KR102007489B1 - Apparatus for mixing audio having automatic control function or output channel based on priority for input channel, system including the same and method of the same - Google Patents

Abstract

The present invention relates to an audio mixing device, a system including the same, and a method therefor. According to an embodiment of the present invention, the audio mixing device comprises: an input unit including a plurality of input terminals to which each of a plurality of input signals is applied; an output unit including a plurality of output terminals for outputting at least a portion of the plurality of input signals as a plurality of output signals, respectively; a processor configured to determine at least a portion of the plurality of input signals as a plurality of output signals based on the priority for the input signals of the output terminals; an input signal determining unit configured to determine a valid input signal, which is an input signal having a magnitude greater than or equal to a threshold, and determine an invalid input signal, which is an input signal having a magnitude smaller than the threshold, among the plurality of input signals; an input channel processing unit configured to process an input sound effect for each of a plurality of valid input signals of the input signals; an input/output channel mixing unit configured to generate a plurality of mixed signals by mixing a portion of the plurality of valid input signals processed in input sound effect; an output channel processing unit configured to process an output sound effect for each of the plurality of mixed signals; and a storage unit configured to store the priority for the input signals of the output terminals. The output unit can be configured to output each of the mixed signals processed in output sound effect as each of the output signals. Thus, an input signal is output as an output signal or an output is interrupted with caution, the cost of installing an additional audio mixing device for priority can be reduced, and the priority of the input signal can be implemented with one audio mixing device.

Description

Audio mixing device having automatic control of output channel according to priority of each input channel, system including same and method thereof METHOD OF THE SAME}

The present invention relates to an audio mixing device having an automatic control function of an output channel according to priority of each input channel, a system including the same, and a method thereof, and more particularly, an effective input signal among input signals applied to a plurality of input terminals. An audio mixing device having an automatic control function of an output channel according to the priority of each input channel that determines a plurality of output signals based on the priority of the plurality of input signals and outputs the same, and a system and method thereof It is about.

An audio mixer is an apparatus that outputs an audio input signal input from a plurality of sound sources to a desired output terminal, and selects some input signals from among a plurality of input signals, mixes them, or amplifies or attenuates them. It is a device that gives various sound effects such as equalizing, reverb, delay, and compression. The audio mixing device is generally called a console and is the most important device in which the control system of most audio equipments is concentrated when various audio equipments are operated in a large scale, and can be operated by a professional engineer.

As such, the audio mixing device, which is the core equipment of the acoustic equipment, is generally fixedly operated by the user's manual operation. In this case, in the case of an audio mixing device used in a performance hall, an emergency broadcasting audio mixing device having a priority over an existing audio mixing device may be additionally installed in order to give priority to the emergency broadcasting to be broadcast in an emergency situation such as a fire. have. In addition, a controller specialized for emergency broadcasting may be separately installed for clear information delivery of emergency broadcasting in a disaster situation. Therefore, the cost increase due to the installation of the audio mixing device having priority and the control device specialized for emergency broadcasting may be a problem.

In addition, when an audio mixing device having priority is input to an input of an audio mixing device in general use, the settings of various effectors of the audio mixing device optimized for general output are equally applied in emergency broadcasting, so that accurate information of emergency broadcasting is applied. Problems can occur with delivery.

Accordingly, priority broadcasting is possible using one audio mixing apparatus without installing a separate priority audio mixing apparatus to be used for emergency broadcasting, and an audio mixing apparatus for applying different sound effects to each output signal may be provided. The need is increasing.

Accordingly, an object of the present invention is to receive an input signal through a plurality of input terminals, determine whether the signal is valid for each input signal, perform sound effect processing on the valid input signal, and mix some of the input signals. To generate a mixed signal to perform sound effect processing, and to determine and output a plurality of output signals based on priorities of the plurality of input signals, a system including the same, and a system and a method thereof. will be.

Another object of the present invention is to determine that the input signal is a valid input signal when the magnitude of each of the plurality of input signals is greater than or equal to a certain threshold or more than the reference time, the size of the input signal is determined The present invention provides an audio mixing device, a system including the same, and a method thereof, which may determine an input signal as an invalid input signal when a time that is less than or equal to a threshold is less than or equal to a reference time.

Another problem to be solved by the present invention is to output the input signal of the higher priority when the input signal of the higher priority is determined as a valid input signal based on the priority of the input signal stored for each output terminal In this case, the present invention provides an audio mixing device capable of backing up and storing parameters for various sound effects on an input signal having a lower priority output, a system including the same, and a method thereof.

Another problem to be solved by the present invention is to change the output signal of the output terminal from the higher priority input signal to the lower priority input signal that was previously output when it is determined that the higher priority input signal is an invalid input signal. In this case, the present invention provides an audio mixing apparatus, a system including the same, and a method thereof, which can apply sound effect parameters having a lower priority that have been backed up and stored.

Another problem to be solved by the present invention is to determine a signal having a frequency as a periodic signal when the size of a signal having one frequency is greater than or equal to a threshold value for a mixed signal in which some of the plurality of input signals are mixed. An audio mixing device which calculates a minimum magnitude difference value from the other aperiodic signals except for a signal, and adjusts the magnitude of the periodic signal by reducing the magnitude of the aperiodic signal except the periodic signal by the calculated magnitude difference value. It is to provide a system and a method thereof.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to solve the above problems, an audio mixing device according to an embodiment of the present invention includes an input unit consisting of a plurality of input terminals to which each of a plurality of input signals is applied, and at least some of the plurality of input signals to a plurality of output signals. An output unit comprising a plurality of output terminals each outputting, a processor configured to determine at least some of the plurality of input signals as a plurality of output signals based on priorities of the plurality of input signals of each of the plurality of output terminals; An input signal determination unit configured to determine an effective input signal that is an input signal having a magnitude greater than or equal to a threshold among a plurality of input signals, and determine an invalid input signal that is an input signal whose magnitude is smaller than a threshold; a plurality of valid input signals among the plurality of input signals An input channel processor configured to process input sound effects respectively A plurality of input / output channel mixing units configured to mix a portion of the plurality of valid input signals to generate a plurality of mixed signals, an output channel processing unit configured to process each of the plurality of mixed signals, and an output sound effect; And a storage unit configured to store a priority for the input signal, and the output unit may be configured to output each of the plurality of mixed signals processed with the output sound effect as each of the plurality of output signals.

According to another feature of the invention, if it is determined by the input signal determiner that the first input signal of the plurality of input signals is a valid input signal, the processor is based on the priority of the first input signal of the plurality of output terminals The output unit may be further configured to determine an output signal of the first output terminal, and the output unit may be further configured to output the first input signal as an output signal of the first output terminal.

According to another feature of the invention, if it is determined by the input signal determiner that the second input signal of the plurality of input signals is a valid input signal, the processor, based on the priority, the second input signal of the plurality of output terminals Searches for an output terminal having a higher priority, determines a first output terminal among the plurality of output terminals as an output terminal having a second input signal having a higher priority, and outputs an output signal of the first output terminal from the first input signal. And configured to change to a two input signal, wherein the output unit is further configured to stop the first output terminal from outputting the first input signal as an output signal and output the second input signal as an output signal of the first output terminal. Can be.

According to another feature of the invention, if it is determined by the input signal determiner that the second input signal is an invalid input signal and the first input signal is a valid input signal, the processor is configured to output an output signal of the first output terminal. And is configured to change from the second input signal to the first input signal, wherein the output unit stops the first output terminal from outputting the second input signal as an output signal, and outputs the first input signal to the output signal of the first output terminal. It may be further configured to output.

According to another feature of the invention, the storage unit is configured to store a backup parameter module configured to store a backup parameter of the first input signal when the output unit stops outputting the first input signal as an output signal. It may further include wealth.

According to another feature of the invention, the processor is further configured to apply a backup parameter of the first input signal to the first input signal when the output signal of the first output terminal is changed from the second input signal to the first input signal. The output unit may be further configured to output the first input signal to which the backup parameter of the first input signal is applied, as an output signal of the first output terminal.

According to still another aspect of the present invention, the backup parameter of the first input signal may include a process performed by the input channel processor and the output channel processor to the first input signal, and a periodic signal performed by the periodic signal processor to the first input signal. It may be at least one of adjusting the size.

According to another feature of the invention, the input signal determination unit, the time that the time that the size is maintained above the threshold value of the plurality of input signals is determined as the effective input signal more than the effective reference time, the time that the size is smaller than the threshold value The input signal that is greater than or equal to this invalid reference time may be further configured to be determined as an invalid input signal.

According to another feature of the invention, the storage unit may further include a priority parameter module storage unit for storing the priority parameters of at least some of the plurality of input signals determined as output signals of the plurality of output terminals.

According to another feature of the present invention, the priority parameter may be sound effect processing of an input channel processing unit and an output channel processing unit for at least some of the plurality of input signals determined as output signals of the plurality of output terminals.

According to another feature of the invention, the audio mixing device further comprises a periodic signal processing unit configured to generate a plurality of periodic processing signals by adjusting the magnitude of the periodic signal included in each of the plurality of mixed signals, the output channel processing unit The output sound effect may be further configured to process each of the plurality of periodic processing signals, and the output unit may be further configured to output each of the plurality of periodic processing signals processed by the output sound effect as a plurality of output signals.

According to another feature of the invention, the periodic signal processing unit, and determines the frequency signal of the maximum magnitude of the plurality of mixed signals as a periodic signal, the remaining signals as an aperiodic signal, the maximum magnitude value of the periodic signal and aperiodic Calculating a minimum magnitude difference value that is a difference between the maximum magnitude values of the signals and reducing the magnitude of the non-periodic signal except the periodic signal among the plurality of mixed signals by the minimum magnitude difference value to generate a plurality of periodic processing signals; have.

An audio mixing method according to an embodiment of the present invention comprises the steps of receiving each of a plurality of input signals to a plurality of input terminals, an effective input signal which is an input signal whose magnitude is greater than or equal to a threshold among the plurality of input signals, and an input whose magnitude is smaller than a threshold value. Determining an invalid input signal that is a signal, sound effect processing a plurality of valid input signals among the plurality of input signals, and generating a plurality of mixed signals by mixing some of the sound effect processed valid input signals Sound effect processing each of the plurality of mixed signals, determining at least some of the plurality of input signals as the plurality of output signals based on priorities of the plurality of input signals of each of the plurality of output terminals and effect processing And outputting each of the plurality of mixed signals as each of the plurality of output signals.

According to another feature of the invention, the step of determining at least a portion of the plurality of input signals as a plurality of output signals, when it is determined that the first input signal of the plurality of input signals is a valid input signal, each of the plurality of output terminals The method may further include determining the first input signal as an output signal of the first output terminal among the plurality of output terminals based on the priority of the plurality of input signals.

According to still another aspect of the present disclosure, the determining of at least a portion of the plurality of input signals as the plurality of output signals may include determining that the second input signal among the plurality of input signals is a valid input signal. Searching for an output terminal of which the second input signal has a higher priority among the plurality of output terminals based on the priority of the plurality of input signals of the second input signal; Determining that the output terminal is a priority and changing the output signal of the first output terminal from the first input signal to the second input signal, the method further comprising: the first output terminal converting the first input signal to an output signal; The method may further include storing a backup parameter of the first input signal and outputting the second input signal as an output signal of the first output terminal. All.

According to another aspect of the invention, the audio mixing method, determining the second input signal as an invalid input signal, determining the first input signal as a valid input signal, the output signal of the first output terminal to the second input Changing from a signal to a first input signal, stopping the first output terminal from outputting the second input signal as an output signal and applying a backup parameter of the first input signal to the first input signal The method may further include outputting an input signal as an output signal of the first output terminal.

According to another feature of the present invention, the determining of the valid input signal and the invalid input signal may include determining an input signal having a time at which a magnitude of the plurality of input signals maintained above a threshold is equal to or greater than a valid reference time, It may be a step of determining an input signal whose time that the magnitude is kept smaller than the threshold is equal to or greater than the invalid reference time as the invalid input signal.

According to another feature of the present invention, the audio mixing method adjusts the magnitude of the periodic signal included in each of the plurality of mixed signals after generating the plurality of mixed signals and before sound effect processing each of the plurality of mixed signals. And generating a plurality of periodic processing signals, wherein the sound effect processing of each of the plurality of mixed signals is a sound effect processing of each of the plurality of periodic processing signals, and outputs each of the plurality of output signals. The step may be a step of outputting each of the plurality of periodic processing signals subjected to the effect processing as each of the plurality of output signals.

According to another feature of the present invention, the generating of the plurality of periodic processing signals may include determining a frequency signal of the maximum magnitude among the plurality of mixed signals as a periodic signal and determining the remaining signals as an aperiodic signal, the periodic signal. Calculating a minimum magnitude difference value that is a difference between the maximum magnitude value of the signal and the maximum magnitude value of the aperiodic signal and reducing the magnitude of the aperiodic signal excluding the periodic signal among the plurality of mixed signals by the minimum magnitude difference value The method may further include generating a signal.

In an audio mixing system according to an embodiment of the present invention, a signal generator for generating at least one of a video signal, a sound source, a voice signal, and an emergency broadcast signal into a plurality of input signals is received from a plurality of input signals from a signal generator. An audio mixing device including an audio mixing device for outputting a plurality of output signals, a power amplifier receiving each of a plurality of output signals from the audio mixing device, and a plurality of speakers receiving and outputting each of the plurality of output signals from the power amplifier, Is an input unit consisting of a plurality of input terminals receiving each of a plurality of input signals, an output unit consisting of a plurality of output terminals for outputting at least a portion of the plurality of input signals as a plurality of output signals, respectively, and a plurality of output terminals, respectively Outputting a plurality of at least some of the plurality of input signals based on priorities for the plurality of input signals; A processor configured to determine a signal, an input signal determination unit configured to determine an effective input signal that is an input signal having a magnitude greater than or equal to a threshold among a plurality of input signals, and determine an invalid input signal that is an input signal whose magnitude is smaller than the threshold; An input channel processing unit configured to process an input sound effect of the plurality of valid input signals, respectively, of the input signals of the input / output channel mixing unit configured to generate a plurality of mixed signals by mixing some of the plurality of valid input signals processed by the input sound effect And an output channel processing unit configured to process each of the plurality of mixed signals with an output sound effect, and a storage unit configured to store priorities for the plurality of input signals of each of the plurality of output terminals. Output each of the plurality of mixed signals as each of the plurality of output signals That may be configured.

According to another feature of the present invention, the audio mixing system receives each of a plurality of output signals from a power amplifier, determines each of a plurality of speakers to which each of the plurality of output signals is transmitted, and outputs a plurality of output signals determined by each of the plurality of speakers. The apparatus may further include an integrated broadcast line controller configured to transmit, and the plurality of speakers may be further configured to receive and output a plurality of output signals from the integrated broadcast line controller.

Specific details of other embodiments are included in the detailed description and drawings.

According to the present invention, by determining only an input signal having a magnitude greater than or equal to a threshold value as an effective input signal, it is possible to prevent an unwanted input signal such as noise from being determined as an output signal and to increase stability of output signal determination.

In addition, the present invention outputs an input signal as an output signal by determining the corresponding input signal as an effective input signal or an invalid input signal only when a plurality of input signals have a magnitude greater than or equal to a threshold or less than a threshold time. Careful to stop the output, it is effective to prevent the accident.

In addition, the present invention reduces the cost of installing an additional audio mixing device for priority, and has the effect of implementing the priority of the input signal with one audio mixing device.

In addition, in the present invention, when the input signal from which the output has been stopped is again determined as an output signal and outputted, the previously processed sound effect may be automatically processed to the input signal, and thus, a separate sound effect process needs to be performed. There is an effect that can output the original input signal as it is without.

In addition, the present invention outputs an output signal in which the magnitude value of the aperiodic signal except the periodic signal is adjusted, so that the magnitude of the aperiodic signal can be selectively reduced in consideration of an emergency situation, and the information transmission of the audio mixing device There is an effect that clarity can be improved.

The effects according to the present invention are not limited by the contents exemplified above, and more various effects are included in the present specification.

1 is a schematic diagram illustrating a relationship between an audio mixing device, a plurality of input signals, and a plurality of output signals according to an embodiment of the present invention.
2 is a block diagram showing a schematic configuration of an audio mixing device according to an embodiment of the present invention.
3 is a block diagram showing a schematic configuration of an audio mixing device according to an embodiment of the present invention.
4 is a flowchart illustrating an audio mixing method according to an embodiment of the present invention.
5A and 5B are graphs illustrating an audio mixing method according to an embodiment of the present invention.
6 is a table for explaining an audio mixing method according to an embodiment of the present invention.
7 is a schematic diagram illustrating an audio mixing method according to an embodiment of the present invention.
8 is a block diagram showing a schematic configuration of an audio mixing device according to another embodiment of the present invention.
9 is a flowchart illustrating an audio mixing method according to another embodiment of the present invention.
10A and 10B are graphs illustrating an audio mixing method according to another embodiment of the present invention.
11A and 11B are graphs illustrating an audio mixing method according to another embodiment of the present invention.
12A and 12B are block diagrams illustrating an audio mixing system according to an embodiment of the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention, and the general knowledge in the art to which the present invention pertains. It is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined only by the scope of the claims.

Shapes, sizes, ratios, angles, numbers, and the like disclosed in the drawings for describing the embodiments of the present invention are exemplary, and the present invention is not limited to the illustrated items. In addition, in describing the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. When 'comprises', 'haves', 'consists of' and the like mentioned in the present specification, other parts may be added unless 'only' is used. In case of singular reference, the plural number includes the plural unless specifically stated otherwise.

In interpreting a component, it is interpreted to include an error range even if there is no separate description.

Although the first, second, etc. are used to describe various components, these components are not limited by these terms. These terms are only used to distinguish one component from another. Therefore, the first component mentioned below may be a second component within the technical spirit of the present invention.

Like reference numerals refer to like elements throughout the specification unless otherwise specified.

The size and thickness of each component shown in the drawings are shown for convenience of description, and the present invention is not necessarily limited to the size and thickness of the illustrated configuration.

Each of the features of the various embodiments of the present invention may be combined or combined with each other in part or in whole, various technically interlocking and driving as can be understood by those skilled in the art, each of the embodiments may be implemented independently of each other It may be possible to carry out together in an association.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram illustrating a relationship between an audio mixing device, a plurality of input signals, and a plurality of output signals according to an embodiment of the present invention.

Referring to FIG. 1, the audio mixing device 100 is a device capable of outputting some of a plurality of input signals input to each of a plurality of input terminals as output signals of a plurality of output terminals. In detail, the audio mixing apparatus 100 may preferentially output some of the plurality of input signals based on the priority of the input signals determined for the plurality of output terminals. In addition, the audio mixing apparatus 100 may determine each of the plurality of input signals as one of an effective input signal and an invalid input signal, and mix some of the plurality of input signals determined as valid input signals to output the plurality of output terminals. Can be output as a signal. In this case, the audio mixing device 100 may perform separate sound effect processing on each of the plurality of input signals, the plurality of mixed signals, and the plurality of output signals. A more detailed description of the audio mixing device 100 will be described later with reference to FIG. 2.

The plurality of input signals mean an audio input signal that is externally applied to the audio mixing device 100. Each of the plurality of input signals may be input to each input terminal of the audio mixing device 100. As illustrated in FIG. 1, the plurality of input signals may be a voice audio signal, an emergency alarm signal, a sound source audio signal, a user's voice signal, or the like input through a microphone, but is not limited thereto.

The plurality of output signals refers to audio signals output to each of the plurality of output terminals of the audio mixing device 100. The plurality of output signals may be one of a plurality of input signals, or may be a signal in which some of the plurality of input signals are mixed. In addition, the plurality of output signals may be signals in which some of the plurality of input signals are sound effected by the audio mixing apparatus 100. Each of the plurality of output signals may be output at different places, and as shown in FIG. 1, may be output at a place such as an auditorium, a performance hall, a building, and the like, but is not limited thereto. In this case, the number of the plurality of output signals may be the same as the number of the plurality of input signals, but is not limited thereto and may be different from each other.

2 is a block diagram showing a schematic configuration of an audio mixing device according to an embodiment of the present invention.

Referring to FIG. 2, the audio mixing apparatus 100 receives a plurality of input signals and converts at least some of the plurality of input signals into a plurality of output signals based on priorities of input signals of the respective output terminals. It is a device that can output. The audio mixing device 100 may include an input unit 110, an input signal determiner 120, an input channel processor 130, an input / output channel mixer 140, an output channel processor 150, an output unit 160, and a processor ( 170 and the storage unit 180.

The input unit 110 of the audio mixing device 100 may receive various audio input signals. The input unit 110 of the audio mixing device 100 may include a plurality of input terminals, and each of the plurality of input terminals may be connected to an external device through which each of the plurality of input signals is transmitted. Accordingly, each of the plurality of input terminals may receive a plurality of input signals. In addition, the plurality of input signals input to each of the plurality of input terminals of the input unit 110 may be changed by the user.

The input unit 110 is a pre-amplifier for providing a sufficient signal-to-noise ratio according to the type of the plurality of input signals, a phantom power supply for supplying power to the condenser microphone, and a digital mixer for digital signal processing. It may include an analog to digital converter (ADC) unit. However, the components included in the input unit 110 are not limited thereto, and various components may be included in the input unit 110 as needed.

The input signal determiner 120 of the audio mixing device 100 may determine each of the plurality of input signals as a valid input signal or an invalid input signal. In detail, the input signal determination unit 120 may determine the input signal as an effective input signal when the magnitude of the input signal is greater than or equal to the set threshold, and determine the input signal as an invalid input signal when the magnitude of the input signal is smaller than the set threshold. have. In addition, the input signal determiner 120 determines the input signal as a valid input signal when the size of the input signal is maintained for a predetermined time which is a predetermined time that is set above the set threshold, and the size of the input signal is set smaller than the set threshold. The input signal may be determined to be an invalid input signal when it is maintained over a predetermined invalid reference time. A detailed description of the determination as the valid input signal or the invalid input signal for each of the plurality of input signals of the input signal determination unit 120 will be described with reference to FIGS. 5A and 5B.

The input channel processing unit 130 of the audio mixing apparatus 100 may process input sound effects on each of the plurality of valid input signals determined to be valid input signals among the plurality of input signals. Input sound effect processing means processing of various sound effects on an audio signal. The input channel processor 130 may include a frequency variable band pass filter, a parametric equalizer, a compressor, a delay, such as a high pass filter (HPF) and a low pass filter (LPF). Effects such as attenuators and pan controllers controlled by mute and fader, level meters indicating the magnitude of the input signal, and direct out for transmission to external effectors. Port, and an Insert port for receiving a signal passing through an external effector. However, components included in the input channel processor 130 are not limited thereto.

The input / output channel mixer 140 of the audio mixing apparatus 100 may generate a plurality of mixed signals by mixing at least one of the plurality of input signals. The input / output channel mixer 140 may have a cross logical matrix structure including rows corresponding to the number of input terminals and columns corresponding to the number of output terminals. At least a part of the plurality of input signals may be output to each of the plurality of output terminals, and thus, the input / output channel mixing unit 140 includes a signal output to each output terminal by adjusting the volume of each of the plurality of input signals. The volume of the plurality of input signals can be adjusted. For example, the first output signal may be output to the first output terminal among the plurality of output terminals, and the first output signal may be a signal in which the first input signal and the second input signal are mixed. In this case, the input / output channel mixer 140 mutes the volume of the remaining input signals except for the first input signal and the second input signal, and adjusts the volume of each of the first input signal and the second input signal to a predetermined size. Can be generated as a mixed signal delivered to the first output terminal. In addition, the input / output channel mixing unit 140 mutes all of the remaining input signals except for one input signal in the process of mixing the plurality of input signals so that the mixed signal includes substantially only one input signal. It may be. In addition, the input / output channel mixer 140 may be configured such that only one input signal of the plurality of input signals is included in the mixed signal.

The output channel processor 150 of the audio mixing apparatus 100 may process an output sound effect on each of the plurality of mixed signals that are output signals of the input / output channel mixer 140. Output sound effect processing means processing of various sound effects on an audio signal. The output channel processor 150 may include a frequency variable band pass filter, a parametric equalizer, a compressor, a delay, such as a high pass filter (HPF) and a low pass filter (LPF). Effects such as attenuators and pan controllers controlled by mute and fader, level meters indicating the magnitude of the input signal, and direct out for transmission to external effectors. Port, and an Insert port for receiving a signal passing through an external effector. However, components included in the output channel processor 150 are not limited thereto.

The output unit 160 of the audio mixing apparatus 100 may output at least some of the plurality of input signals as the plurality of output signals, and may include a plurality of output terminals for outputting each of the plurality of output signals. That is, the output unit 160 may output the mixed signal processed by the output channel processor 150 through the output terminal. Each of the plurality of output terminals may be connected to an external device through which each of the plurality of output signals is transmitted. For example, the plurality of output terminals may be connected to speakers such as an auditorium, a performance hall, and a building, and an output signal output to each output terminal may be broadcast to the outside through the speakers. External devices such as a speaker connected to each of the plurality of output terminals may be changed by the user.

The processor 170 of the audio mixing device 100 calculates and processes data and signals of the audio mixing device 100. In detail, the processor 170 may determine at least some of the plurality of input signals as the plurality of output signals based on priorities of the plurality of input signals of each of the plurality of output terminals.

In detail, when it is determined that the first input signal among the plurality of input signals is a valid input signal, the processor 170 may determine the output signal of the first output terminal among the plurality of output terminals as the first input signal.

The first output terminal among the plurality of output terminals may have a priority for the plurality of input signals. For example, the first output terminal may receive a second input signal as a signal having a higher priority than the first input signal. Can be set to output. That is, the first input signal may have a lower priority than the second input signal. When it is determined that the second input signal is a valid input signal, the processor 170 may change the output signal of the first output terminal from the first input signal to the second input signal based on the priority of the input signal of the first output terminal. Can be.

In addition, when the processor 170 determines that the second input signal is an invalid input signal and determines that the first input signal is a valid input signal, the processor 170 converts the output signal of the first output terminal from the second input signal to the first input signal. You can change it.

A more specific driving method of the processor 170 will be described in detail with reference to FIGS. 3 to 7.

The storage unit 180 of the audio mixing device 100 may store various data of the audio mixing device 100. In detail, the storage unit 180 may store priorities of the plurality of input signals of each of the plurality of output terminals. The storage unit 180 may store a threshold value, an effective reference time, and an invalid reference time of the magnitude of the input signal for which the input signal determiner 120 determines the valid input signal or the invalid input signal.

The storage unit 180 includes a priority parameter module storage unit 181 and a backup parameter module storage unit 182. The priority parameter module storage unit 181 may store a parameter of a sound effect for each output signal that is determined based on priorities of input signals of the plurality of output terminals. In detail, the priority parameter module storage unit 181 may store an input channel processor parameter, an output channel processor parameter, and an input / output channel mixer parameter.

The input / output channel mixing unit parameter refers to an intensity value of a volume of each of the plurality of input signals to be mixed into output signals of each of the plurality of output terminals. The input channel processor parameter may mean a control value of input sound effect processing applied to each of the plurality of input signals, and the output channel processor parameter may mean an output sound effect process control value applied to each of the plurality of mixed signals.

Accordingly, the priority parameter module storage unit 181 of the storage unit 180 may include a parametric equalizer, a graphic equalizer, a compressor, a delay, a mute, and a fader. Various control values for adjusting an effector such as an attenuator, balance, or pan controller can be stored.

The backup parameter module storage unit 182 of the storage unit 180 is applied to the first input signal that was output when the first output terminal of the plurality of output terminals stops outputting the first input signal as an output signal. The parameters of the sound effect can be stored as backup parameters. Specifically, the sound effect processing may be performed by the input channel processor 130, the input / output channel mixer 140, and the output channel processor 150 with respect to the first input signal output as the output signal of the first output terminal. When the output of the first input signal is stopped, the backup parameter module storage unit 182 may store parameters of various sound effect processing performed on the first input signal. When the first input signal is again determined as an output signal of the first output terminal, the parameter of the sound effect processing of the first input signal stored in the backup parameter module storage unit 182 may be applied to the first input signal.

The input unit 110, the input signal determination unit 120, the input channel processing unit 130, the input / output channel mixing unit 140, the output channel processing unit 150, the output unit 160, and the processor of the audio mixing device 100 ( 170 and the storage unit 180 may transmit or receive signals and data from each other. The audio mixing device 100 includes an input unit 110, an input signal determination unit 120, an input channel processing unit 130, an input / output channel mixing unit 140, an output channel processing unit 150, and an output unit 160. ), And are not limited to the processor 170 and the storage unit 180, other components may be added.

Hereinafter, a detailed description of the audio mixing method provided by the above-described audio mixing apparatus 100 will be referred to together with FIGS. 3 to 7.

3 is a block diagram showing a schematic configuration of an audio mixing device according to an embodiment of the present invention. 4 is a flowchart illustrating an audio mixing method according to an embodiment of the present invention. 5A and 5B are graphs illustrating an audio mixing method according to an embodiment of the present invention. 6 is a table for explaining an audio mixing method according to an embodiment of the present invention. 7 is a schematic diagram illustrating an audio mixing method according to an embodiment of the present invention.

First, the audio mixing device 100 receives each of a plurality of input signals through a plurality of input terminals (S110). As described above, the input unit 110 includes a plurality of input terminals, and each of the plurality of input signals may be a voice signal, an emergency notification signal, a sound source signal, etc. as different audio signals, and may be applied to each of the plurality of input terminals. Can be.

Subsequently, the audio mixing apparatus 100 determines an effective input signal that is an input signal having a magnitude greater than or equal to a threshold among the plurality of input signals and an invalid input signal that is an input signal whose magnitude is smaller than a threshold (S120). The input signal determiner 120 of the audio mixing apparatus 100 may determine whether each of the plurality of input signals is greater than or equal to a specific threshold and determine whether each of the plurality of input signals is a valid input signal or an invalid input signal. At this time, the effective input signal means that the strength of the input signal to be applied is a valid magnitude, which means that the signal is determined to be a valid signal, and the invalid input signal means that the strength of the applied input signal is not valid, and thus, invalid It may mean a signal that is determined to be a signal.

Referring to FIG. 3, the input signal determiner 120 of the audio mixing device 100 may include a plurality of blocks corresponding to the number of input terminals of the input unit 110. Each of the plurality of blocks of the input signal determination unit 120 may be connected to each of the plurality of input terminals, and each of the plurality of blocks may receive each of the plurality of input signals from each of the input terminals. Each of the plurality of blocks of the input signal determination unit 120 may independently determine whether the received input signal is a valid input signal or an invalid input signal.

Specifically, referring to FIG. 5A, the graph shown in FIG. 5A is a magnitude graph with respect to time of one of the plurality of input signals. The total time for which the input signal is applied may be divided into a plurality of sections of the first section to the fifth section. The input signal may vary in size with time, and the input signal may be determined as a valid input signal in the second and fourth sections, which are time sections having a magnitude greater than or equal to a threshold. The input signal may be determined as an invalid input signal in the first, third, and fifth sections, which are time sections having a size smaller than the threshold. As such, the input signal determiner 120 may determine whether the input signal is a valid input signal and an invalid input signal based on whether the magnitude of the input signal is greater than or equal to the threshold in the entire time interval of the input signal. .

Alternatively, the input signal determination unit 120 that determines the input signal is less than the time the size of a plurality of input signal to be maintained above a threshold value valid for the reference time (T _valid) to a valid input signal, and the size is as small as less than a threshold An input signal whose time is greater than or equal to the invalid reference time (T _invalid ) may be determined as an invalid input signal. The valid reference time (T _valid ) may mean a time used as a reference for judging an input signal as a valid input signal, and the invalid reference time (T _invalid ) may mean a time used as a reference for judging an input signal as an invalid input signal. have.

Specifically, referring to FIG. 5B, the graph of FIG. 5B is a magnitude graph with respect to time of one of the plurality of input signals. The entire time that the input signal is applied may be divided into a plurality of sections of the first section to the fifth section, and the size of the input signal may change with time. First, the input signal determiner 120 may determine the input signal as an invalid input signal in the first section. In the second interval, the input signal determination unit 120 determines that the time t1 at which the magnitude of the input signal is maintained above the threshold is less than or equal to the valid reference time T _valid , and the input signal is still invalid. Can be judged. In the third section, the input signal determination unit 120 determines that the time t2 at which the magnitude of the input signal is kept smaller than the threshold is less than or equal to the invalid reference time T _invalid and the input signal is still invalid. You can judge. In the case of the fourth section, the input signal determination unit 120 may refer to the input signal as an invalid input signal in a section 4-1 in which the time for which the magnitude of the input signal is maintained above the threshold is smaller than the valid reference time (T _valid ). The input signal may be determined to be a valid input signal in a section 4-2 in which the time for which the magnitude of the input signal is maintained above the threshold is greater than or equal to the valid reference time (T _valid ). However, the present invention is not limited thereto, and the input signal determiner 120 effectively inputs the input signal in the 4-1 period when the time at which the magnitude of the input signal is maintained above the threshold becomes equal to or greater than the valid reference time (T _valid ). The signal may be determined, and the input signal may be determined as a valid input signal even in the 4-2 section. In addition, in the fifth section, the input signal determination unit 120 may still receive the input signal in the 5-1 section in which the time for which the magnitude of the input signal is kept smaller than the threshold is less than the invalid reference time T _invalid . The input signal may be determined to be an invalid input signal in a period 5-2 in which the time at which the size of the input signal is kept smaller than the threshold is equal to or greater than the invalid reference time T _invalid . However, the present invention is not limited thereto, and the input signal determination unit 120 invalidates the input signal in the 5-1 section at the instant when the time for which the size of the input signal is kept smaller than the threshold becomes greater than the invalid reference time T _invalid . The signal may be determined, and the input signal may be determined to be an invalid input signal even in a section 5-2.

Subsequently, the audio mixing apparatus 100 processes the sound effects of the plurality of valid signals among the plurality of input signals, respectively (S130). The input channel processor 130 of the audio mixing device 100 may process an input sound effect on the valid input signal determined by the input signal determiner 120.

Referring to FIG. 3, the input channel processor 130 of the audio mixing apparatus 100 may include a plurality of blocks corresponding to the number of blocks of the input signal determiner 120. Each of the plurality of blocks of the input channel processor 130 may be connected to each of a plurality of blocks of the input signal determiner 120, and each of the plurality of blocks of the input channel processor 130 may receive each of a plurality of valid input signals. Can be. Each of the plurality of blocks of the input channel processor 130 may process an input sound effect on the received valid input signal.

The input channel processor 130 may receive input channel processor parameters for each of a plurality of valid input signals from the priority parameter module storage unit 181 of the storage unit 180, and based on this, a high pass filter (HPF) Frequency bands such as LPF (Low pass filter), band pass filter, Parametric Equalizer, Compressor, Delay, Mute, Fader An input sound effect may be processed by each of a plurality of valid input signals using an effector such as an attenuator or a pan controller.

Subsequently, the audio mixing apparatus 100 generates a plurality of mixed signals by mixing some of the plurality of valid input signals processed by sound effects (S140). The input / output channel mixer 140 of the audio mixing apparatus 100 may generate a plurality of mixed signals by mixing at least one of the plurality of valid input signals.

The input / output channel mixer 140 may receive information about one or more input signals constituting an output signal of each of the plurality of output terminals from the priority parameter module storage unit 181 of the storage unit 180, and based on this, By mixing at least one of the plurality of valid input signals to generate a mixed signal corresponding to each output signal. The input / output channel mixing unit 140 may have a cross-sectional logical matrix structure composed of rows corresponding to the number of input terminals and columns corresponding to the number of output terminals. As shown in FIG. It may include a plurality of blocks corresponding to the number of the plurality of output terminals. Each of the plurality of blocks of the input / output channel mixer 140 may receive a plurality of valid input signals processed by the input sound effect from all of the plurality of blocks of the input channel processor 130. Each of the plurality of blocks of the input / output channel mixer 140 adjusts a volume of each of a plurality of received input signals, that is, a plurality of valid input signals processed with input sound effects, and thus a plurality of mixed signals to be determined as a plurality of output signals. Each of the signals can be generated.

For example, the output signal of the first output terminal among the plurality of output terminals may be determined as the first input signal among the plurality of input signals, and the input / output channel mixing unit 140 may have the volume of the remaining input signals except for the first input signal. Mute may be adjusted to generate a mixed signal consisting of the first input signal. The output signal of the second output terminal among the plurality of output terminals may be determined as a first input signal and a second input signal among the plurality of input signals, and the input / output channel mixer 140 may include the first input signal and the second input. The volume of the remaining input signals other than the signal may be muted to generate a mixed signal including the first input signal and the second input signal.

Subsequently, the audio mixing apparatus 100 processes a sound effect for each of the plurality of mixed signals (S150). The output channel processor 150 of the audio mixing device 100 may process an output sound effect on each of the plurality of mixed signals generated by the input / output channel mixer 140.

Referring to FIG. 3, the output channel processor 150 of the audio mixing apparatus 100 may include a plurality of blocks corresponding to the number of blocks of the input / output channel mixer 140. Each of the plurality of blocks of the output channel processor 150 may be connected to each of a plurality of blocks of the input / output channel mixer 140, and each of the plurality of blocks of the output channel processor 150 may receive each of the plurality of mixed signals. have. Each of the plurality of blocks of the output channel processor 150 may process an output sound effect on the received mixed signal.

The output channel processor 150 may receive output channel processor parameters for each of the plurality of mixed signals from the priority parameter module storage unit 181 of the storage unit 180. Based on the output channel processor 150, a high pass filter (HPF), Athene controlled by frequency-variable band pass filters such as LPF (Low pass filter), Parametric Equalizer, Compressor, Delay, Mute, and Fader An output sound effect may be processed for each of the plurality of mixed signals using an effector such as an attenuator or a pan controller.

Subsequently, the audio mixing device 100 determines at least some of the plurality of input signals as the plurality of output signals based on the priority of the plurality of input signals of each of the plurality of output terminals (S160). Subsequently, the audio mixing apparatus 100 outputs each of the plurality of mixed signals subjected to the effect processing as each of the plurality of output signals (S170).

The processor 170 of the audio mixing apparatus 100 may receive the priorities of the plurality of input signals of each of the plurality of output terminals from the priority parameter module storage unit 181 of the storage unit 180, and based on this, Therefore, at least some of the input signals determined to be valid input signals may be determined as output signals.

Specifically, referring to FIG. 6, the priority parameter module storage unit 181 of the storage unit 180 may store priorities of a plurality of input signals of each of the plurality of output terminals. Hereinafter, it is assumed that the plurality of output terminals include first to third output terminals, and each output terminal has a priority for different input signals. In addition, it is assumed that the second input signal has a higher priority than the first input signal in the output signal of the first output terminal. Accordingly, when it is determined that the second input signal is a valid input signal in a state where the output signal of the first output terminal is the first input signal, the output signal of the first output terminal is changed from the first input signal to the second input signal. Can be.

The output signal of the second output terminal assumes that the mixed signal of the first input signal and the third input signal has a higher priority than the second input signal. Thus, when it is determined that the first input signal and the third input signal are valid input signals while the output signal of the second output terminal is the second input signal, the output signals of the second output terminal are the first input signal and the first input signal. It can be changed into a mixed signal of three input signals.

The output signal of the third output terminal assumes that the fourth input signal has a higher priority than the third input signal. Thus, when it is determined that the fourth input signal is a valid input signal while the output signal of the third output terminal is the third input signal, the output signal of the third output terminal is changed from the third input signal to the fourth input signal. Can be.

Referring to FIG. 7, a change of output signals according to a plurality of cases will be described based on priorities of input signals of respective output terminals of FIG. 6. In the first case CASE 1, it is assumed that the first input signal, the third input signal, and the fourth input signal are determined to be valid input signals, and the second input signal is determined to be an invalid input signal. In this case, the processor 170 may generate the first output terminal, the second output terminal, and the third output terminal based on the priority of the input signal of each of the first output terminal, the second output terminal, and the third output terminal. A first output signal, a second output signal and a third output signal are determined. The output unit 160 may output each of the first to third output signals to the first to third output terminals.

In detail, in the case of the first output terminal, the second input signal having a higher priority than the first input signal is an invalid input signal, and the processor 170 determines that the output signal of the first output terminal is the valid input signal. Can be determined by the input signal. Thus, the first output terminal can output the first input signal as an output signal.

In the case of the second output terminal, since it is determined that the first input signal and the third input signal are valid input signals, the processor 170 may have a higher priority than the second input signal regardless of whether the second input signal is invalid. The mixed signal of the first input signal and the third input signal may be determined as the second output signal. Accordingly, the second output terminal may output a mixed signal of the first input signal and the third input signal as an output signal.

In the case of the third output terminal, although it is determined that both the third input signal and the fourth input signal are valid input signals, the fourth input signal has a higher priority than the third input signal, and thus the processor 170 outputs the third output signal. The signal may be determined as the fourth input signal. Thus, the third output terminal can output the fourth input signal as an output signal.

Subsequently, states of the plurality of input signals and states of the plurality of output signals may be changed from the first case CASE 1 to the second case CASE 2. For the second case CASE 2, it is assumed that the first input signal, the second input signal, and the third input signal are determined to be valid input signals, and the fourth input signal is determined to be an invalid input signal.

In the case of the first output terminal, it is determined that both the first input signal and the second input signal are valid input signals, but since the second input signal has a higher priority than the first input signal, the processor 170 removes the first output signal. It is possible to change from one input signal to a second input signal. Accordingly, the first output terminal may stop the output of the first input signal and output the second input signal as an output signal.

In the case of the second output terminal, although it is determined that all of the first to third input signals are valid input signals, the mixed signal of the first input signal and the third input signal has a higher priority than the second input signal. The processor 170 may determine that the second input signal is a valid input signal but maintain the second output signal as a mixed signal of the first input signal and the third input signal. Accordingly, the second output terminal can continuously output the mixed signal of the first input signal and the third input signal as an output signal.

In the case of the third output terminal, since the third input signal is maintained as a valid input signal but the fourth input signal having a higher priority than the third input signal is determined to be an invalid input signal, the processor 170 outputs the third output signal. The signal may be changed from the fourth input signal to a third input signal having a lower priority than the fourth input signal. Accordingly, the third output terminal may stop the output of the fourth input signal and output the third input signal as an output signal.

Subsequently, states of the plurality of input signals and states of the plurality of output signals may be changed from the second case CASE 2 to the third case CASE 3. In the third case CASE 3, it is assumed that the first input signal, the third input signal, and the fourth input signal are determined to be valid input signals, and the second input signal is determined to be an invalid input signal.

In the case of the first output terminal, since the first input signal is maintained as a valid input signal, but the second input signal having a higher priority than the first input signal is determined to be an invalid input signal, the processor 170 outputs the first output signal. The second input signal may be changed into a first input signal having a lower priority than the second input signal. Accordingly, the first output terminal may stop the output of the second input signal and output the first input signal as an output signal.

In the case of the second output terminal, it is determined that the first input signal and the third input signal are valid input signals, the second input signal is determined to be an invalid input signal, and a mixed signal of the first input signal and the third input signal. Is higher priority than the second input signal, the processor 170 may continue to maintain the second output signal as a mixed signal of the first input signal and the third input signal. Accordingly, the second output terminal can continuously output the mixed signal of the first input signal and the third input signal as an output signal.

In the case of the third output terminal, since the third input signal is maintained as the valid input signal but the fourth input signal having a higher priority than the second input signal is determined as the valid input signal, the processor 170 outputs the third output signal. The signal may be changed from the third input signal to the fourth input signal having a higher priority than the third input signal. Thus, the third output terminal may stop the output of the third input signal and output the fourth input signal as an output signal.

Meanwhile, the backup parameter module storage unit 182 of the storage unit 180 of the audio mixing device 100 processes various sound effects applied to the output signal when each of the plurality of output terminals stops outputting a specific input signal. Can be saved as a backup parameter. The backup parameter may mean a parameter for processing various sound effects applied by the input channel processor 130, the input / output channel mixer 140, and the output channel processor 150 with respect to the output input signal. The processor 170 may apply a backup parameter to the input signal when each of the plurality of output terminals outputs a specific input signal from which the output is stopped, and the output unit 160 may apply the input signal to which the backup parameter is applied. Can be output as an output signal.

Specifically, referring to FIG. 7, when the first case CASE 1 is changed from the second case CASE 2, the output signal of the first output terminal may be changed from the first input signal to the second input signal. The output signal of the third output terminal may be changed from the fourth input signal to the third input signal. In this case, the backup parameter module storage unit 182 of the storage unit 180 may backup the backup parameter of the first input signal at which the output is stopped at the first output terminal and the fourth input signal at which the output is stopped at the third output terminal. Parameter modules can be saved. The backup parameter module of each of the first input signal and the fourth input signal may refer to a parameter for sound effect processing applied to each of the first input signal and the fourth input signal in the first case CASE 1.

When the second case CASE 2 is changed from the second case CASE 2 to the third case CASE 3, the first output terminal stops outputting the second input signal as an output signal and outputs the first input signal as an output signal. Can be. In this case, the processor 170 may receive the backup parameter of the first input signal from the backup parameter module storage unit 182 and apply it to the first input signal. Accordingly, the first output terminal may output the first input signal to which the backup parameter of the first input signal is applied as the output signal of the first output terminal.

The third output terminal may stop outputting the third input signal as an output signal and output the fourth input signal as an output signal. In this case, the processor 170 may receive the backup parameter of the fourth input signal and apply it to the fourth input signal. Accordingly, the third output terminal can output the fourth input signal to which the backup parameter of the fourth input signal is applied as the output signal of the third output terminal.

In the audio mixing apparatus 100 and the method according to an embodiment of the present invention, the threshold value is determined by determining each of the plurality of input signals as a valid input signal or an invalid input signal according to whether the magnitudes of the plurality of input signals are greater than or equal to a threshold value. It is possible to prevent the input signal having the following magnitude from being determined as the output signal. Even though an input signal having a magnitude less than or equal to a threshold is applied to the input terminal, when it is determined as an effective input signal and determined as an output signal, an input signal such as unwanted noise may be determined as an effective input signal and may be determined as an output signal. Therefore, the audio mixing apparatus 100 and the method according to an embodiment of the present invention determine only an input signal whose magnitude is greater than or equal to a threshold as an effective input signal, thereby preventing unwanted input signals such as noise from being determined as an output signal. Can increase the stability of the output signal determination.

In addition, the audio mixing apparatus 100 and the method according to an embodiment of the present invention, inputs an input signal only when the time at which the magnitudes of the plurality of input signals are kept above the threshold is greater than or equal to the effective reference time T _valid . The signal may be determined as a signal, and the input signal may be determined as an invalid input signal only when the time for which the magnitudes of the plurality of input signals are kept smaller than the threshold is equal to or less than the invalid reference time T _invalid . When a time for which a specific input signal is maintained at a magnitude greater than or equal to a threshold is smaller than the valid reference time T _valid , the corresponding input signal may be a signal input by mistake. For example, the specific input signal may be a siren signal in an emergency situation, and when a siren signal is output as an output signal in a special space such as a concert hall when the magnitude of the input signal, such as the siren signal, is greater than a threshold, the siren input by mistake The signal may be output to the venue and may be problematic. On the contrary, when an application of an input signal such as a sound source signal output from a performance hall is temporarily interrupted, the output of the sound source signal to the output signal may be problematic because the size of the sound source signal is smaller than the threshold. Thus, the audio mixing apparatus 100 and the method according to an embodiment of the present invention, the input signal is a valid input signal only when the time that the magnitude of the plurality of input signal is maintained above the threshold value or less than the threshold value is more than a certain time. Alternatively, by judging it as an invalid input signal, care is taken to output the input signal as an output signal or to stop the output, and to prevent an accident.

On the other hand, in the conventional audio mixing apparatus and its method, determining a specific input signal as an output signal of a plurality of output terminals has been fixedly operated by a user's manual operation. For example, unlike the general situation, when an emergency siren is to be output as an output signal in an emergency situation, the emergency siren is determined to be an output signal by a user's manual operation. In addition, overlapping installation costs may occur when the general broadcasting speaker and the emergency broadcasting speaker need to be separately installed, and when the emergency broadcasting speaker is separately installed, the emergency broadcasting speaker may not be heard or mixed due to the sound of the general broadcasting speaker. There was a problem that was not clear.

In addition, an additional audio mixing device must be installed in order for a specific input signal to be automatically determined as an output signal, and a cost-specific problem exists because a processor specialized for sound effects such as emergency siren must be installed. In this case, there was a problem in that the sound effect that was being processed in the general signal was processed as it is in the emergency siren output in an emergency situation, and the siren failed to transmit clear and clear information.

On the contrary, in the audio mixing device 100 and the method thereof, the storage unit 180 stores the priorities of the plurality of input signals of each of the plurality of output terminals, and the processor 170. May determine a valid input signal having a higher priority as an output signal of each of the plurality of output terminals based on the priority of the plurality of input signals. In addition, different sound effect processing may be performed for each input signal determined as an output signal. For example, one output terminal among the plurality of output terminals may be installed in a performance hall, and the output terminal is basically set to output a sound source, but in case of an emergency, the emergency siren is set as a higher priority than the sound source. It may be. In this case, when it is determined that the emergency siren is a valid input signal regardless of the output of the sound source, the emergency siren may be determined as the output signal. In addition, the sound effect processing specialized for the emergency siren may be processed to an input signal such as an emergency siren, and thus, the sound effect processed for the sound source previously output may not be processed to the emergency siren. Accordingly, the audio mixing apparatus 100 and the method according to an embodiment of the present invention determine a specific input signal as an output signal based on priorities of input signals different from each other for a plurality of output terminals, and determine the determined input. By processing different sound effects according to the signal, it is possible to reduce the cost of installing an additional audio mixing device for priority, and to implement the priority of the input signal with one audio mixing device 100.

In addition, the audio mixing apparatus 100 and the method according to an exemplary embodiment of the present invention may provide an input signal that the backup parameter module storage unit 182 outputs when each of the plurality of output terminals stops outputting a specific input signal. Various sound effect processing applied to the data is stored as a backup parameter, and the processor 170 applies a backup parameter stored in the input signal when each of the plurality of output terminals outputs a specific input signal from which the output is stopped. 160 may output a corresponding input signal to which a backup parameter is applied as an output signal. Therefore, when the input signal from which the output has been stopped is again determined as an output signal and outputted, the previously processed sound effect can be automatically processed to the input signal, thereby eliminating the need for a separate sound effect process. There is an effect that can output the input signal as it is.

8 is a block diagram showing a schematic configuration of an audio mixing device according to another embodiment of the present invention. 9 is a flowchart illustrating an audio mixing method according to another embodiment of the present invention. 10A and 10B are graphs illustrating an audio mixing method according to another embodiment of the present invention. 11A and 11B are graphs illustrating an audio mixing method according to another embodiment of the present invention. The audio mixing apparatus 800 of FIGS. 8 to 11B is substantially the same except that the audio mixing apparatus 800 further includes a periodic signal processor 890 as compared to the audio mixing apparatus 100 of FIGS. do.

Referring to FIG. 8, the periodic signal processing unit 890 of the audio mixing device 800 adjusts the magnitude of the periodic signals included in each of the plurality of mixed signals output from the input / output channel mixing unit 140 to thereby output the plurality of periodic processing signals. Can be generated. The periodic signal refers to an audio signal in which a specific pattern is repeated at a constant period. For example, the periodic signal may be a siren signal. The periodic processing signal may mean a signal in which a magnitude of an aperiodic signal, which is a signal other than a periodic signal, is adjusted.

As illustrated in FIG. 8, the periodic signal processor 890 may be connected between an output terminal of the input / output channel mixer 140 and an input terminal of the output channel processor 150, but is not limited thereto.

Referring to FIG. 8, the periodic signal processor 890 may include a plurality of blocks corresponding to the number of blocks of the input / output channel mixer 140. Each of the plurality of blocks of the periodic signal processor 890 may be connected to each of the plurality of blocks of the input / output channel mixer 140 and may receive each of the plurality of mixed signals. Each of the plurality of blocks of the periodic signal processor 890 generates a plurality of periodic processing signals by using each of the received mixed signals, and each of the generated periodic processing signals is outputted from the plurality of blocks of the output channel processor 150. Can pass to each block of.

Referring to FIG. 9, the audio mixing method according to another embodiment of the present invention will be described. First, the audio mixing apparatus 800 receives each of a plurality of input signals through a plurality of input terminals (S210). Subsequently, the audio mixing apparatus 800 determines an effective input signal, which is an input signal having a magnitude greater than or equal to a threshold value, and an invalid input signal, which is an input signal having a magnitude smaller than a threshold value, among the plurality of input signals (S220). Subsequently, the audio mixing apparatus 800 processes the sound effects of the plurality of valid signals among the plurality of input signals, respectively (S230). Subsequently, the audio mixing device 800 generates a plurality of mixed signals by mixing some of the plurality of valid input signals processed with sound effects (S240). Steps S210, S220, S230, and S240 of FIG. 9 are substantially the same as steps S110, S120, S130, and S140 of FIGS. 1 to 7, and thus descriptions thereof will not be repeated.

Subsequently, the audio mixing apparatus 800 generates a plurality of periodic processing signals by adjusting the magnitude of the periodic signals included in each of the plurality of mixed signals (S250). Specifically, the periodic signal processing unit 890 of the audio mixing device 800 performs a signal conversion from a time axis to a frequency axis through a fast furier transform (FFT) operation, or a center frequency change of a finite impulse response (FIR) filter. Frequency characteristics are measured by signal strength detection method for each frequency, and if a signal having a single frequency among the measured frequency characteristics of the mixed signal is larger than a certain threshold, give a signal for a single frequency among the mixed signals. Can be regarded as a signal. However, the present invention is not limited thereto, and when the magnitudes of all signals of a specific frequency band are greater than or equal to a certain threshold value among the measured frequency characteristics of the mixed signal, all signals for frequencies of the corresponding band among the mixed signals may be regarded as periodic signals. have. The remaining signals except the periodic signal may be regarded as an aperiodic signal. Subsequently, the periodic signal processor 890 may calculate a minimum magnitude difference value that is a difference between the maximum magnitude value of the periodic signal and the maximum magnitude value of the aperiodic signal. Subsequently, the periodic signal processor 890 may generate the first periodic processing signal by reducing the magnitude of the non-periodic signal except the periodic signal among the first mixed signals by the first minimum magnitude difference value x1.

In detail, the graph of FIG. 10A is a graph of the magnitude according to the frequency of the first mixed signal among the plurality of mixed signals, and FIG. 10B is a frequency of the first periodic processing signal in which the magnitude of the periodic signal is adjusted with respect to the first mixed signal. A graph of size according to.

Referring to FIG. 10A, the first mixed signal may be a signal in which the first input signal and the second input signal are mixed. The first input signal is a siren signal and may be a periodic signal having a large magnitude in a specific frequency band, and the second input signal may be an audio signal input through a microphone. The periodic signal processor 890 may determine the first input signal, which is a siren signal, as a periodic signal by determining a signal having a maximum frequency band as a periodic signal.

Subsequently, the periodic signal processor 890 may calculate a first minimum magnitude difference x1 that is a difference between the maximum magnitude of the periodic signal and the maximum magnitude of the aperiodic signal.

Next, referring to FIG. 10B, the periodic signal processor 890 may reduce the magnitude of the non-periodic signal except the periodic signal among the first mixed signals by the first minimum magnitude difference value x1 to generate the first periodic processing signal. Can be. The periodic signal processor 890 may generate the first periodic processing signal by decreasing the magnitude of the non-periodic signal except for the periodic signal by the calculated first minimum magnitude difference value x1. Accordingly, the first periodic processing signal may be maintained in the magnitude of the periodic signal as compared with the first mixed signal, and the magnitude of the aperiodic signal may be a signal reduced by the first minimum magnitude difference value x1.

Meanwhile, the graph of FIG. 11A is a graph of the magnitude according to the frequency of the second mixed signal among the plurality of mixed signals, and FIG. 11B is a frequency of the second periodic processing signal whose amplitude of the periodic signal is adjusted with respect to the second mixed signal. It is a graph of the size according.

In detail, referring to FIG. 11A, the second mixed signal may be a signal in which the third input signal and the fourth input signal are mixed. The third input signal may be a siren signal and a periodic signal having a large magnitude in a specific frequency band, and the fourth input signal may be an audio signal input through a microphone. The periodic signal processor 890 may determine the signal of the maximum frequency band as a periodic signal, and may determine the third input signal, which is a siren signal, as a periodic signal, and determine the remaining signals except the periodic signal as an aperiodic signal. The fourth input signal, which is a voice signal, may be determined as an aperiodic signal. In this case, the maximum magnitude of the aperiodic signal may be greater than the maximum magnitude of the aperiodic signal of FIG. 10A, which may mean that the fourth input signal is larger than the magnitude of the second input signal.

Subsequently, the periodic signal processor 890 may calculate a second minimum magnitude value that is a difference between a maximum magnitude value of each of the periodic signal and the aperiodic signal of the second mixed signal. At this time, the maximum magnitude of the aperiodic signal of the second mixed signal is larger than the maximum magnitude of the aperiodic signal of the first mixed signal of FIG. 10A. Accordingly, the second minimum magnitude difference value x2 of the second mixed signal may be smaller than the first minimum magnitude difference value x1.

Subsequently, the periodic signal processing unit 890 may generate the second periodic processing signal by reducing the magnitude of the non-periodic signal except the periodic signal among the second mixed signals by a second minimum magnitude difference value x2. Referring to FIG. 11B, the periodic signal processor 890 may generate the second periodic processing signal by reducing the magnitude of the non-periodic signal except the periodic signal by the calculated second minimum magnitude difference value x2. Accordingly, the second periodic processing signal may have a magnitude of the periodic signal compared to the second mixed signal, and the magnitude of the aperiodic signal may be a signal reduced by a second minimum magnitude difference value x2.

In this case, since the second minimum magnitude difference value x2 is smaller than the first minimum magnitude difference value x1, the reduction rate of the aperiodic signal in the second periodic processing signal is less than that of the aperiodic signal of the first periodic processing signal. Can be less than

Subsequently, the audio mixing device 800 processes the sound effect of each of the plurality of periodic processing signals (S260). Subsequently, the audio mixing device 800 determines at least some of the plurality of input signals as the plurality of output signals based on the priorities of the plurality of input signals of each of the plurality of output terminals (S270). Subsequently, the audio mixing device 800 outputs each of the plurality of periodic processing signals subjected to the effect processing as a plurality of output signals, respectively (S280). Steps S260, S270, and S280 of FIG. 9 are substantially the same as steps S150, S160, and S170 of FIGS. 1 to 7, and thus descriptions thereof will not be repeated.

In the audio mixing apparatus 800 and the method according to another embodiment of the present invention, the periodic signal processing unit 890 determines the magnitude of a signal regarded as an aperiodic signal except a signal regarded as a periodic signal from a mixed signal, with a minimum magnitude difference value. By reducing the amount of the periodic processing signal, it is possible to generate the periodic processing signal that emphasizes the periodic signal by reflecting the importance of the aperiodic signal. As described above, the maximum magnitude value of the aperiodic signal of the second mixed signal may be greater than the maximum magnitude value of the aperiodic signal of the first mixed signal, and thus, the second minimum magnitude difference value x2 of the second mixed signal. ) May be smaller than the first minimum magnitude difference value x1 of the first mixed signal. Thus, the second periodic processing signal may be smaller in size reduction of the aperiodic signal than the first periodic processing signal. In this case, for example, the first mixed signal may be a signal in a general situation, and the aperiodic signal of the first mixed signal may be a voice signal applied from a microphone. The second mixed signal may be a signal in an emergency situation, and the aperiodic signal of the second mixed signal may be an emergency announcement broadcast applied from a microphone. Therefore, the emergency announcement broadcast included in the second mixed signal may be a signal having a greater importance than the general voice signal included in the first mixed signal, and thus may be clearly transmitted than the general voice signal. Accordingly, the audio mixing apparatus 800 and the periodic signal processing unit 890 of the method according to an embodiment of the present invention may be an announcement for emergency situations in which the aperiodic signal of the second mixed signal has a higher magnitude than that of a general voice signal. In consideration, the aperiodic signal of the second mixed signal may be reduced by a second minimum magnitude difference value x2 smaller than the first minimum magnitude difference value x1. Accordingly, the size of the aperiodic signal may be selectively reduced in consideration of the emergency situation, and the clarity of information transmission of the audio mixing device 800 may be improved.

In addition, according to another embodiment of the present invention, in the audio mixing apparatus 800 and the method, the periodic signal processing unit 890 may determine the magnitude of the aperiodic signal among the periodic and aperiodic signals included in each of the plurality of mixed signals in real time. The periodic processing signal may be generated by decreasing the minimum magnitude difference value. Accordingly, the periodic signal processor 890 may effectively generate the periodic processing signal even when the periodic signal included in the plurality of input signals is a signal generated from a moving object. For example, the mixed signal may be generated in a patrol car or a patient transport vehicle, and may include a siren signal, and a periodic signal such as a siren signal generated in a moving vehicle has a maximum magnitude and a maximum magnitude of a frequency signal and a periodic signal is real time. Can be changed to The periodic signal processor 890 of the present invention extracts a periodic signal and an aperiodic signal included in the mixed signal in real time, and generates a periodic processing signal to effectively correspond to the frequency and magnitude of the periodic signal that is changed in real time. Can be generated.

12A and 12B are block diagrams illustrating an audio mixing system according to an embodiment of the present invention. The audio mixing system illustrated in FIG. 12A is an embodiment configured as a general broadcasting system, and the audio mixing system illustrated in FIG. 12B is an embodiment configured as a public address broadcasting system. The audio mixing devices 1200A and 1200B of FIGS. 12A and 12B applied are substantially the same as the audio mixing device 100 described with reference to FIGS. 1 to 7 or the audio mixing device 800 described with reference to FIGS. 8 to 11B. The same bar, duplicate description is omitted.

Referring to FIG. 12A, an audio mixing system includes a signal generator, an audio mixing device 1200A, a power amplifier, and a plurality of speakers. The signal generator is a component that generates a plurality of input signals. The signal generator includes at least one of a video mixer or set-top box for generating a video signal, a CD player, an MP3 player, a general sound source generated from an event player, a microphone and a wireless microphone for generating a voice signal, and an emergency broadcast facility for generating an emergency broadcast signal. It may include. The configuration including the signal generator is not limited thereto and may include a configuration for generating various input signals.

The audio mixing apparatus 1200A of the audio mixing system receives a plurality of input signals from the signal generator. That is, each of the plurality of input terminals of the input unit of the audio mixing device 1200A may receive a plurality of input signals from the signal generator.

The power amplifier of the Orio mixing system is configured to receive a plurality of output signals from the output of the audio mixing device 1200A and deliver them to each of the plurality of speakers. In addition, the plurality of speakers are connected to a power amplifier and receive a plurality of output signals, respectively. In detail, the power amplifier may adjust the magnitude of each of the plurality of output signals, and each of the plurality of output signals of which the magnitude is adjusted may be output to each of the plurality of speakers.

Referring to FIG. 12B, the signal generator of the audio mixing system includes an emergency broadcast mail controller or an emergency panel for generating and controlling an emergency broadcast as compared with the signal generator of FIG. 12A. In addition, the signal generator may further include a time signal and a TTS.

The audio mixing system of FIG. 12B further includes an integrated broadcast line controller between the power amplifier and the plurality of speakers. The integrated broadcast line controller is configured to receive a plurality of output signals from a power amplifier, and determine a speaker to which each of the plurality of output signals is output. The integrated broadcast line controller may determine which one of the plurality of speakers is to be output to one of the plurality of speakers. The integrated broadcast line controller can deliver one of the plurality of output signals to the determined speaker. Accordingly, each of the plurality of speakers may output an output signal transmitted from the integrated broadcast line controller.

In an audio mixing system according to an exemplary embodiment of the present invention, the audio mixing apparatuses 1200A and 1200B may output an output signal to an output terminal based on priorities of the plurality of input signals of each of the plurality of output terminals. Therefore, in the audio mixing system, it is possible to reduce the cost of installing additional audio mixing apparatuses 1200A and 1200B for priority, and to implement the priority of the input signals with one audio mixing apparatus 1200A and 1200B.

The audio mixing system according to an exemplary embodiment of the present invention may process various sound effects applied to an input signal output by the audio mixing device 1200A or 1200B when each of the plurality of output terminals stops outputting a specific input signal. Is stored as a backup parameter, and when each of the plurality of output terminals outputs a specific input signal from which the output is stopped, the backup parameter stored in the input signal is applied, and the corresponding input signal to which the backup parameter is applied can be output as an output signal. have. Therefore, when the input signal from which the output has been stopped is again determined as an output signal and outputted, the previously processed sound effect can be automatically processed to the input signal, thereby eliminating the need for a separate sound effect process. There is an effect that can output the input signal as it is.

In this specification, each block or each step may represent a portion of a module, segment or code comprising one or more executable instructions for executing a specified logical function (s). It should also be noted that in some alternative embodiments the functions noted in the blocks or steps may occur out of order. For example, the two blocks or steps shown in succession may in fact be executed substantially concurrently, or the blocks or steps may sometimes be performed in the reverse order, depending on the corresponding function.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, software module, or a combination of the two executed by the processor 170. The software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, removable disk, CD-ROM or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor, which can read information from and write information to the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an application specific integrated circuit (ASIC). The ASIC may reside in a user terminal. In the alternative, the processor and the storage medium may reside as discrete components in a user terminal.

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100, 800, 1200A, 1200B: Audio Mixer
110: input unit
120: input signal determination unit
130: input channel processing unit
140: input and output channel mixing unit
150: output channel processing unit
160: output unit
170: processor
180: storage unit
181: Priority parameter module storage unit
182: Backup parameter module storage unit
200: a plurality of input signals
300: a plurality of output signals
890: the periodic signal processing unit

Claims (21)

An input unit including a plurality of input terminals receiving each of the plurality of input signals;
An output unit including a plurality of output terminals configured to output at least some of the plurality of input signals as a plurality of output signals, respectively;
A processor configured to determine at least a portion of the plurality of input signals as the plurality of output signals based on priorities of the plurality of input signals of each of the plurality of output terminals;
An input signal determination unit configured to determine an effective input signal that is an input signal having a magnitude greater than or equal to a threshold among the plurality of input signals, and determine an invalid input signal that is an input signal whose magnitude is smaller than the threshold;
An input channel processing unit configured to process an input sound effect of each of the plurality of valid input signals among the plurality of input signals;
An input / output channel mixing unit configured to generate a plurality of mixed signals by mixing some of the plurality of valid input signals processed by the input sound effect;
A periodic signal processor configured to generate a plurality of periodic processing signals by adjusting a magnitude of a periodic signal included in each of the plurality of mixed signals;
An output channel processing unit configured to process an output sound effect for each of the plurality of periodic processing signals; And
A storage unit configured to store priorities for the plurality of input signals of each of the plurality of output terminals,
The output unit is configured to output each of the plurality of periodic processing signals subjected to the output sound effect as each of the plurality of output signals,
The periodic signal processing unit,
A single frequency signal having a maximum magnitude among the plurality of mixed signals is determined as a periodic signal, and the remaining signals are determined as an aperiodic signal,
Calculating a minimum magnitude difference value that is a difference between the maximum magnitude value of the periodic signal and the maximum magnitude value of the aperiodic signal,
And reduce the magnitude of the aperiodic signal other than the periodic signal among the plurality of mixed signals by the minimum magnitude difference value to generate the plurality of periodic processing signals. The method of claim 1,
The processor comprising:
If it is determined by the input signal determining unit that the first input signal of the plurality of input signals is a valid input signal, the first input signal is output to the first output terminal of the plurality of output terminals based on the priority Is further configured to determine by signal,
And the output unit is further configured to output the first input signal as an output signal of the first output terminal. The method of claim 2,
The processor comprising:
And when the second input signal of the plurality of input signals is determined to be a valid input signal by the input signal determiner, the second input signal of the plurality of output terminals having a higher priority based on the priority. Search for,
Determine the first output terminal of the plurality of output terminals as an output terminal of which the second input signal has a higher priority,
And change the output signal of the first output terminal from the first input signal to the second input signal,
The output unit,
And the first output terminal stops outputting the first input signal as an output signal and is further configured to output the second input signal as an output signal of the first output terminal. The method of claim 3,
The processor comprising:
If it is determined by the input signal determiner that the second input signal is an invalid input signal and the first input signal is a valid input signal, the output signal of the first output terminal is determined from the second input signal. Is further configured to change to 1 input signal,
The output unit,
And the first output terminal stops outputting the second input signal as an output signal and is further configured to output the first input signal as an output signal of the first output terminal. The method of claim 3,
The storage unit,
And a backup parameter module storage unit configured to store a backup parameter of the first input signal when the output unit stops outputting the first input signal as an output signal. . The method of claim 5,
The processor comprising:
And when the output signal of the first output terminal is changed from the second input signal to the first input signal, a backup parameter of the first input signal is further applied to the first input signal,
And the output unit is further configured to output the first input signal to which the backup parameter of the first input signal is applied as an output signal of the first output terminal. The method of claim 5,
The backup parameter of the first input signal may include: processing performed by the input channel processor and the output channel processor to the first input signal; and adjustment of a magnitude of the periodic signal performed by the periodic signal processor to the first input signal. At least one of: an audio mixing device. The method of claim 1,
The input signal determination unit,
Among the plurality of input signals, an input signal having a time at which the magnitude is kept above the threshold is greater than or equal to a valid reference time is determined as a valid input signal, and an invalid input is performed at an input signal having a time at which the magnitude is smaller than the threshold is greater than or equal to an invalid reference time. And the audio mixing device is further configured to determine the signal. The method of claim 1,
The storage unit,
And a priority parameter module storage unit for storing priority parameters of at least some of the plurality of input signals determined as output signals of the plurality of output terminals. 10. The method of claim 9,
And said priority parameter is sound effect processing of said input channel processing section and said output channel processing section for at least a portion of said plurality of input signals determined as output signals of said plurality of output terminals. delete delete Receiving each of a plurality of input signals through a plurality of input terminals;
Determining an effective input signal that is an input signal having a magnitude greater than or equal to a threshold among the plurality of input signals, and an invalid input signal that is an input signal whose magnitude is smaller than the threshold;
Sound effect processing the plurality of valid input signals among the plurality of input signals, respectively;
Generating a plurality of mixed signals by mixing a portion of the plurality of valid input signals processed by the sound effect;
Generating a plurality of periodic processing signals by adjusting a magnitude of a periodic signal included in each of the plurality of mixed signals;
Sound effect processing each of the plurality of periodic processing signals;
Determining at least some of the plurality of input signals as a plurality of output signals based on priorities of the plurality of input signals of each of the plurality of output terminals; And
Outputting each of the effect processed periodic processing signals as each of the plurality of output signals,
Generating a plurality of periodic processing signals,
Determining a single frequency signal having a maximum magnitude among the plurality of mixed signals as a periodic signal and determining the remaining signal as an aperiodic signal;
Calculating a minimum magnitude difference value that is a difference between the maximum magnitude value of the periodic signal and the maximum magnitude value of the aperiodic signal; And
And reducing the magnitude of the aperiodic signal except the periodic signal among the plurality of mixed signals by the minimum magnitude difference value to generate the plurality of periodic processing signals. The method of claim 13,
Determining at least a portion of the plurality of input signals as the plurality of output signals,
If it is determined that a first input signal of the plurality of input signals is a valid input signal, the first input signal of the plurality of output terminals based on the priority of the plurality of input signals of each of the plurality of output terminals; And determining the output signal of the first output terminal. The method of claim 14,
Determining at least a portion of the plurality of input signals as the plurality of output signals,
When it is determined that a second input signal of the plurality of input signals is a valid input signal, the second input signal of the plurality of output terminals is based on a priority of the plurality of input signals of each of the plurality of output terminals. Searching for an output terminal having a higher priority;
Determining the first output terminal of the plurality of output terminals as an output terminal of which the second input signal has a higher priority; And
Changing the output signal of the first output terminal from the first input signal to the second input signal,
The method comprises:
Stopping the first output terminal from outputting the first input signal as an output signal;
Storing a backup parameter of the first input signal; And
And outputting the second input signal as an output signal of the first output terminal. 16. The method of claim 15,
Determining the second input signal as an invalid input signal and determining the first input signal as a valid input signal;
Changing an output signal of the first output terminal from the second input signal to the first input signal;
Stopping the first output terminal from outputting the second input signal as an output signal; And
And applying the backup parameter of the first input signal to the first input signal to output the first input signal as an output signal of the first output terminal. The method of claim 13,
The determining of the valid input signal and the invalid input signal may include:
Among the plurality of input signals, an input signal having a time at which the magnitude is kept above the threshold is greater than or equal to a valid reference time is determined as a valid input signal, and an invalid input is performed at an input signal having a time at which the magnitude is smaller than the threshold is greater than or equal to an invalid reference time. Audio signal mixing method. delete delete A signal generator configured to generate at least one of a video signal, a sound source, an audio signal, and an emergency broadcast signal into a plurality of input signals;
An audio mixing device receiving the plurality of input signals from the signal generator and outputting a plurality of output signals;
A power amplifier receiving each of the plurality of output signals from the audio mixing device; And
A plurality of speakers configured to receive and output each of the plurality of output signals from the power amplifier,
The audio mixing device,
An input unit including a plurality of input terminals receiving each of the plurality of input signals;
An output unit including a plurality of output terminals configured to output at least some of the plurality of input signals to each of the plurality of output signals;
A processor configured to determine at least a portion of the plurality of input signals as the plurality of output signals based on priorities of the plurality of input signals of each of the plurality of output terminals;
An input signal determination unit configured to determine an effective input signal that is an input signal having a magnitude greater than or equal to a threshold among the plurality of input signals, and determine an invalid input signal that is an input signal whose magnitude is smaller than the threshold;
An input channel processing unit configured to process an input sound effect of each of the plurality of valid input signals among the plurality of input signals;
An input / output channel mixing unit configured to generate a plurality of mixed signals by mixing some of the plurality of valid input signals processed by the input sound effect;
A periodic signal processor configured to generate a plurality of periodic processing signals by adjusting a magnitude of a periodic signal included in each of the plurality of mixed signals;
An output channel processing unit configured to process an output sound effect for each of the plurality of periodic processing signals; And
A storage unit configured to store priorities for the plurality of input signals of each of the plurality of output terminals,
The output unit is configured to output each of the plurality of periodic processing signals subjected to the output sound effect as each of the plurality of output signals,
The periodic signal processing unit,
A single frequency signal having a maximum magnitude among the plurality of mixed signals is determined as a periodic signal, and the remaining signals are determined as an aperiodic signal,
Calculating a minimum magnitude difference value that is a difference between the maximum magnitude value of the periodic signal and the maximum magnitude value of the aperiodic signal,
And reduce the magnitude of the aperiodic signal out of the plurality of mixed signals except the periodic signal by the minimum magnitude difference value to generate the plurality of periodic processing signals. The method of claim 20,
An integrated broadcast line configured to receive each of the plurality of output signals from the power amplifier to determine each of the plurality of speakers to which each of the plurality of output signals is transmitted, and to deliver the determined plurality of output signals to each of the plurality of speakers Further comprising a controller,
And the plurality of speakers are further configured to receive and output the plurality of output signals from the integrated broadcast line controller.

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