KR101303584B1 - Auto howling control system and methode for mic system - Google Patents

Abstract

PURPOSE: An automatic howling removal apparatus for mike system, and a method thereof are provided to detect or remove howling accurately and effectively under various environments. CONSTITUTION: An automatic howling removal apparatus (100) comprises: a digital signal converter (110), a main controller (120), a digital signal processor (130), and database (140). The digital signal converter is input with analog signal from signal source and coverts the analog signal to digital signal, then converts the digital signal to analog signal, delivers the analog signal to a main amplifier. The main controller (120) is connected with the digital signal converter. The digital signal processer is connected with the digital signal converter, and operates under the control of the main controller. The database is connected with the main controller, and stores data.

Description

Auto Howling Control System and Method for MIC System

The present invention relates to an automatic howling removal apparatus 100 for a microphone system.

A digital signal converter 110 which receives an analog signal from a signal source, converts the digital signal into a digital signal, converts the digital signal into an analog signal, and transmits the digital signal to a main amplifier;

Main controller 120 is connected to the digital signal converter 110; And,

A digital signal processor (DSP) connected to the digital signal converter 110 and operated under the control of the main controller 120;

A database 140 connected to the main controller 120 to store data;

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The digital signal processor (DSP: Digital Signal Processor) 130,

A howling frequency search step is performed by scanning a howling frequency from which the howling is generated from the signal transmitted from the digital signal converter 110 and then storing it in the database 140 under the control of the main controller 120. Perform (S2) first,

Thereafter, a howling frequency removal step (S4) of removing the howling frequency stored in the database 140 from the signal transmitted from the digital signal converter 110 is performed to transfer the signal to the digital signal converter 110. It relates to an automatic howling removal device for a microphone system and a method for performing the function to be delivered to the main amplifier.

In general, howling is an audio loop phenomenon that occurs depending on the environment (direct, reflection, space, material) .It is noise that occurs in the entire frequency range of 100Hz to 8KHz, and is feedback and amplified at frequencies around 2KHz and 8KHz mainly due to the characteristics of the microphone. Refers to the loop phenomenon.

In order to remove or reduce such howling, an instructor who performs a lecture using a microphone in a pulpit, as in the patent document 1, "Howling prevention system of a sound device and a control method thereof (Korean Patent No. 10-1087708)" Detecting unit for detecting the distance, the position determination unit for determining the position of the microphone using the detection signal from the detection unit and the distance between the microphone and the first and second speakers respectively installed on the left and right sides of the pulpit determined by the position determination unit A configuration is disclosed that includes a controller for controlling the amplifier to symmetrically adjust sound pressure levels of the first and second speakers based on the change.

However, in the conventional invention, if a certain sound pressure is introduced to improve the howling, that is, a certain frequency is continuously amplified by the howling, so that the sound pressure or noise is increased, so that the input is compressed so that the sound pressure or noise does not rise to a certain sound pressure. The method prevents the sound pressure that is continuously amplified, but the howling is repeatedly generated until the first howling and the allowable sound pressure occur, and there is a problem in that the sound pressure that continuously fluctuates as the tone changes.

In particular, in small classrooms such as schools and academies, the speaker and microphone are close to each other, causing high howling due to direct and reflective effects.However, when a high sensitivity microphone such as a pin microphone is used, it cannot be used due to howling. The sound is continuously repeated until the sound pressure is allowed, which causes problems in lecture and listening.

In addition, due to various factors such as the size of the classroom and the shape and material of the wall, howling has different frequencies in each environment, so there is a limit to catching a lot of howling such as compression technology, EQ function, frequency equalizer, etc. There was a problem.

Patent Document 1: Republic of Korea Patent No. 10-1087708

The present invention solves the problems of the existing invention described above, it is possible to effectively and accurately detect and remove howling in a wide variety of environments, and to enable practical howling removal at low cost without expensive equipment or environmental improvement. Let that be the task.

In addition, the task is to enable the howling cancellation function to be applied to various audio equipment (wired, wireless microphones, amplifiers, speakers, etc.).

In order to achieve the above object, the automatic howling removal apparatus 100 for a microphone system of the present invention receives an analog signal from a signal source, converts it into a digital signal, converts the digital signal into an analog signal, and delivers the digital signal to the main amplifier. A signal converter 110;

Main control unit 120 is connected to the digital signal converter 110; And,

A digital signal processor (DSP) connected to the digital signal converter 110 and operated under the control of the main controller 120;

A database 140 connected to the main controller 120 to store data;

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The digital signal processor (DSP: Digital Signal Processor) 130,

A howling frequency search step is performed by scanning a howling frequency at which a howling occurs from the signal transmitted from the digital signal converter 110 and then storing it in the database 140 under the control of the main controller 120. Perform (S2) first,

Thereafter, a howling frequency removal step (S4) of removing the howling frequency stored in the database 140 from the signal transmitted from the digital signal converter 110 is performed to transfer the signal to the digital signal converter 110. Characterized in that the function to be delivered to the main amplifier.

In addition, it further comprises a scan operation input unit 150 connected to the main controller 120,

When the scan manipulation signal is input through the scan manipulation input unit 150, the howling frequency search step S2 may be further performed.

On the other hand, in order to achieve the above problem the automatic howling removal method for a microphone system of the present invention,

A digital signal converter 110 which receives an analog signal from a signal source, converts the digital signal into a digital signal, converts the digital signal into an analog signal, and transmits the digital signal to a main amplifier;

Main controller 120 is connected to the digital signal converter 110; And,

A digital signal processor (DSP) connected to the digital signal converter 110 and operated under the control of the main controller 120;

A database 140 connected to the main controller 120 to store data; In the auto-howling method for the microphone system performed in the automatic howling removal apparatus 100 for a microphone system configured to include,

 A howling frequency search step is performed by scanning a howling frequency at which a howling occurs from the signal transmitted from the digital signal converter 110 and then storing it in the database 140 under the control of the main controller 120. (S2);

A howling frequency removing step (S4) of removing the howling frequency stored in the database (140) from the signal transmitted from the digital signal converter (110);

An output step (S5) of transmitting the signal from which the howling frequency has been removed to the digital signal converter (110) through the howling frequency removing step (S4); Characterized in that comprises a.

In addition, the howling frequency search step (S2),

A howling frequency peak value search step (S2a) of searching for a peak value of the howling frequency;

A howling frequency storing step (S2b) of storing the peak value in the database (140);

A search time limit step (S2c) of determining whether a total time for performing the howling frequency peak value search step (S2a) exceeds a preset maximum search time (T);

A search frequency limit step (S2d) of determining whether the peak value stored in the howling frequency storage step (S2b) exceeds a preset maximum number; And further comprising:

In addition, it further comprises a scan operation input unit 150 connected to the main controller 120,

An input determination step (S1a) of determining whether a scan manipulation signal is input through the scan manipulation input unit 150;

If the input time of the scan operation input unit 150 exceeds a predetermined selection input time in the input determination step (S1a), the howling frequency search step (S2) is performed.

When the input time of the scan operation input unit 150 is less than or equal to a preset selection input time in the input determination step S1a, a howling frequency removing step S4 may be performed.

According to the present invention, it is possible to effectively and accurately detect and remove howling in a wide variety of environments, and there is an advantage in that practical howling removal can be performed at low cost without equipment or environment improvement of expensive broadcasting equipment.

In addition, there is an advantage that the howling cancellation function can be applied to various audio equipment (wired, wireless microphone, amplifier, speaker, etc.).

1 is a schematic diagram of a wired microphone system according to an embodiment of the present invention.
2 is a schematic diagram of a configuration of a wireless microphone system according to an embodiment of the present invention.
Figure 3 is a schematic diagram of a wired microphone system to which the automatic howling removal device for a microphone system according to an embodiment of the present invention is applied.
Figure 4 is a schematic diagram of a configuration of a wireless microphone system to which the automatic howling removal device for a microphone system according to an embodiment of the present invention.
5 is a block diagram illustrating an automatic howling removal apparatus for a microphone system according to an exemplary embodiment of the present invention.
6 is an operational flow chart of the automatic howling removal method for a microphone system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail an automatic howling removal device and method for a microphone system according to an embodiment of the present invention. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

First, the automatic howling removal apparatus 100 for a microphone system according to an embodiment of the present invention will be described. The automatic howling removal apparatus 100 for a microphone system of the present invention is largely divided into a digital signal converter 110, a main controller 120, a digital signal processor (DSP) 130, and the like as shown in FIG. It is configured to include a database (140).

First, the digital signal converter 110 will be described. As shown in FIG. 5, the digital signal converter 110 receives an analog signal from various signal sources such as a pre-amp 11 or a receiving unit 21 of a wired / wireless microphone system and samples the same. It converts into a digital signal, and converts the digital signal transmitted from the digital signal processor (DSP) 130 into an analog signal and transmits the analog signal to the main amplifier 22.

Next, the main control unit 120 will be described. As shown in FIG. 5, the main controller 120 is connected to the digital signal converter 110, the digital signal processor 130, and the database 140. It is programmed and configured to operate with functions that follow. The technology for programming and configuring the main controller 120 to operate with the function according to the present invention corresponds to a level of technology widely known and practiced in the art to which the present invention pertains, and thus detailed description thereof will be omitted.

Next, a digital signal processor (DSP) 130 will be described. As shown in FIG. 5, the digital signal processor (DSP) 130 is connected to the digital signal converter 110 and operates under the control of the main controller 120.

In this case, a wide variety of embodiments are possible for the embodiment constituting the digital signal processor (DSP) 130, and one embodiment may include a multi-stage band pass filter and a multistage. It is desirable to include a notch filter.

In this case, as illustrated in FIG. 6, the digital signal processor 130 scans a howling frequency at which howling occurs from the signal transmitted from the digital signal converter 110. Subsequently, a howling frequency search step S2 for storing in the database 140 is first performed under the control of the main controller 120, and then the data is transmitted from the signal transmitted from the digital signal converter 110. It is preferable to perform the function of performing the howling frequency removing step (S4) of removing the howling frequency stored in the base 140 and transferring it to the digital signal converter 110 to be delivered to the main amplifier.

Meanwhile, the automatic howling removal apparatus 100 for a microphone system according to an embodiment of the present invention further includes a scan operation input unit 150 connected to the main controller 120 as shown in FIG. 5. It is preferable.

In this case, when the scan manipulation signal is input through the scan manipulation input unit 150, it is preferable to perform the howling frequency search step S2.

Next, the automatic howling removal method for the microphone system of this invention is demonstrated. The automatic howling removal method for a microphone system of the present invention, as shown in Figures 5 and 6, characterized in that performed in the automatic howling removal device 100 for the microphone system.

In the automatic howling removal method for the microphone system of the present invention, as shown in FIG. 6, first, a howling frequency is generated from a signal transmitted from the digital signal converter 110, and then the main control unit ( According to the control of 120, a howling frequency search step S2 stored in the database 140 is performed. In this case, in general, when the space to which the present invention is applied is determined, the space has a unique howling frequency distribution characteristic according to its physical / acoustic characteristics, and in the specific space through the howling frequency search step (S2). Information about the howling frequency distribution characteristic of the is stored. In this case, since the howling frequency distribution characteristic is determined according to the physical / acoustic characteristics of the space as described above, once the howling frequency distribution characteristic of the space is stored through the howling frequency search step S2. Whether or not a variety of audio equipment (wired, wireless microphones, amplifiers, speakers, etc.) are used, it is possible to eliminate howlings.

In this case, as shown in FIG. 6, the howling frequency search step S2 includes a howling frequency peak value search step S2a for searching for a peak value of the howling frequency, and the peak value is stored in the database 140. It is preferably configured to include a howling frequency storage step (S2b).

In addition, as shown in FIG. 6, the howling frequency search step S2 is a search time for determining whether a total time for performing the howling frequency peak value search step S2a exceeds a preset maximum search time T. The method may further include a limiting step S2c and a search frequency limiting step S2d for determining whether the peak value stored in the howling frequency storing step S2b exceeds a preset maximum number. In this case, the preset maximum search time (T) can be set in various ways according to the operating characteristics and performance of the apparatus in which the present invention is implemented, and the maximum number set above for limiting the number of searches is also provided. Various modifications can be made depending on the physical and acoustic characteristics of the space to be implemented or the characteristics of the device.

Next, after the howling frequency removing step S4 of removing the howling frequency stored in the database 140 from the signal transmitted from the digital signal converter 110, the howling frequency removing step S4 is performed. By performing the output step (S5) for transmitting the signal from which the howling frequency has been removed to the digital signal converter 110, it is possible to output a signal from which a signal in the frequency range in which howling may occur.

Therefore, the function of outputting a signal from which the howling frequency has been removed through the howling frequency removing step (S4) prevents continuous amplification of the howling as in the existing invention, but it is possible to continuously repeat howling occurs until an acceptable sound pressure. Rather, it is possible to eliminate the occurrence of the howling at source.

On the other hand, if the configuration further comprises a scan operation input unit 150 connected to the main controller 120, as shown in Figure 6 input to determine whether the scan operation signal input through the scan operation input unit 150 If the input time of the scan operation input unit 150 exceeds a predetermined selection input time in the input determination step (S1a) to perform the determination step (S1a), the howling frequency search step (S2) When the input time of the scan operation input unit 150 is less than or equal to a predetermined selection input time in the input determination step (S1a), it is preferable to perform the howling frequency removing step (S4).

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: microphone transmitter 11: preamp
12: transmission means
20: amplifier 21: receiving means
22: main amplifier
100: automatic howling removal device for microphone system
110: digital signal converter 120: main controller
130: digital signal processor (DSP)
140: database
150: scan operation input unit

Claims (5)

A digital signal converter 110 which receives an analog signal from a signal source, converts the analog signal into a digital signal, converts the digital signal into an analog signal, and transmits the analog signal to a main amplifier;
A main control unit 120 connected to the digital signal converter 110;
A digital signal processor (DSP) connected to the digital signal converter 110 and operated under the control of the main controller 120;
A database 140 connected to the main controller 120 to store data;
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The digital signal processor (DSP: Digital Signal Processor) 130,
A howling frequency search step is performed by scanning a howling frequency at which a howling occurs from the signal transmitted from the digital signal converter 110 and then storing it in the database 140 under the control of the main controller 120. Perform (S2) first,
Thereafter, a howling frequency removal step (S4) of removing the howling frequency stored in the database 140 from the signal transmitted from the digital signal converter 110 is performed to transfer the signal to the digital signal converter 110. Characterized in that the function to be delivered to the main amplifier,
The howling frequency search step (S2),
A howling frequency peak value search step (S2a) of searching for a peak value of the howling frequency;
A howling frequency storing step (S2b) of storing the peak value in the database (140);
A search time limit step (S2c) of determining whether a total time for performing the howling frequency peak value search step (S2a) exceeds a preset maximum search time (T);
A search frequency limit step (S2d) of determining whether the peak value stored in the howling frequency storage step (S2b) exceeds a preset maximum number; Automatic howling removal device for a microphone system, characterized in that the configuration further comprises a.
The method according to claim 1,
It further comprises a scan operation input unit 150 connected to the main controller 120,
When the scan operation signal is input through the scan operation input unit 150, the howling frequency search step (S2), characterized in that the automatic howling removal apparatus for a microphone system.
delete A digital signal converter 110 which receives an analog signal from a signal source, converts the analog signal into a digital signal, converts the digital signal into an analog signal, and transmits the analog signal to a main amplifier;
A main control unit 120 connected to the digital signal converter 110;
A digital signal processor (DSP) connected to the digital signal converter 110 and operated under the control of the main controller 120;
A database 140 connected to the main controller 120 to store data;
In the auto-howling method for the microphone system performed in the automatic howling removal apparatus 100 for a microphone system configured to include,
A howling frequency search step is performed by scanning a howling frequency at which a howling occurs from the signal transmitted from the digital signal converter 110 and then storing it in the database 140 under the control of the main controller 120. (S2);
A howling frequency removing step (S4) of removing the howling frequency stored in the database (140) from the signal transmitted from the digital signal converter (110);
An output step (S5) of transmitting the signal from which the howling frequency has been removed to the digital signal converter (110) through the howling frequency removing step (S4); Characterized in that comprises a,
The howling frequency search step (S2),
A howling frequency peak value search step (S2a) of searching for a peak value of the howling frequency;
A howling frequency storing step (S2b) of storing the peak value in the database (140);
A search time limit step (S2c) of determining whether a total time for performing the howling frequency peak value search step (S2a) exceeds a preset maximum search time (T);
A search frequency limit step (S2d) of determining whether the peak value stored in the howling frequency storage step (S2b) exceeds a preset maximum number; Automatic howling removal method for a microphone system, characterized in that further comprises a.
The method of claim 4,
It further comprises a scan operation input unit 150 connected to the main controller 120,
An input determination step (S1a) of determining whether a scan manipulation signal is input through the scan manipulation input unit 150;
If the input time of the scan operation input unit 150 exceeds a predetermined selection input time in the input determination step (S1a), the howling frequency search step (S2) is performed.
And a method of removing a howling frequency (S4) when the input time of the scan manipulation input unit 150 is less than or equal to a predetermined input time in the input determination step (S1a).

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