acoustic device connected to the plurality of acoustic devices for outputting sound. In order to obtain a predetermined required acoustic characteristic for an acoustic system provided with an acoustic adjustment means for supplying a sound signal to the sound collecting device and inputting the sound collecting signal from the sound device for sound collecting A sound correction method for correcting a sound adjustment amount in the sound adjusting means, wherein a model ID for identifying a model of each sound device is acquired from the plurality of sound devices, and the device characteristics each of the plurality of sound devices has The sound collection signal obtained when the device characteristic value stored in association with the received model ID is acquired from the device characteristic storage means for storing the value and the measurement sound signal is output, and the device Character memory Based on the obtained said device characteristic values from, subjected to correction to approach the acoustic characteristics in the sound field in the request acoustic properties to the sound adjustment amount. This method also provides the above-described advantages of the present invention.

  As described above, the present invention provides a configuration in which the acoustic adjustment amount is corrected so that the acoustic characteristic in the sound field is brought close to the required acoustic characteristic using the apparatus characteristic value stored in association with the model ID of the acoustic apparatus. Thus, it is possible to provide an acoustic system having an effect that the acoustic adjustment amount can be easily corrected with high accuracy.

  Hereinafter, an acoustic system according to an embodiment of the present invention will be described with reference to the drawings.

(First embodiment)
An acoustic system according to an embodiment of the present invention is shown in FIG. As shown in FIG. 1, in the acoustic system 1, a speaker 2 is disposed in a sound field 100, and the speaker 2 is connected to a mixer / processor 6 via a power amplifier 3. The sound field 100 is a space where sound is output by the acoustic system 1. A wireless microphone transmitter 4 is arranged in the sound field. A wireless microphone receiver 5 that performs wireless communication with the wireless microphone transmitter 4 is connected to the mixer / processor 6. Furthermore, the mixer / processor 6 is connected to an acoustic correction device 8.

  In the above configuration, the speaker 2 and the amplifier 5 are configured to receive an electrical audio signal from the mixer / processor 6, convert the audio signal to audio, and output the audio signal to the sound field 100. It corresponds to.

  The wireless microphone transmitter 4 and the wireless microphone receiver 5 are configured to convert sound in the sound field into an electric sound signal and input it to the mixer / processor 6. At the time of measurement for acoustic correction, the wireless microphone transmitter 4 and the wireless microphone receiver 5 function as acoustic devices for collecting sound, pick up sound in the sound field, and use the mixer / Input to the processor 6.

  The mixer / processor 6 is an acoustic adjustment device, and the acoustic correction device 8 is configured to correct the acoustic adjustment amount in the mixer / processor 6 so as to obtain preset required acoustic characteristics. In the present embodiment, sound field correction is performed. That is, the acoustic characteristic is the acoustic frequency characteristic, and correction is performed so that the acoustic frequency characteristic approaches the required frequency characteristic. In the sound field correction, specifically, the filter coefficient of the equalizer is corrected as a parameter for controlling the acoustic frequency characteristics.

  The acoustic correction device 8 may be a personal computer. The personal computer functions as the acoustic correction device 8 by executing a program that realizes the correction function of the present embodiment.

  The sound field correction by the sound correction device 8 is performed as a pre-operation adjustment when the sound system 1 is installed. Schematically, as shown in FIG. 1, the model IDs of the acoustic device groups connected to the mixer / processor 6 are collected in the acoustic correction device 8. Here, a control signal communication function between devices is used. The model ID is identification information that identifies the model of each acoustic device, and is assigned to each acoustic device in advance. The acoustic correction device 8 stores the device characteristic value of each acoustic device in association with the model ID, and reads the device characteristic value corresponding to the received model ID. The device characteristic value is a property of each acoustic device and is a property in the device that affects the acoustic property to be corrected. Examples of the device property value include device internal frequency characteristics and gain. In the case of the present embodiment, the device characteristic value is the device internal frequency characteristic, and this device frequency characteristic value affects the acoustic frequency characteristic of the output signal of each device, more specifically, as a property related to sound field correction. Used as a device characteristic value.

  On the other hand, a test signal that is an audio signal for measurement is output from the speaker 2 and collected by the wireless microphone transmitter 4, and the collected sound signal is received by the acoustic correction device 8 as measurement data. The test signal is pink noise, chirp signal, musical sound and so on. Then, the acoustic correction device 8 corrects the adjustment amount of the acoustic frequency characteristic of the mixer / processor 6 using the collected sound signal and the above-described device characteristic value. Here, the collected sound signal is analyzed to obtain a measured value of the acoustic frequency characteristic. Then, by considering the device characteristic value, correction is performed so that the actual acoustic frequency characteristic of the sound field, not the measured value itself, approaches the required frequency characteristic.

  When such measurement and correction are repeated and the acoustic frequency characteristic of the sound field taking into account the device characteristic value falls within the target range of the required frequency characteristic, the correction ends. And the acoustic system 1 is actually operated.

  Next, each device constituting the acoustic system 1 will be described. FIG. 2 shows the internal configuration of the speaker 2, the power amplifier 3, the wireless microphone transmitter 4 and the wireless microphone receiver 5.

  The speaker 2 includes an ID recording unit 21 that stores a model ID, an ID transmission unit 22 that transmits the model ID stored in the ID recording unit 21 to the power amplifier 3, and an audio signal reception that receives an audio signal from the power amplifier 3. Part 23. The received electrical sound signal is converted into sound and output to the sound field 100.

  The power amplifier 3 includes an ID recording unit 31 that stores the model ID, an ID reception unit 32 that receives the model ID of the speaker 2 from the ID transmission unit 23, and an ID transmission unit 33 that transmits the model ID to the mixer / processor 6. It has. The ID transmission unit 33 transmits the model ID of the speaker 2 received from the speaker 2 and the model ID of the power amplifier 3 read from the ID recording unit 31. The power amplifier 3 includes an audio signal receiving unit 34 that receives an audio signal from the mixer / processor 6 and an audio signal transmitting unit 35 that transmits the audio signal to the speaker 2. The audio signal is amplified by the power amplifier 3 and then transmitted to the speaker 2.

  The wireless microphone transmitter 4 includes an ID recording unit 41 that stores the model ID, an ID transmission unit 42 that transmits the model ID stored in the ID recording unit 41 to the wireless microphone receiver 5, and a voice to the wireless microphone receiver 5. And an audio signal transmitting unit 43 for transmitting a signal. The sound of the sound field is converted into an electric sound signal by the microphone function of the wireless microphone transmitter 4 and transmitted from the sound signal transmitting unit 43 to the wireless microphone receiver 5.

  The wireless microphone receiver 5 transmits an ID recording unit 51 that stores the model ID, an ID receiving unit 52 that receives the model ID of the wireless microphone transmitter 4 from the ID transmitting unit 43, and transmits the model ID to the mixer / processor 6. ID transmission unit 53. The ID transmission unit 53 transmits the model ID of the wireless microphone transmitter 4 received from the wireless microphone transmitter 4 and the model ID of the wireless microphone receiver 5 read from the ID recording unit 51. The wireless microphone receiver 5 includes an audio signal receiving unit 54 that receives an audio signal from the wireless microphone transmitter 4 and an audio signal transmitting unit 55 that transmits the audio signal to the mixer / processor 6.

  FIG. 3 shows the internal configuration of the mixer / processor 6 and the sound correction device 8. The mixer / processor 6 includes, as a configuration related to audio signal processing, an audio signal receiving unit 601 that receives an audio signal from the wireless microphone receiver 5, an audio signal transmitting unit 602 that transmits the audio signal to the power amplifier 3, and And a filter unit 603 disposed between the audio signal receiving unit 601 and the audio signal transmitting unit 602. The filter unit 603 is configured to realize an equalizer function. An audio signal from a sound source (not shown) is input to the filter unit 603 through the audio signal receiving unit 601, subjected to acoustic adjustment by the filter unit 603, and then output through the audio signal transmitting unit 602.

  The mixer / processor 6 further receives an audio signal transmission unit 604 that transmits the audio signal received by the audio signal reception unit 601 to the acoustic correction device 8, and receives the audio signal from the acoustic correction device 8 to the filter unit 603. And an audio signal receiving unit 605 to be supplied. The audio signal receiving unit 605 receives a measurement test signal from the acoustic correction device 8.

  The mixer / processor 6 includes a filter coefficient receiving unit 606. The filter coefficient receiving unit 606 receives the correction filter coefficient from the acoustic correction device 8 and supplies it to the filter unit 603. The filter coefficient is changed by the filter unit 603 in accordance with the correction filter coefficient.

  In addition, the mixer / processor 6 includes, as a configuration related to the processing of the model ID, an ID receiving unit 611 that receives the model ID of the speaker 2 and the power amplifier 3 from the power amplifier 3, a wireless microphone transmitter 4, and a wireless microphone receiver. ID receiving unit 612 that receives 5 model IDs from wireless microphone receiver 5, and ID transmitting unit 613 that transmits model IDs to acoustic correction device 8. The ID transmitter 613 transmits the model IDs of the speaker 2, power amplifier 3, wireless microphone transmitter 4, and wireless microphone receiver 5 received by the ID receivers 611 and 612 to the acoustic correction device 8. Note that a model ID recording unit that stores the model ID of the mixer / processor 6 is provided in the mixer / processor 6, and the model ID of the mixer / processor 6 may also be sent from the ID transmission unit 613 to the acoustic correction device 8.

  Next, the configuration of the acoustic correction device 8 will be described. The acoustic correction device 8 includes a test signal recording unit 801, a test signal transmission unit 802, and a test signal operation unit 803 in order to output a test signal for measuring acoustic frequency characteristics. The test signal recording unit 801 stores a test signal. As described above, the test signal is, for example, pink noise, chirp signal, musical sound (music), or the like. The test signal operation unit 803 is configured to input a selection of a test signal to be output and a test signal output instruction, and is realized by an input device of a computer. A test signal is read from the test signal storage unit 801 in accordance with an operation on the test signal operation unit 803, and transmitted to the mixer / processor 6 by the test signal transmission unit 802.

  The acoustic correction device 8 includes an audio signal receiving unit 811 and a frequency characteristic calculating unit 812 as a configuration for obtaining a measurement value of the acoustic frequency characteristic. The audio signal receiving unit 811 receives the collected sound signal when the test signal is output from the mixer / processor 6 and supplies it to the frequency calculating unit 812. The frequency characteristic calculation unit 812 is configured to perform FFT (Fast Fourier Transform), and calculates an acoustic frequency characteristic by analyzing a collected sound signal. The acoustic frequency characteristic measurement data obtained in this way is supplied to the filter coefficient calculation unit 841.

  In the acoustic correction device 8, the required characteristic input unit 821 is configured to input a required frequency characteristic, and is realized by an input device of a computer. The required frequency characteristic is an ideal characteristic. The input required frequency characteristic is supplied to the filter coefficient calculation unit 841 and set as a correction target. In this way, the required frequency characteristic can be set in advance.

  The required frequency characteristic may be stored in the acoustic correction device 8. A plurality of required frequency characteristics may be stored in the acoustic correction device 8 in the form of a database. Then, an appropriate required frequency characteristic may be selected using the required characteristic input unit 821 and supplied to the filter coefficient calculation unit 841.

  The acoustic correction device 8 further includes an ID receiving unit 831 and a device characteristic database 832. The ID receiving unit 831 and the device characteristic database 832 correspond to the ID receiving unit and the device characteristic storage unit of the present invention, respectively. The ID receiving unit 831 receives the model ID of each connected device from the mixer / processor 6 and supplies it to the device characteristic database 832. The device characteristic database 832 stores device characteristic values of various audio devices. The device characteristic database 832 reads out device characteristic values corresponding to the received model IDs and supplies them to the filter coefficient calculation unit 841.

  The filter coefficient calculation unit 841 includes the acoustic frequency characteristic measurement data supplied from the frequency characteristic calculation unit 812, the required frequency characteristic supplied from the required characteristic input unit 821, and each acoustic device read from the device characteristic database 832. The correction filter coefficient is calculated based on the model characteristic value. The corrected filter coefficient is transmitted to the filter coefficient receiving unit 606 of the mixer / processor 6 via the filter coefficient transmitting unit 842.

  Next, with reference to FIG. 4 and FIG. 5, the correction process using the apparatus characteristic value in this Embodiment is demonstrated. FIG. 4 shows an example of model characteristic values stored in the device characteristic database 832. As already described, the device characteristic database 832 stores device characteristic values in association with model IDs for each model. In the example of the figure, the device characteristic value is a relative level with respect to the reference value for each frequency. When an audio signal passes through each acoustic device, the acoustic frequency characteristic changes due to the influence of the device characteristic value.

  FIG. 5 shows a correction calculation process using device characteristic values. In FIG. 5, a speaker characteristic Z, a power amplifier characteristic A, a wireless transmission unit characteristic X, and a wireless reception unit characteristic Y are device characteristic values of the speaker 2, the power amplifier 3, the wireless microphone transmitter 4, and the wireless microphone receiver 5, respectively. And obtained from the device characteristic database 832. Here, each characteristic represented by alphabetic characters is a vector (hereinafter the same).

  The measurement test signal characteristic S is a characteristic of the measurement test signal output from the mixer / processor 6. The test signal characteristic S for measurement may be obtained by processing the test signal recorded in the test signal recording unit 801 during the correction process. The measurement test signal characteristic S is calculated in advance from the test signal, stored in the acoustic correction device 8, and may be read out at the time of correction. Further, as described above, the required frequency characteristic R is a characteristic of a correction target that is input from the required characteristic input unit 821 and preset by the acoustic correction device 8. The room transfer characteristic H is a sound transfer characteristic in the sound field 100.

  Now, assuming that the correction characteristic for changing the acoustic frequency characteristic in the sound field 100 to the required frequency characteristic R is N, the correction characteristic N can be obtained by calculation described below.

In FIG. 5, the audio signal output from the mixer / processor 6 passes through the power amplifier 3, the speaker 2, the sound field 100, the wireless microphone transmitter 4, and the wireless microphone receiver 5, and returns to the mixer / processor 6. If the acoustic frequency characteristic at the position of the wireless microphone transmitter 4 becomes the required frequency characteristic R by applying the correction characteristic N, the acoustic frequency characteristic of the sound field 100 becomes the required frequency characteristic R. This is expressed by equation (1), and equation (2) is obtained from equation (1).
RS = HZANS (1)
N = R / (HZA) (2)

On the other hand, the acoustic frequency characteristic of the collected sound signal received by the mixer / processor 6 at the time of measurement is set to the collected sound data characteristic T as shown in the figure. The collected sound data characteristic T is a measured value obtained by analyzing the collected sound signal when the test signal is output. This sound collection data characteristic T is expressed by equation (3), and equation (3) is transformed into equation (4).
T = YXHZAS (3)
HZA = T / (YXS) (4)

Then, Expression (5) is obtained as an expression for calculating the correction characteristic N from Expression (2) and Expression (4).
N = (YXRS) / T (5)

  In the acoustic correction device 8, the correction coefficient N is calculated by the filter coefficient calculation unit 841 according to the above calculation formula, and the correction filter coefficient corresponding to the correction characteristic N is obtained.

  In addition, as shown in FIG. 4, the apparatus characteristic value is set for every frequency. Therefore, the calculation of the correction characteristic and the correction filter coefficient is also performed for each frequency.

  The principle of sound field correction in the present embodiment has been described above. Next, operation | movement of the acoustic system 1 of this Embodiment is demonstrated. Here, the sound field correction operation will be described. As described above, the sound field correction is preferably performed before the actual operation of the acoustic system 1. Then, the operation of the acoustic system 1 is started after the sound field correction.

  FIG. 6 is a flowchart showing the operation of the acoustic system 1. As shown in the figure, first, the acoustic correction device 8 collects information on the model IDs and connection relationships of the acoustic devices constituting the acoustic system 1 (S1).

  Here, the model ID of the speaker 2 is sent to the power amplifier 3, and the model ID of the power amplifier 3 is sent to the mixer / processor 6 together with the model ID of the speaker 2. The model ID of the wireless microphone transmitter 4 is sent to the wireless microphone receiver 5, and the model ID of the wireless microphone receiver 5 is sent to the mixer / processor 6 together with the model ID of the wireless microphone transmitter 4. The mixer / processor 6 transmits the model IDs of the speaker 2, the power amplifier 3, the wireless microphone transmitter 4, and the wireless microphone receiver 5, and these model IDs are received by the ID receiving unit 831 of the acoustic correction device 8. The communication function of the control signal is used for the communication of the model ID.

  In the process of collecting model IDs, information on connection relationships between devices is also collected. In the above example, the mixer / processor 6 receives the model IDs of the speaker 2 and the power amplifier 3 from the power amplifier 3. Thereby, it is specified that the power amplifier 3 and the speaker 2 are connected. Further, the mixer / processor 6 receives the model IDs of the wireless microphone transmitter 4 and the wireless microphone receiver 5 from the wireless microphone receiver 5. Thereby, it can be seen that the wireless microphone transmitter 4 and the wireless microphone receiver 5 are connected.

  This connection relationship is useful in the following points. In the example of FIG. 1, for ease of explanation, one speaker and one microphone are shown. However, in practice, the mixer / processor 6 may have more channels and more speakers and microphones may be connected. In this case, the acoustic adjustment is performed for each channel. Then, the above connection relation information is used to identify the connected device of each channel.

  Next, the acoustic correction device 8 reads out device characteristic values corresponding to all collected model IDs from the device characteristic database 832 (S3). The device characteristic value is supplied to the filter coefficient calculation unit 841. When the speaker or the microphone does not have the function of recording and transmitting the model ID, the device characteristic value may be manually input and set using the input function of the acoustic correction device 8.

  Next, the acoustic correction device 8 receives an input of the required frequency characteristic (S5). The required frequency characteristic is input from the required characteristic input unit 821 and supplied to the filter coefficient calculation unit 841. As described above, the required frequency characteristics are stored in a database and may be selected according to a user operation.

  Next, the acoustic correction device 8 performs processing for obtaining a measurement value by reproducing and collecting the test signal. First, the acoustic correction device 8 controls the acoustic system 1 to reproduce the test signal from the speaker 2 to the sound field 100 (S7). Here, a test signal is read from the test signal recording unit 801 in accordance with an instruction input from the test signal operation unit 803. Then, the test signal is sent from the test signal transmission unit 802 to the mixer / processor 6. In the mixer / processor 6, the test signal is received by the audio signal receiving unit 605 and sent to the filter unit 603. The test signal is subjected to acoustic adjustment in the filter unit 603 according to the already set filter coefficient. The adjusted test signal is sent from the mixer / processor 6 to the speaker 2 via the power amplifier 3. The test signal is converted into sound by the speaker 2 and output to the sound field 100. The sound of the test signal is collected by the wireless microphone transmitter 4, and the collected sound signal is sent to the mixer / processor 6 via the wireless microphone receiver 5, and is sent from the mixer / processor 6 to the acoustic correction device 8. The collected sound signal is received by the audio signal receiving unit 811 of the acoustic correction device 8 and recorded in the acoustic correction device 8 (S9). Then, the acoustic frequency characteristic of the collected sound signal is calculated by the frequency characteristic calculation unit 812 (S11). The acoustic frequency characteristic measurement data obtained in this way is supplied to the filter coefficient calculator 841.

  Next, the filter coefficient calculation unit 841 calculates a correction filter coefficient using the measurement data, the apparatus characteristic value, and the required frequency characteristic of the acoustic frequency characteristic obtained as described above (S13). Then, the correction filter coefficient is sent from the filter coefficient transmitting unit 842 to the filter coefficient receiving unit 606 of the mixer / processor 6 and supplied to the filter unit 603 (S15). The filter unit 603 performs setting processing for applying the correction filter coefficient, and performs acoustic adjustment according to the correction filter coefficient.

  The processes in steps S7 to S15 are repeated. When the acoustic frequency characteristic of the sound field that takes into account the device characteristics is sufficiently close to the required frequency characteristic and the difference between the two characteristics falls within the target range, the achievement of the target is determined in step S13, and the correction process ends.

  The sound field correction before the start of operation has been described above. Next, sound field correction when an acoustic device is replaced after the operation starts will be described. In the present embodiment, since the model ID and the connection state are automatically recognized by the acoustic correction device 8 as described above, device replacement is also automatically recognized by the acoustic correction device 8. And the acoustic correction apparatus 8 is comprised so that it may respond suitably with respect to replacement | exchange of an audio equipment as follows.

  FIG. 7 shows an example of sound field correction during device replacement. Here, it is assumed that the power amplifier 3A is replaced with a different type of power amplifier 3A ', and the power amplifier characteristic changes from A to A'.

In this case, the acoustic correction device 8 receives the model ID of the power amplifier 3 after replacement. More specifically, the model ID is read from the ID recording unit of the power amplifier 3A ′ after replacement, and is received by the ID receiving unit 831 of the acoustic correction device 8 via the mixer / processor 6. Then, the power amplifier characteristic A ′ corresponding to the model ID is read from the device characteristic database 832 and sent to the filter coefficient calculation unit 841. The acoustic correction device 8 stores the model ID of the power amplifier 3A before replacement, and the power amplifier characteristic 3A before replacement is also obtained from the model ID. The acoustic correction device 8 stores a correction characteristic N before amplifier replacement. Using these parameters, the filter coefficient calculation unit 841 calculates the correction characteristic N ′ after device replacement according to the following equation.
N ′ = N × (A ′ / A)

  Then, the filter coefficient calculation unit 841 sends the correction filter coefficient corresponding to the correction characteristic N ′ to the mixer / processor 6 via the filter coefficient transmission unit 842. The mixer / processor 6 performs sound adjustment according to the correction filter coefficient.

  In this way, in this embodiment, a new correction characteristic N ′ can be obtained without performing the acoustic characteristic using the test signal again at the time of device replacement, and the acoustic frequency characteristic of the sound field 100 is required. Frequency characteristics can be maintained.

  In the above example, the power amplifier was replaced. However, similar processing is performed when other audio equipment is replaced. That is, the model ID after replacement is received by the acoustic correction device 8, and the correction filter coefficient is obtained based on the device characteristic values before and after replacement stored in the device characteristic database 832.

  Next, a modification of the present embodiment will be described. The following modifications are also included in the scope of the present invention.

  In the above embodiment, the speaker 2 is connected to the mixer / processor 6 via the power amplifier 3 for the output system. In a variant, a powered speaker may be connected to the mixer / processor 6. The powered speaker includes an ID recording unit and an ID transmission unit, and sends the model ID stored in the ID recording unit to the acoustic correction device 8 via the mixer / processor 6. As for the input system, the wireless microphone transmitter 4 and the wireless microphone receiver 5 are provided in the above embodiment. In a variant, an analog or digital wired microphone is connected to the mixer / processor 6. In this case, the wired microphone includes an ID recording unit and an ID transmission unit, and sends the model ID stored in the ID recording unit to the acoustic correction device 8 via the mixer / processor 6. As represented by these examples, the acoustic apparatus is not limited to FIG. 1 within the scope of the present invention.

  FIG. 8 shows a mixer / processor 6 in another variant. In the above-described embodiment, the acoustic correction device 8 is a computer device separate from the mixer / processor 6. In the example of FIG. 8, the acoustic correction device 8 is built in the mixer / processor 6. Therefore, the internal configuration of the acoustic correction device 8 is included in the mixer / processor 6 in FIG. Further, the configuration of the communication relationship between the mixer / processor 6 and the sound correction device 8 is deleted in FIG. In FIG. 8, the ID receiving units 611 and 612 of the mixer / processor 6 function as the ID receiving means of the present invention.

  The acoustic system 1 according to the first embodiment of the present invention has been described above. According to the present embodiment, the model IDs of a plurality of acoustic devices constituting the acoustic system 1 are collected, and the device characteristic values respectively corresponding to the plurality of model IDs are read from the device characteristic database 832. Then, by using not only the sound pickup signal that is measurement data but also the device characteristic value, the acoustic adjustment amount is corrected so that the actual acoustic characteristic in the sound field 100 approaches the required acoustic characteristic. The amount can be corrected with high accuracy. In addition, since the device characteristic value corresponding to the received model ID is read from the device characteristic database 832, the work of manually inputting the device characteristic value by the operator can be reduced, and therefore the acoustic adjustment amount can be easily corrected.

  In the present embodiment, when the acoustic device is replaced, the model ID of the replaced acoustic device is received. Then, the acoustic adjustment amount is corrected based on the device characteristic value of the acoustic device before replacement stored in the device characteristic storage database 832 and the device characteristic value of the acoustic device after replacement. This eliminates the need for re-measurement of the acoustic characteristics when the acoustic device is replaced, and the acoustic adjustment amount can be corrected quickly and easily in accordance with the replaced acoustic device.

  In the present embodiment, the parameter for controlling the acoustic frequency characteristic is corrected as the acoustic adjustment amount, the acoustic frequency characteristic can be automatically adjusted, and the sound field can be automatically corrected.

(Second Embodiment)
Next, an acoustic system according to the second embodiment of the present invention will be described. In the first embodiment, the acoustic characteristics are acoustic frequency characteristics, and sound field correction is performed as acoustic correction. In the second embodiment, the acoustic characteristic is volume, and volume correction is performed as acoustic correction. Then, by considering the device characteristic value, high-accuracy correction is performed to match the actual volume characteristic of the sound field with the required volume characteristic. The volume characteristic is the volume in the sound field, and the required volume characteristic is the required volume. In the following description, description of matters overlapping with the first embodiment will be omitted as appropriate.

  In the second embodiment, the overall configuration of the acoustic system is the same as that of the first embodiment shown in FIG. 1, and the speaker 2, the power amplifier 3, the wireless microphone transmitter 4, and the wireless microphone receiver 5 are the same. The mixer / processor 6 is connected to the sound correction device 8. The configurations of the speaker 2, the power amplifier 3, the wireless microphone transmitter 4 and the wireless microphone receiver 5 are the same as those in the first embodiment shown in FIG.

  FIG. 9 shows the configuration of the mixer / processor 6 and the sound correction device 8 in the second embodiment. FIG. 9 shows a configuration related to volume correction characteristic of the present embodiment. Although omitted in FIG. 9, the configuration related to the sound field correction similar to that of the first embodiment is also provided in the mixer / processor 6 and the sound correction device 8, and both the sound field correction and the volume correction are performed. Good.

  In FIG. 9, the mixer / processor 6 includes a volume adjustment unit 631. The volume adjustment unit 631 corresponds to a master volume function of the mixer. The volume adjusting unit 631 is connected to the audio signal transmitting unit 602 and the audio signal receiving unit 601. An audio signal from a sound source (not shown) is input to the volume adjusting unit 631 through the audio signal receiving unit 601, is subjected to volume adjustment, and is output from the audio signal transmitting unit 602. Further, the power amplifier 3 and the speaker 2 are connected. Then, it is output to the sound field 100.

  In addition, the mixer / processor 6 includes a volume correction coefficient receiving unit 632. The volume correction coefficient receiving unit 632 receives the volume correction coefficient from the acoustic correction device 8 and supplies the volume correction coefficient to the volume adjustment unit 631. The volume adjustment unit 631 adjusts the volume by applying a volume correction coefficient.

  On the other hand, the acoustic correction apparatus 8 includes a volume calculation unit 851, a volume correction coefficient calculation unit 852, and a volume correction coefficient transmission unit 853. The volume calculator 851 calculates volume information from the collected sound signal obtained when the test signal is output.

  In the present embodiment, the device characteristic database 832 stores a characteristic value related to volume as a device characteristic value. This device characteristic value is a characteristic value representing a volume change when an audio signal passes through an acoustic device, and can be said to correspond to a gain in the device. Such device characteristic values are read from the device characteristic database 832 and supplied to the volume correction coefficient calculation unit 852.

  FIG. 10 shows an example of a volume-related device characteristic value. Specifically, in the example of the figure, the device characteristic value is a volume conversion coefficient corresponding to the gain. Note that the sound volume conversion coefficient = 0 indicates that the sound volume does not change.

  In the present embodiment, the required characteristic input unit 821 inputs the required volume characteristic as the required acoustic characteristic. The input required volume characteristic is supplied to the volume correction coefficient calculation unit 852.

  The sound volume correction coefficient calculation unit 852 calculates a sound volume correction coefficient using the sound volume measurement value calculated from the sound collection signal, the device characteristic value, and the requested sound volume characteristic. The principle of correction here is basically the same as the correction processing of the first embodiment described with reference to FIG. However, the conversion coefficient shown in FIG. 10 is used as the device characteristic value. In FIG. 5, each characteristic is a vector, but here each characteristic may be a scalar quantity. Further, a required volume characteristic is used instead of the required frequency characteristic. In addition, volume information is used instead of acoustic frequency characteristics for the measurement value obtained from the collected sound signal. The volume correction coefficient corresponding to the correction characteristic obtained in this way is sent from the volume correction coefficient calculation unit 852 to the volume correction coefficient transmission unit 853, and then transmitted to the volume correction coefficient reception unit 632 of the mixer / processor 6. This is applied to the volume adjustment of the adjustment unit 631.

  FIG. 11 is a flowchart showing the operation of the acoustic system 1 in the present embodiment. First, the acoustic correction device 8 collects information on the model IDs and connection relationships of the acoustic devices constituting the acoustic system 1 (S21). This process is the same as in the first embodiment. Next, the acoustic correction device 8 reads out device characteristic values corresponding to all collected model IDs from the device characteristic database 832 (S23). Here, the volume conversion coefficient for each apparatus shown in FIG. 10 is read as the apparatus characteristic value and supplied to the volume correction coefficient calculation unit 852. Next, the acoustic correction device 8 accepts an input of the required volume characteristic as the required acoustic characteristic (S25). The required volume characteristic is input from the required characteristic input unit 821 and supplied to the volume correction coefficient calculation unit 852.

  Next, the acoustic correction device 8 performs processing for obtaining a measurement value by outputting a test signal to the sound field 100 and collecting the sound. First, the acoustic correction device 8 controls the acoustic system 1 so as to output a test signal to the sound field 100 (S27). The test signal is sent from the acoustic correction device 8 to the mixer / processor 6, processed by the volume adjusting unit 631 of the mixer / processor 6, and further output to the sound field 100 through the power amplifier 3 and the speaker 2. Then, the sound of the test signal is collected, and the collected signal is received by the sound signal receiving unit 811 of the acoustic correction device 8 via the wireless microphone transmitter 4, the wireless microphone receiver 5 and the mixer / processor 6. It is recorded in the acoustic correction device 8 (S29). The volume calculator 851 calculates volume information from the collected sound signal and supplies it to the volume correction coefficient calculator 852 (S31).

  Next, the volume correction coefficient calculation unit 852 calculates a volume correction coefficient using the volume measurement value, the device characteristic value, and the required volume characteristic obtained as described above (S33). Then, the volume correction coefficient is sent from the volume correction coefficient transmission unit 853 to the mixer / processor 6 and supplied to the volume adjustment unit 631 (S35). The volume adjustment unit 631 adjusts the volume according to the volume correction coefficient.

  The processes in steps S27 to S35 are repeated. When the volume characteristic of the sound field that takes into account the device characteristics is sufficiently close to the required volume characteristic and the difference between the two characteristics falls within the target range, this is determined in step S33, and the correction process ends.

  The volume correction before the start of operation has been described above. Next, a description will be given of volume correction when an audio device is replaced after the operation is started. This volume correction is performed in the same manner as the sound field correction at the time of device replacement in the first embodiment described with reference to FIG. That is, when an acoustic device (for example, the power amplifier 3) is replaced, the model ID after the replacement is received by the acoustic correction device 8, and the volume is determined based on the device characteristic values before and after replacement stored in the device characteristic database 832. A correction factor is determined.

  Next, a modification of the present embodiment will be described. Similarly to the first embodiment, in the second embodiment, the acoustic device is not limited to the above example. In the output system, a powered speaker may be connected to the mixer / processor 6. In the input system, a wired microphone may be connected to the mixer / processor 6.

  Further, as shown in FIG. 12, the configuration of the sound correction device 8 may be built in the mixer / processor 6. In this case, the communication-related configuration between the mixer / processor 6 and the sound correction device 8 may be deleted.

  The acoustic system 1 according to the second embodiment of the present invention has been described above. Also in the present embodiment, the volume is corrected as the acoustic adjustment amount. Also according to the present embodiment, the acoustic adjustment amount can be easily corrected with high accuracy.

  Also according to this embodiment, it is not necessary to remeasure the acoustic characteristics when the acoustic device is replaced, and the acoustic adjustment amount can be corrected quickly and easily according to the replaced acoustic device.

  In the present embodiment, the volume is corrected as the acoustic adjustment amount as described above. This type of sound volume correction has been conventionally performed manually by an operator. However, acoustic systems have become widespread, and some facilities require that the volume be corrected even without an operator. According to the present embodiment, volume correction can be automated in response to such a request. In addition, the volume correction can be performed with high accuracy by considering the device characteristics.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and it goes without saying that those skilled in the art can modify the above-described embodiments within the scope of the present invention.

  As described above, the acoustic system according to the present invention has an effect that the acoustic adjustment amount can be easily corrected with high accuracy, and is useful as an acoustic system for various facilities.

The block diagram of the sound system in the 1st embodiment of the present invention. Block diagram showing internal configuration of speaker, power amplifier, wireless microphone transmitter and wireless microphone receiver Block diagram showing internal configuration of mixer / processor and sound correction device Diagram showing device characteristics database Diagram showing correction characteristic calculation processing Flow chart showing operation of sound field correction by acoustic system Diagram showing sound field correction during device replacement The figure which shows the structure which incorporated the sound correction device in the mixer / processor The block diagram of the mixer / processor and sound correction apparatus in the 2nd Embodiment of this invention Diagram showing device characteristics database Flow diagram showing volume correction operation by acoustic system The figure which shows the structure which incorporated the sound correction device in the mixer / processor

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Sound system 2 Speaker 3 Power amplifier 4 Wireless microphone transmitter 5 Wireless microphone receiver 6 Mixer / processor 8 Sound correction apparatus 100 Sound field

Claims (6)

A plurality of acoustic devices for outputting sound to and collecting sound from the sound field;
Acoustic adjustment means connected to the plurality of acoustic devices, supplying an audio signal to the acoustic device for outputting sound, and inputting a collected sound signal from the acoustic device for collecting sound;
An acoustic correction unit that corrects an acoustic adjustment amount in the acoustic adjustment unit so as to obtain a preset required acoustic characteristic;
The acoustic correction means includes
Device characteristic storage means for storing a device characteristic value of each of the plurality of audio devices together with a model ID for identifying a model of each audio device;
ID receiving means for receiving the model ID of the plurality of acoustic devices,
Based on the sound pickup signal obtained when outputting the measurement sound signal and the device characteristic value stored in the device characteristic storage means in association with the model ID received by the ID receiving means. The acoustic system is characterized in that a correction is performed on the acoustic adjustment amount so that an acoustic characteristic in the sound field approaches the required acoustic characteristic. The ID receiving means receives the model ID of the acoustic device after the replacement when the acoustic device is replaced;
The acoustic correction unit corrects the acoustic adjustment amount based on the device characteristic value of the acoustic device before replacement stored in the device characteristic storage unit and the device characteristic value of the acoustic device after replacement. The acoustic system according to claim 1.   The acoustic system according to claim 1, wherein the acoustic correction unit corrects a parameter for controlling an acoustic frequency characteristic as the acoustic adjustment amount.   The acoustic system according to claim 1, wherein the acoustic correction unit corrects a volume as the acoustic adjustment amount. A plurality of acoustic devices for outputting sound to and collecting sound from the sound field; and connected to the plurality of acoustic devices to supply sound signals to the acoustic device for outputting sound; For an acoustic system including an acoustic adjustment unit that inputs a collected sound signal from the acoustic device for sound collection, the acoustic adjustment amount in the acoustic adjustment unit is corrected so that a predetermined required acoustic characteristic is obtained. An acoustic correction device that
Device characteristic storage means for storing a device characteristic value of each of the plurality of audio devices together with a model ID for identifying a model of each audio device;
ID receiving means for receiving the model ID of the plurality of acoustic devices,
Based on the sound pickup signal obtained when outputting the measurement sound signal and the device characteristic value stored in the device characteristic storage means in association with the model ID received by the ID receiving means. An acoustic correction apparatus that performs correction on the acoustic adjustment amount so that the acoustic characteristic in the sound field approaches the required acoustic characteristic. A plurality of acoustic devices for outputting sound to and collecting sound from the sound field; and connected to the plurality of acoustic devices to supply sound signals to the acoustic device for outputting sound; For an acoustic system including an acoustic adjustment unit that inputs a collected sound signal from the acoustic device for sound collection, the acoustic adjustment amount in the acoustic adjustment unit is corrected so that a predetermined required acoustic characteristic is obtained. An acoustic correction method for
Obtain a model ID for identifying the model of each acoustic device from the plurality of acoustic devices,
From the device characteristic storage means for storing the device characteristic value possessed by each of the plurality of acoustic devices, obtain the device characteristic value stored in association with the received model ID,
Based on the sound collection signal obtained when outputting the measurement sound signal and the device characteristic value acquired from the device characteristic storage means, the acoustic characteristic in the sound field is changed to the required acoustic characteristic. A sound correction method, wherein correction for approaching is performed on the sound adjustment amount.

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