JP7419854B2 - Sound collection device, sound collection program, and sound collection method - Google Patents

Description

The present invention relates to a sound collection device, a sound collection program, and a sound collection method.

When using a voice communication system or a voice recognition application system in a noisy environment, ambient noise that mixes in with the necessary target voice is a nuisance that hinders good communication and causes a decrease in voice recognition rate. Conventionally, in environments where multiple sound sources exist, a beamformer using a microphone array has been used as a technology to separate and collect only sounds in a specific direction, thereby avoiding the mixing of unnecessary sounds and obtaining the necessary target sound. (Beam Former; hereinafter also referred to as "BF"). BF is a technology that forms directivity using the time difference between signals reaching each microphone. However, if only BF is used, if there are other sound sources around the area for which sound is to be collected (hereinafter referred to as "target area"), the sound existing within the target area (hereinafter referred to as "target area sound") It is difficult to capture just the sound. Therefore, conventionally, Patent Document 1 and the like have proposed an area sound collection method in which sound is collected in a target area using a plurality of microphone arrays.

By the way, Patent Document 1 discloses a technology that can determine whether or not audio exists within a target area by comparing it with a preset threshold (for example, if paragraphs "0053", "0058", etc. reference). In order to determine the above threshold, it is necessary to find the difference (SN ratio) between the target sound (voice) and the background noise, and a person goes to the site where the area sound collection device is installed and uses a sound level meter to measure the background noise. The method used was to measure the noise, calculate the difference from the input audio, and apply it to a correspondence table of SN ratios and thresholds to determine the threshold.

Japanese Patent Application Publication No. 2016-127457

However, the above-mentioned method requires a person who operates a sound level meter to have specialized knowledge, making it difficult for ordinary people without specialized knowledge to effectively measure background noise. Furthermore, the sound level meter itself was expensive and could not be easily installed. Furthermore, each time the background noise is measured, an expert must go to the location where the device is installed, which is a time-consuming problem.

Therefore, there is a need for a sound collection device, a sound collection program, and a sound collection method that can calculate the volume of background noise at the site where the sound collection device is installed without using a sound level meter.

A first aspect of the present invention is a sound collection device equipped with a microphone, which (1) outputs sound from a predetermined sound source from a speaker, and measures the sound pressure using a sound pressure measuring device placed at a predetermined distance from the speaker. (2) Correlation data storage means for storing a measured value of a sound pressure level and a measured value of a sound volume measured using the microphone placed at a predetermined distance from the speaker in association with each other as correlation data; The apparatus is characterized by comprising a sound pressure level calculation means for calculating a sound pressure level by back calculation from a measured value of sound volume newly measured using the microphone, based on the correlation data.
A second aspect of the present invention is a sound collection device equipped with a microphone, which (1) outputs sound from a predetermined sound source from a speaker, and measures the sound pressure using a sound pressure measuring device placed at a predetermined distance from the speaker. (2) Correlation data storage means for storing a measured value of a sound pressure level and a measured value of a sound volume measured using the microphone placed at a predetermined distance from the speaker in association with each other as correlation data; and a sound pressure level calculation means for calculating a sound pressure level from a sound volume measurement value newly measured using the microphone based on the correlation data, and the predetermined sound source is white noise. It is characterized by

The sound collection program of the third aspect of the present invention causes a computer installed in a sound collection device equipped with a microphone to: (1) output sound from a predetermined sound source from a speaker, and output sound pressure at a predetermined distance from the speaker; Correlation data in which a sound pressure level measurement value measured using a measuring device and a sound volume measurement value measured using the microphone placed at a predetermined distance from the speaker are associated and stored as correlation data. and (2) function as a sound pressure level calculation means for calculating a sound pressure level by back calculation from a sound volume measurement value newly measured using the microphone based on the correlation data. Features.

A fourth aspect of the present invention is a sound collection method used in a sound collection device equipped with a microphone, in which (1) the correlation data storage means outputs the sound of a predetermined sound source from a speaker, and the correlation data storage means outputs the sound of a predetermined sound source from a speaker, and A sound pressure level measurement value measured using a sound pressure measuring device disposed at a sound pressure level and a sound volume measurement value measured using the microphone disposed at a predetermined distance from the speaker are correlated as correlation data. and (2) the sound pressure level calculation means calculates the sound pressure level by back calculation from the measured value of the sound volume newly measured using the microphone, based on the correlation data. shall be.

According to the present invention, the volume of background noise at a site where a sound collection device is installed can be calculated without using a sound level meter.

FIG. 1 is a block diagram showing the functional configuration of an area sound collection device according to an embodiment. FIG. 2 is an explanatory diagram showing a background noise measurement environment according to the embodiment. FIG. 2 is an explanatory diagram showing an example of the correlation between the measurement value of the sound level meter and the measurement value of the sound collection device measured under the background noise measurement environment according to the embodiment. FIG. 2 is an explanatory diagram showing an image of calculating the actual volume of background noise of the area sound collection device under an actual usage environment according to the embodiment.

(A) Main Embodiment Hereinafter, one embodiment of a sound collection device, a sound collection program, and a sound collection method according to the present invention will be described in detail with reference to the drawings.

(A-1) Configuration of Embodiment FIG. 1 is a block diagram showing the functional configuration of an area sound collection device according to an embodiment. In FIG. 1, area sound collection device 10 includes microphone arrays MA1 and MA2, measurement section 11, correlation data 12, and sound pressure level calculation section 13.

The area sound collection device 10 may be realized by installing a program (the sound collection program according to the embodiment) in a computer having a processor, memory, etc., but even in this case, the area sound collection device 10 may be This can be illustrated using FIG. Note that the area sound collection device 10 may be partially or entirely realized using hardware.

The microphone arrays MA1 and MA2 are a plurality of microphones that receive human voices and background noise, and are placed anywhere in the space where the target area exists. The area sound collection device 10 performs a process of collecting target area sound from a sound source in the target area using two microphone arrays MA (MA1, MA2).

The measurement unit 11 measures the volume of input signals captured by the microphone arrays MA1 and MA2. The specific measurement method is not limited, and various methods can be applied. In this embodiment, an example is shown in which the measurement unit 11 measures background noise using one predetermined microphone in the microphone array MA1, but the measurement unit 11 is not limited to this, and may select the most suitable microphone according to the situation. For example, the statistical value (average value, median value, etc.) of the volume of each microphone in the microphone arrays MA1 and MA2 may be used as the measured value of the background noise.

The correlation data 12 is data indicating a correlation between a background noise measurement value measured by the area sound collection device 10 and a background noise measurement value measured by a sound level meter 30 described later. This correlation data 12 is measured in advance in an environment as shown in FIG. 2, for example, and is stored in the area sound collection device 10.

As shown in FIG. 2, in the background noise measurement environment 1, a speaker 20 that outputs a sound source equivalent to noise, a sound level meter 30 that measures the sound pressure level of background noise (noise), and an area sound collection device 10 are arranged. . The background noise measurement environment 1 is a space similar to a free sound field, such as an anechoic chamber, and each device is installed at an arbitrary location within this space.

For example, the sound collection part of the sound level meter 30 and the microphone part of the area sound collection device 10 (in the example of FIG. 2, the microphone M1 of the microphone array MA1) are arranged at an arbitrary distance from the sound output part of the speaker 20. At this time, the sound collection section of the sound level meter 30 and the microphone section of the area sound collection device 10 are both installed at the same distance from the audio output section of the speaker 20. That is, the distance L1 between the audio output section of the speaker 20 and the sound collection section of the sound level meter 30 is the same as the distance L2 between the audio output section of the speaker 20 and the microphone section of the area sound collection device 10.

Further, the sound level meter 30 and the area sound collecting device 10 are installed at positions where they do not affect each other's input sounds (that is, the distance W between the sound level meter 30 and the area sound collecting device 10 does not affect each other's input sound. (make sure to leave plenty of space between each other).

Note that the sound source equivalent to noise output from the speaker 20 may be, for example, white noise, or may be a sound source equivalent to noise in the usage environment where the area sound collection device 10 is actually installed.

The sound pressure level calculation unit 13 calculates (back-calculates) the actual volume of background noise based on the measurement value given from the measurement unit 11 and correlation data 12 created in advance. In other words, the sound pressure level calculation unit 13 estimates the volume of background noise (sound pressure level) assuming that it is measured using the sound level meter 30 in an actual usage environment.

(A-2) Operation of the Embodiment Next, the operation of the area sound collection device 10 of this embodiment having the above configuration will be explained.

First, a method for creating the correlation data 12 of the area sound collection device 10 will be explained. As mentioned above, the correlation data 12 is created (measured) in the background noise measurement environment 1 as shown in FIG.

That is, the correlation between the value (actual noise amount) measured by the sound level meter 30 after outputting noise equivalent sound from the speaker 20 and the value measured by one microphone in the microphone array MA1 of the area sound collection device 10 is determined. demand. At this time, noise-equivalent sounds of a plurality of volumes are outputted from the speaker 20, and the correlation between the respective volumes is determined.

For example, FIG. 3 shows an example of the correlation between the measurement value of the sound level meter and the measurement value of the sound collection device measured under the background noise measurement environment according to the embodiment. The area sound collection device 10 internally stores data having relationships as shown in FIG. 3 as correlation data 12.

Next, the operation of measuring background noise by placing the area sound collection device 10 in an actual usage environment will be described.

When the microphone array MA1 receives background noise, the measurement unit 11 provides the measured value of the microphone M1 of the microphone array MA1 to the sound pressure level calculation unit 13.

The sound pressure level calculation unit 13 refers to the correlation data 12 and calculates the actual noise amount (volume of background noise) by back calculating the measurement value of the sound level meter from the given measurement value.

FIG. 4 is an explanatory diagram showing an image of calculating the actual volume of background noise of the area sound collection device under an actual usage environment according to the embodiment. As shown in FIG. 4, the area sound collection device 10 calculates the volume of background noise (65 dBspl) based on the measured value (-25 dBm) of the microphone array MA1 (microphone M1) and the correlation data 12.

(A-3) Effects of Embodiment According to this embodiment, the following effects can be achieved.

The area sound collecting device 10 of this embodiment obtains the measured values of the sound level meter 30 and the measured values of the area sound collecting device 10 in advance and stores them as correlation data 12. Even if the area sound collection device 10 is not equipped, the volume of background noise can be calculated using only the area sound collection device 10.

(B) Other Embodiments The present invention is not limited to the above embodiments, and may include modified embodiments as exemplified below.

(B-1) In the above embodiment, an example is shown in which the application is applied to one individual area sound collection device 10, but when the individual performance differences and error ranges of the hardware and system to be used are known in advance If a correlation is created that takes into account the difference in performance, the same correlation can be applied to all sound collection devices with the same configuration.

(B-2) In the above embodiment, an example was shown in which the sound volume was measured only once at the actual site, but if the sound volume is remeasured depending on conditions such as the passage of time, the amount of background noise can be reduced. Able to follow changes.

(B-3) In the above embodiment, an example was shown in which the sound collection device of the present invention is applied to the area sound collection device 10, but the present invention is not limited to this, and any device that collects sound using a microphone may be used. It can be applied to a wide variety of devices.

DESCRIPTION OF SYMBOLS 1... Background noise measurement environment, 10... Area sound collection device, 11... Measurement part, 12... Correlation data, 13... Sound pressure level calculation part, 20... Speaker, 30... Sound level meter, M1... Microphone, MA1, MA2... Microphone array.

Claims (5)

A sound collection device including a microphone,
The sound pressure level of a predetermined sound source is output from a speaker, and the sound pressure level is measured using a sound pressure measuring device placed at a predetermined distance from the speaker, and the microphone is placed at a predetermined distance from the speaker. Correlation data storage means for storing correlation data in association with a measured value of sound volume measured using the
and sound pressure level calculation means for calculating a sound pressure level by back calculation from a measured value of sound volume newly measured using the microphone, based on the correlation data. A sound collection device including a microphone,
The sound pressure level of a predetermined sound source is output from a speaker, and the sound pressure level is measured using a sound pressure measuring device placed at a predetermined distance from the speaker, and the microphone is placed at a predetermined distance from the speaker. Correlation data storage means for storing correlation data in association with a measured value of sound volume measured using the
sound pressure level calculation means for calculating a sound pressure level from a sound volume measurement value newly measured using the microphone based on the correlation data;
The sound collection device, wherein the predetermined sound source is white noise. The sound collection device according to claim 1 or 2, wherein the correlation data is measured in an environment close to a free sound field. A computer installed in a sound collection device equipped with a microphone,
The sound pressure level of a predetermined sound source is output from a speaker, and the sound pressure level is measured using a sound pressure measuring device placed at a predetermined distance from the speaker, and the microphone is placed at a predetermined distance from the speaker. Correlation data storage means for storing correlation data in association with a measured value of sound volume measured using the
Sound collection characterized in that it functions as a sound pressure level calculation means that calculates a sound pressure level by back calculation from a sound volume measurement value newly measured using the microphone based on the correlation data. program. A sound collection method used in a sound collection device equipped with a microphone, the method comprising:
The correlation data storage means outputs sound from a predetermined sound source from a speaker, and outputs a sound pressure level measured using a sound pressure measuring device placed at a predetermined distance from the speaker, and a predetermined sound source from the speaker. Correlating and storing a measured value of sound volume measured using the microphone placed at a distance as correlation data,
The sound pressure level calculation means calculates the sound pressure level by back calculation from the measured value of the sound volume newly measured using the microphone, based on the correlation data.

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