KR102460441B1 - Microphone crosstalk prevention system with automatic mute function - Google Patents

Abstract

Provided is a microphone crosstalk prevention system with an automatic mute function, the system comprising: a microphone which sets initial frequency information, transmits the initial frequency information, receives final frequency information and final channel information to prevent crosstalk in a communication process, and detects a fall when a voice signal falls or is not obtained for a predetermined time for performing a mute operation to stop voice signal acquisition; and a random channel information determining device which receives the initial frequency information from the microphone, analyzes adjacent frequencies to set the final frequency information, and transmits the final channel information generated using a random channel generation algorithm to the microphone.

Description

Microphone crosstalk prevention system with automatic mute function

The present invention relates to a microphone cross-talk prevention system having an automatic muting function, and in particular, an automatic muting function capable of preventing frequency and channel cross-talk that may occur in the process of using a microphone and automatically muting the microphone. It relates to a crosstalk prevention system for a microphone.

In general, in the process of using a wireless microphone, a specific frequency is designated between a microphone and a speaker and signals are exchanged using the frequency. However, in recent years, the use of wireless devices is rapidly increasing, and since the frequency band used by each wireless device is limited, there is a problem in that interference or crosstalk with other devices may occur.

In addition, in the process of using the wireless microphone, if the user does not use the microphone, howling or noise may occur due to external noise, which may cause damage to others. There is a problem that an unpleasant noise may be generated through a hitting sound generated when the microphone collides with the floor.

Korean Patent Registration No. 10-2267192

In order to solve the problems of the prior art as described above, an embodiment of the present invention determines a frequency with the lowest probability of crosstalk and assigns an arbitrary channel within the determined frequency to prevent crosstalk with other devices. An object of the present invention is to provide a system for preventing cross-talk of a microphone having a mute function.

In addition, an embodiment of the present invention determines the posture and operating state of the microphone, and automatically mutes the microphone according to the determination result to prevent the user from outputting unwanted noise or noise. We want to provide a cross-talk prevention system for

According to one aspect of the present invention for solving the above problems, a system for preventing crosstalk of a microphone having an automatic mute function is provided. The microphone crosstalk prevention system with the automatic mute function sets the initial frequency information, transmits the first frequency information, receives the final frequency information and the final channel information to prevent crosstalk in the communication process, and for a preset time a microphone for performing a muting operation to stop acquiring a voice signal by detecting the drop when the voice signal is not acquired or falls; and a random channel information determining device that receives the first frequency information from the microphone, analyzes a peripheral frequency to set final frequency information, and transmits the final channel information generated using a random channel generation algorithm to the microphone. .

The microphone may include: a communication information processing unit configured to generate the first frequency information and receive and set the final frequency information and the final channel information; a current state information generating unit configured to obtain current state information of the microphone by acquiring posture information related to the current posture of the microphone and operation information indicating whether the voice signal is obtained; and a mute information processing unit configured to perform the mute operation using the current state information.

The communication information processing unit may include: an initial frequency information setting module configured to generate the first frequency information; a final frequency information setting module configured to receive the final frequency information and set a transmission frequency of the microphone to transmit a signal generated by the microphone to the final frequency; a final channel information determining module configured to receive the final channel information and set a transmission channel of the microphone as the final channel; and a voice signal transmission module configured to transmit a voice signal through a communication network established using the final frequency information and the final channel information.

The current state information generating unit may include: a posture information analysis module configured to analyze the posture information to confirm the current posture of the microphone; and an operation information analysis module configured to analyze the operation information to determine whether the microphone is currently operated, wherein the mute information processing unit is configured to mute the microphone when the current state information satisfies a mute criterion a mute processing module for performing the mute operation to block the acquisition of an external sound signal; and a mute canceling module configured to cancel the mute when the microphone is in a muted state by performing the mute operation and acquires a preset sound.

The posture information is obtained using a gyro sensor, and the operation information analysis module determines that the microphone is in operation when the voice signal is greater than or equal to a preset size, and when the voice signal is smaller than a preset size, the microphone is It can be judged that it is not working.

The muting criterion is a case in which the microphone is dropped, a voice signal is not acquired for a preset time while the microphone is fixed, or the microphone acquires a preset specific muting reference sound, and the preset sound is It may include a voice signal greater than or equal to a set size.

The random channel information determining apparatus may include: a frequency information processing unit receiving the first frequency information, analyzing the surrounding frequency, and determining the final frequency information; a channel information processing unit for determining the final channel using the random channel generation algorithm to determine a final channel that is an arbitrary channel for connection with the microphone within the final frequency; and a voice signal output unit configured to obtain the voice signal from the microphone and output the voice signal.

The frequency information processing unit may include: a frequency information obtaining module receiving the first frequency information from the microphone; a peripheral frequency information analysis module that acquires and analyzes peripheral frequencies existing in a preset area, wherein the peripheral frequency means a frequency of a radio signal greater than or equal to a preset size; and a final frequency information determining module configured to determine an arbitrary frequency not included in the peripheral frequency information as the final frequency by using the initial frequency information and the peripheral frequency information.

The channel information processing unit may include: a used channel information obtaining module configured to obtain used channel information that is currently set and used channel information; a random channel information generating module configured to generate at least one random channel information using the preset random channel generating algorithm; and a final channel information determination module that compares the used channel information with the random channel information, and determines one of the channels that do not overlap the used channel information among the random channel information as the final channel information.

The voice signal output unit may include: a voice signal acquisition module configured to acquire the voice signal transmitted from the microphone through the communication network; a converted speech signal generating module for generating a converted speech signal by applying a preset speech conversion algorithm to the speech signal using the speech conversion request signal; and a voice signal output module configured to output the voice signal or the converted voice signal.

The system for preventing crosstalk of a microphone having an automatic mute function according to an embodiment of the present invention analyzes the surrounding frequency, sets the lowest frequency as the final frequency, and randomly separates the channels used within the final frequency. There is an effect of preventing crosstalk and interference with a wireless device.

In addition, the system for preventing cross-talk of a microphone having an automatic mute function according to an embodiment of the present invention automatically mutes the microphone when the user does not use the microphone or misses the microphone so as not to output an unpleasant sound to others. can have an effect.

1 is a block diagram of a system for preventing cross-talk of a microphone having an automatic mute function according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating the communication information processing unit of FIG. 1 in more detail.
FIG. 3 is a block diagram illustrating the current state information generating unit of FIG. 1 in more detail.
4 is a block diagram illustrating the mute information processing unit of FIG. 1 in more detail.
5 is a block diagram illustrating the frequency information processing unit of FIG. 1 in more detail.
6 is a block diagram illustrating the channel information processing unit of FIG. 1 in more detail.
7 is a block diagram illustrating the audio signal output unit of FIG. 1 in more detail.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

1 is a block diagram of a system for preventing cross-talk of a microphone having an automatic mute function according to an embodiment of the present invention, FIG. 2 is a block diagram showing the communication information processing unit of FIG. 1 in more detail, and FIG. It is a block diagram showing the state information generating unit in more detail, FIG. 4 is a block diagram showing the mute information processing unit of FIG. 1 in more detail, FIG. 5 is a block diagram showing the frequency information processing unit of FIG. 1 in more detail, and FIG. 6 is FIG. It is a block diagram showing the channel information processing unit of , and FIG. 7 is a block diagram showing the audio signal output unit of FIG. 1 in more detail.

Hereinafter, a system for preventing crosstalk of a microphone having an automatic mute function according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 7 .

Referring to FIG. 1 , the system for preventing cross-talk of a microphone having an automatic mute function according to an embodiment of the present invention may be formed to include a microphone 1 and a device for determining random channel information 2 . A system for preventing cross-talk of a microphone having an automatic mute function uses the microphone 1 and the random channel information determining device 2 to prevent cross-talk, and can perform automatic muting using the microphone 1 .

Hereinafter, the present system will be described in detail by dividing it by operations performed in the present system.

1) Microphone - Prevents crosstalk between devices that determine random channel information

The microphone 1 sets initial frequency information, and transmits the initial frequency information to the random channel information determination device 2 . Thereafter, the microphone 1 receives the final frequency information and the final channel information from the random channel information determining device 2 to determine the frequency and the channel. Using the determined frequency and channel, the microphone 1 is formed to prevent cross-talk that may occur in the subsequent communication process.

The random channel information determining device 2 receives the initial frequency information from the microphone 1 and analyzes the surrounding frequencies to set the final frequency information. When the final frequency information is set, the random channel information determining apparatus 2 generates final channel information by using a preset random channel generation algorithm. The random channel information determining device 2 may be configured to transmit the generated final channel information and final frequency information to the microphone 1 .

Through the above-described process, the microphone 1 and the device 2 for determining random channel information can share a frequency and a channel, and through the shared frequency and channel, external crosstalk or interference can be minimized.

In more detail, the microphone 1 may include the communication information processing unit 11 of FIGS. 1 and 2 for this purpose. The communication information processing unit 11 is configured to generate initial frequency information and receive and set the final frequency information and the final channel information. For this purpose, the communication information processing unit 11 includes an initial frequency information setting module 111, a final frequency information setting module 112, a final channel information determining module 113, and a voice signal transmission module 114 as shown in FIG. can

The initial frequency information setting module 111 is configured to generate initial frequency information. In the present invention, in order for the microphone 1 and the device for determining random channel information 2 to perform communication, a specific frequency must be determined. In the present invention, an initial frequency desired for communication may be generated in the initial frequency information setting module 111 of the microphone 1 . When the initial frequency information setting module 111 generates an initial frequency, the corresponding information may be transmitted to the random channel information determination device 2 through a preset communication network.

The final frequency information setting module 112 may receive the final frequency determined by the random channel information determination device 2 , and set the transmission frequency of the microphone 1 using the received final frequency.

The final channel determination module 113 may receive the final channel information generated by the random channel information determination device 2 and set a specific channel as a transmission channel within the final frequency by using the received channel information.

Finally, the voice signal transmitting module 114 may be configured to transmit the voice signal obtained from the microphone 1 to the random channel information determining device 2 through a set transmission frequency and transmission channel.

Meanwhile, the random channel information determining device 2 may be configured to define a transmission frequency and a transmission channel for communication with the microphone 1 , and to receive and output a voice signal from the microphone 1 . To this end, the random channel information determination device 2 may be formed to include a frequency information processing unit 21, a channel information processing unit 22, and an audio signal output unit 23 as shown in FIGS. 1 and 5 to 7 . can

The frequency information processing unit 21 is configured to receive the initial frequency information and analyze the surrounding frequencies to determine the final frequency information. For this, the frequency information processing unit 21 may be formed to include a frequency information acquisition module 221 , an ambient frequency information analysis module 212 , and a final frequency information determination module 213 as shown in FIG. 5 .

The frequency information acquisition module 211 is configured to receive the initial frequency information from the microphone 1 , and the peripheral frequency information analysis module 212 is configured to acquire and analyze the peripheral frequencies.

The peripheral frequency information analysis module 212 may obtain radio waves existing within a preset area and check a frequency band of the radio waves. Currently, many wireless devices are performing wireless communication using bands of various frequencies for communication. In this case, if the same frequency is used, there is a possibility that crosstalk or interference may occur. Accordingly, the peripheral frequency information analysis module 212 may acquire peripheral frequency information by analyzing radio waves existing within a preset area. Here, the peripheral frequency information may be, for example, a frequency of a radio signal greater than or equal to a preset size. This is because the probability of generating crosstalk or interference is low in the case of a weak wireless signal.

The final frequency information determining module 213 is configured to determine the final frequency using the initial frequency information and the surrounding frequency information. The final frequency information determination module 213 preferably selects a frequency in which a radio signal does not exist among the surrounding frequency information as a final frequency, or determines a frequency with the weakest strength as a final frequency when a radio signal exists in all frequencies. can At this time, when the initial frequency matches the final frequency, the final frequency information determination module 213 may set the initial frequency information as the final frequency information, and when the initial frequency does not match the final frequency, the final frequency information determination module ( 213) may transmit the final frequency information, not the initial frequency, to the microphone 1 .

The channel information processing unit 22 is configured to determine a final channel using a preset random channel generation algorithm to determine a final channel that is an arbitrary channel for connection with a microphone within a final frequency. The random channel information determining device 2 may be connected to a plurality of wireless microphones 1 . In this case, it is necessary to use various channels within the same frequency in order to distinguish the voice signals transmitted from the plurality of wireless microphones 1 . To this end, the channel information processing unit 22 may be formed to include a channel information obtaining module 221 , a random channel information generating module 222 , and a final channel information determining module 223 as shown in FIG. 6 .

The channel information acquisition module 221 is configured to acquire used channel information, which is currently set and used channel information. The used channel information may be channel information currently used by a plurality of microphones connected to the random channel information determining device 2 .

The random channel information generating module 222 is configured to generate at least one piece of random channel information using a preset random channel generating algorithm. The random channel information generation module 222 generates random channel information using a random channel generation algorithm preset by the user. The reason for randomly generating the channel information may be to prevent hacking from the outside.

The final channel information determining module 223 may compare the used channel information with the random channel information and determine whether the random channel information and the used channel information are the same. If the generated random channel information matches the used channel information, the corresponding channel means a channel already being used by another wireless microphone 1 . Accordingly, the final channel information determination module 223 may request the random channel information generation module 222 to generate new random channel information. When new random channel information is generated by the random channel information generating module 222, the final channel information determining module 223 compares the corresponding random channel information with the used channel information again. By repeating this process, the final channel information determining module 223 may generate final channel information by determining random channel information not included in the used channel information as the final channel. In addition, the final channel information determination module 223 may transmit the generated final channel information to the microphone 1 to determine the final channel within the final frequency between the microphone 1 and the random channel information determination device 2 . .

The voice signal output unit 23 may be configured to obtain a voice signal from the microphone 1 and output the voice signal. To this end, the voice signal output unit 23 may include a voice signal acquisition module 231 , a converted voice signal generation module 232 , and a voice signal output module 233 as shown in FIG. 7 .

The voice signal acquisition module 231 is configured to acquire a voice signal transmitted from the microphone 1 through a communication network. Here, the communication network may be a communication network between the microphone 1 and the random channel information determining device 2 generated through the final frequency and the final channel as described above.

The converted voice signal generating module 232 is configured to generate a converted voice signal by converting the voice signal obtained by the voice signal acquiring module 231 when acquiring the voice conversion request signal. The converted voice signal generating module 232 may generate a converted voice signal by applying a preset voice transformation algorithm to the voice signal, and the preset voice transformation algorithm is applied to convert a sound in an effector such as an equalizer, for example. It may be an algorithm.

The audio signal output module 233 is configured to output an audio signal or a converted audio signal. Here, the audio signal output module 233 may be, for example, a speaker.

To summarize the above, the process of configuring the communication network using the final frequency and the final channel in order to prevent crosstalk of the microphone is performed as follows.

First, an initial frequency is set in the initial frequency information setting module 111 of the microphone 1 . The set initial frequency information is transmitted to the random channel information determining device 2 through an existing communication network. The transmitted initial frequency information is acquired through the frequency information acquisition module 211, and the peripheral frequency information analysis module 212 acquires the peripheral frequency, which is the frequency of the surrounding radio waves, when the initial frequency information is acquired, and analyzes the intensity of each peripheral frequency. do. Thereafter, the final frequency information determination module 213 determines a frequency having the smallest intensity among the surrounding frequencies as the final frequency using the initial frequency information and the surrounding frequency information and transmits the determined frequency to the microphone 1 . The microphone 1 receives the final frequency information and sets a frequency to communicate with the random channel information determining device 2 using the final frequency in the final frequency information 112 setting module.

Meanwhile, when the final frequency is determined, the random channel information determining device 2 acquires channels currently being used at the corresponding final frequency through the channel information acquisition module 221 . Thereafter, a random channel is generated using the random channel information generating module 222 , and the final channel information determining module 223 determines whether the generated random channel is the same as the channels currently being used. When the two channels are the same, the final channel information determining module 223 requests the random channel information generating module 222 to generate a new random channel, and among new random channels, a channel that is not the same as the currently used channel is selected as the final channel. can decide The determined final channel information is transmitted to the final channel information determination module 113 of the microphone 1 and can be used as a communication channel in the communication network using the final frequency formed between the microphone 1 and the random channel information determination device 2 . .

When the random channel information determining device 2 obtains a voice signal from the microphone 1 through the voice signal acquisition module 231 , it may output a voice to the outside using the voice signal output module 233 . Here, when a voice conversion request signal is obtained from the outside, the converted voice signal generating module 232 may generate a converted voice signal by applying a voice conversion corresponding to the voice conversion request signal to the voice signal, and the voice signal output module 233 may output the converted voice signal to the outside.

2) Mic automatically mute

On the other hand, in an embodiment of the present invention, the microphone 1 is formed to have an automatic mute function to stop the acquisition of the sound signal by detecting the drop when the voice signal is not obtained for a preset time or the microphone 1 falls. can

To this end, the microphone 1 may further include a current state information generating unit 12 and a mute information processing unit 13 as shown in FIG. 1 . The current state information generating unit 12 may be configured to generate current state information of the microphone 1 by acquiring posture information related to the current posture of the microphone 1 and operation information that is whether a voice signal is obtained, and the mute information processing unit (13) may perform a mute operation of the microphone 1 using the current state information.

The current state information generating unit 12 may be formed to include a posture information analysis module 121 and an operation information analysis module 122 as shown in FIG. 3 .

When the user is not using the microphone 1, it may be fixed to a stand or inserted into a charger, placed at an angle on a presentation table, or placed on a desk. In addition, the microphone 1 may perform various operations due to external factors irrelevant to the intention of the user, such as falling to the floor by gravity or rolling depending on the shape of the surface on which it is placed. In the present invention, the posture of the microphone 1 may refer to a state in which the microphone is currently placed, fixed, heard by the user, or an operation that moves regardless of the user's intention. The posture information analysis module 121 is configured to analyze the posture information to confirm the current posture of the microphone 1 . Here, the posture information may be obtained using, for example, a gyro sensor.

The operation information analysis module 122 is formed to determine whether the microphone 1 is currently operating. The operation information analysis module 122 may determine that the microphone 1 is currently operating according to the user's intention when the voice signal input through the microphone 1 is greater than or equal to a preset size. In addition, the operation information analysis module 122 may determine that the microphone 1 is not operating when the voice signal does not exist or is smaller than a preset size.

In the present invention, the current state of the microphone 1 may be determined using the current state information generated by the current state information generator 12 . For example, when the microphone 1 is fixed to the stand and a voice signal of a preset size or more is being input, it means that the user is using the microphone 1 fixed to the stand. As another example, when the microphone 1 is moving but a voice signal is not input, it may mean that the user is not using the microphone 1 .

The mute information processing unit 13 may include a mute reference storage module 131 , a mute processing module 132 , and a mute release module 133 as shown in FIG. 4 .

The mute reference storage module 131 is configured to store a mute reference that is a reference for performing a mute operation. The muting criterion storage module 131 may be provided to store muting criteria for determining whether muting should be performed with respect to various current state information expressed by a combination of posture information and operation information of the microphone 1 . Here, the mute criterion may be a case in which the microphone is dropped, a voice signal cannot be acquired for a preset time while the microphone is fixed, or the microphone acquires a preset specific mute reference sound.

In an embodiment of the present invention, it has been described that the mute standard storage module 131 exists, but the present invention is not limited thereto, and a mute standard may be transmitted from the outside.

The mute processing module 132 is configured to mute the microphone 1 when the current state information of the microphone 1 satisfies the mute criterion. The mute processing module 132 performs muting of the microphone 1 so that the microphone 1 does not acquire an external sound signal, so that the user does not use the microphone 1 or external noise such as dropping the microphone 1 It is possible to block external sound from being input through the microphone 1 in a situation where it can be input instead of the user's voice signal.

The mute canceling module 133 is formed to cancel the mute when the user intends to use the microphone 1 after the mute processing module 132 performs muting. The mute canceling module 133 may cancel the mute when acquiring a preset sound generated by the user when the microphone 1 is in a muted state. Here, the preset sound may be a voice signal input to the microphone 1 with a predetermined level or more.

Although one embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention can add components within the scope of the same spirit. , changes, deletions, additions, etc. may easily suggest other embodiments, but this will also fall within the scope of the present invention.

1: microphone
2: Random channel information determining device
11: Communication information processing unit
12: Current state information generation unit
13: mute information processing unit
21: frequency information processing unit
22: channel information processing unit
23: audio signal output unit
111: initial frequency information setting module
112: final frequency information setting module
113: final channel information determination module
114: voice signal transmission module
121: posture information analysis module
122: operation information analysis module
131: mute reference storage module
132: mute processing module
133: unmute module
211: frequency information acquisition module
212: ambient frequency information analysis module
213: final frequency information determination module
221: channel information acquisition module
222: random channel information generation module
223: final channel information determination module
231: voice signal acquisition module
232: converted voice signal generation module
233: audio signal output module

Claims (10)

Sets the initial frequency information, transmits the first frequency information, receives the final frequency information and the final channel information to prevent crosstalk in the communication process, and detects the fall if the voice signal is not acquired or falls for a preset time a microphone to perform a muting operation to stop acquiring a voice signal; and
A random channel information determination device that receives the first frequency information from the microphone, analyzes a peripheral frequency, sets final frequency information, and transmits the final channel information generated using a random channel generation algorithm to the microphone; includes,
The microphone is
a communication information processing unit generating the first frequency information and receiving and setting the final frequency information and the final channel information;
a current state information generating unit configured to obtain current state information of the microphone by acquiring posture information related to the current posture of the microphone and operation information indicating whether the voice signal is obtained; and
and a mute information processing unit configured to perform the mute operation using the current state information.
The current state information generating unit,
a posture information analysis module configured to analyze the posture information to confirm the current posture of the microphone; and
and an operation information analysis module configured to analyze the operation information to determine whether the microphone is currently operated.
The mute information processing unit,
a mute processing module configured to perform the mute operation to block acquisition of an external sound signal by muting the microphone when the current state information satisfies a mute criterion; and
and a mute canceling module that cancels the mute when the microphone performs the mute operation to obtain a preset sound when it is in a muted state,
The posture information is obtained using a gyro sensor,
The operation information analysis module,
If the voice signal is greater than or equal to a preset size, it is determined that the microphone is in operation, and when the voice signal is smaller than a preset size, it is determined that the microphone is not in operation,
The muting criterion is a case in which the microphone is dropped, a voice signal cannot be acquired for a preset time while the microphone is fixed, or the microphone acquires a preset specific muting reference sound,
The preset sound is a microphone crosstalk prevention system having an automatic muting function including a voice signal of a preset size or more. delete The method of claim 1,
The communication information processing unit,
an initial frequency information setting module configured to generate the first frequency information;
a final frequency information setting module configured to receive the final frequency information and set a transmission frequency of the microphone to transmit a signal generated by the microphone to the final frequency;
a final channel information determining module configured to receive the final channel information and set a transmission channel of the microphone as the final channel; and
and a voice signal transmission module configured to transmit a voice signal through a communication network set using the final frequency information and the final channel information. delete delete delete 4. The method of claim 3,
The random channel information determining device,
a frequency information processing unit that receives the first frequency information, analyzes the surrounding frequencies, and determines the final frequency information;
a channel information processing unit for determining the final channel using the random channel generation algorithm to determine a final channel that is an arbitrary channel for connection with the microphone within the final frequency; and
and a voice signal output unit configured to obtain the voice signal from the microphone and output the voice signal. 8. The method of claim 7,
The frequency information processing unit,
a frequency information acquisition module receiving the first frequency information from the microphone;
a peripheral frequency information analysis module that acquires and analyzes peripheral frequencies existing in a preset area, wherein the peripheral frequency means a frequency of a radio signal greater than or equal to a preset size; and
a final frequency information determination module for determining an arbitrary frequency not included in the peripheral frequency information as the final frequency by using the initial frequency information and the peripheral frequency information; . 9. The method of claim 8,
The channel information processing unit,
a used channel information obtaining module configured to obtain used channel information that is currently set and used channel information;
a random channel information generating module configured to generate at least one random channel information using the preset random channel generating algorithm; and
A final channel information determination module that compares the used channel information with the random channel information, and determines any one of the channels that do not overlap the used channel information among the random channel information as the final channel information; Microphone crosstalk prevention system. 10. The method of claim 9,
The audio signal output unit,
a voice signal acquisition module for acquiring the voice signal transmitted from the microphone through the communication network;
a converted speech signal generating module for generating a converted speech signal by applying a preset speech conversion algorithm to the speech signal using the speech conversion request signal; and
and a voice signal output module configured to output the voice signal or the converted voice signal.

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