KR101627785B1 - Integrated Processing Method for Audio Signal and Command and Audio System using the same - Google Patents

Abstract

A combined processing method of an audio signal and a command and an audio system using the same are provided. An audio processing method according to an embodiment of the present invention receives a command related to an audio signal, records the command in a specific band of the audio signal, and transmits the command. Thus, it is possible to transmit an audio related command using an existing audio system without adding new equipment.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an audio signal processing method,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to audio signal processing, and more particularly, to an audio processing method for processing an audio signal according to a command related thereto and an audio system using the same.

The audio system may be divided into a transmission system for transmitting an audio signal generated from a microphone and a reception system for recording an audio signal received from the transmission system.

In recording an audio signal, the receiving system may record the audio signal as it is, but it is common to record the signal after performing signal processing for necessary equalization or audio effect.

In the case of live broadcasting, broadcast recording, film / drama shooting, etc., the audio director instructs the signal processing for the audio effect. In order to accurately grasp the audio of the site, the audio director is located in a transmission system equipped with a microphone.

Accordingly, the audio supervisory command must be input through the transmission system and transmitted to the reception system. If the audio supervision command is transmitted to the reception system, the audio signal may be fed into the audio signal, and a separate communication device (for example, Radio, mobile phone).

In addition, it is necessary to set the mode of the recording system according to the command of the received audio supervision and execute the necessary additional function, which is performed by manual operation of an audio engineer located on the receiving system side.

It is an object of the present invention to provide an audio processing method for transmitting and processing a command related to audio using a part of a band of an audio signal to be transmitted and an audio processing method System.

According to another aspect of the present invention, there is provided an audio processing method including: generating an audio signal; Receiving a command related to the audio signal; Storing the command in a specific band of the audio signal; And transmitting the audio signal containing the command.

The command may be generated by a user's input operation.

Also, the input operation of the user may be performed through a wired or wireless input device.

The command may include voice information of the user.

In addition, the specific band may be a band over a specific frequency.

According to another aspect of the present invention, there is provided an audio processing method including receiving an audio signal including the command; Separating the command from the audio signal; And processing the audio signal according to the command.

According to another aspect of the present invention, there is provided an audio processing method including: receiving an audio signal containing a command; Separating the command from the audio signal; And processing the audio signal according to the command, wherein the command is recorded in a specific band of the audio signal.

The command may be generated by a user's input operation.

Also, the input operation of the user may be performed through a wired or wireless input device.

The above-mentioned command may further include voice information of the user, and the audio processing method according to another embodiment of the present invention may further include extracting and outputting the voice information from the command.

As described above, according to the embodiments of the present invention, it is possible to transmit an audio-related command using an existing audio system without adding new equipment in a PA / SR broadcast and performance infrastructure environment.

In addition, the signal processing for equalizing or imparting an audio effect according to the transmitted command can be performed automatically without manual operation of the engineer, thereby enhancing the convenience of the audio working environment.

1 is a block diagram of an audio system to which the present invention is applicable;
FIG. 2 is a detailed block diagram of the AIC-T shown in FIG. 1,
FIG. 3 is a detailed block diagram of the AIC-R shown in FIG. 1,
4 is a detailed block diagram of the command pad shown in Fig.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a block diagram of an audio system to which the present invention is applicable. An audio system to which the present invention is applicable is a system for generating, transmitting and recording an audio signal, wherein the audio signal is signal-processed according to a command before recording.

1, the audio system to which the present invention can be applied is as follows: 1) MIC-L 111, MIC-R 112, Audio In-band Control Transfer (AIC-T) (Audio In-Band Control Receiver) 150, an audio receiving system 160, a record system (not shown), and a recording system 170, an amplifier 180, and a speaker 190. As shown in FIG.

The MIC-L 111 and the MIC-R 112 convert the audio in the field into an electric signal to generate an audio signal in surround.

The AIC-T 120 adds a command input through the command pad 130 to the audio signal generated by the MIC 111 and 112, and transmits the command to the audio system 140.

2 is a detailed block diagram of the AIC-T 120 shown in FIG. 2, the command pad 130 is further exemplified by two types, that is, a wired command pad 130-1 and a wireless command pad 130-2.

2, the AIC-T 120 includes an audio input terminal 121, a High Frequency Audio Command (HACM) 122, an audio output terminal 123, a CP (Command Process) 124, And a wired / wireless interface 125.

The audio input terminal 121 receives the audio signal generated by the MIC-L 111 and the MIC-R 112 and transmits the audio signal to the HACM 122. In this embodiment, the band of the audio signal (audio frequency band) is assumed to be '16 Hz to 20 kHz'.

The wired / wireless interface 125 receives the command of the audio supervision input through the command pads 130-1 and 130-2 and transmits the command to the CP 124. [

The CP 124 converts the audio supervisory command received from the wired / wireless interface 125 into high frequency audio band '19 kHz to 20 kHz', converts it into a high frequency audio signal, and transmits the high frequency audio signal to the HACM 122. The high frequency audio signal transmitted to the HACM 122 contains command information of audio supervision.

The HACM 122 replaces the 19 kHz to 20 kHz band of the audio signal transmitted through the audio input terminal 121 with the audio signal containing the command received through the CP 124 and transmits the audio signal to the audio output terminal 123 do.

As a result, an audio signal to which a command is added in the high frequency band (19 kHz to 20 kHz) is output from the audio output terminal 123.

The original audio component that had been recorded in the '19 kHz to 20 kHz' band of the audio signal by the HACM 122 is removed. However, the audio components of this band rarely occur without the treble on special instruments, and the vast majority of people can not hear with very high frequency bands. Thus, even if the audio component of the band '19 kHz to 20 kHz' is removed, the overall quality of the audio is hardly affected.

The audio signal to which the command output from the audio output terminal 123 of the AIC-T 120 is added is transmitted to the AIC-R 150 by the audio transmission system 140.

3 is a detailed block diagram of the AIC-R 150 shown in FIG. 3, the AIC-R 150 includes an audio input terminal 151, a HACDM (High Frequency Audio Command De-Mux) 152, an audio output terminal 153, a CP (Command Process) 154 and a record system interface 155.

The audio input terminal 151 receives the audio signal containing the command received from the audio transmission system 140 and transmits the audio signal to the HACDM 152.

The HACDM 152 separates the '19 kHz to 20 kHz' band including the command from the input audio signal. The HACDM 152 divides the '19 kHz to 20 kHz' band separated from the audio signal into the CP 154, And the band '16 Hz to 19 kHz' to the audio output terminal 153, respectively.

The CP 154 inversely transforms the audio signal in the '19 kHz to 20 kHz' band received from the HACDM 152 and restores the command. The command restored at CP 154 is transferred to record system 170 via record system interface 155.

The audio output terminal 153 transmits the 16 Hz to 19 kHz band of the audio signal received through the HACDM 152 to the audio receiving system 160.

Again, this will be described in detail with reference to Fig.

The audio receiving system 160 processes the audio signal required for the audio signal of the 16 Hz to 19 kHz band received through the audio output terminal 153 of the AIC-R 150, 180).

The amplifier 180 amplifies the audio signal received from the audio receiving system 160 and outputs the amplified audio signal through the speaker 190.

Meanwhile, the record system 170 records the audio signal received from the audio receiving system 160 on a storage medium. At this time, the record system 170 records the audio signal after signal processing for necessary equalization, audio effect, etc. according to the command transmitted through the record system interface 155 of the AIC-R 150.

Hereinafter, the command pad 130 shown in FIG. 1 will be described in detail with reference to FIG. 4 is a detailed block diagram of the command pad 130 shown in FIG.

The command pad 130 includes a wired / wireless interface 131, a battery 132, a keypad 133, a microphone 134, and a speaker 135 as shown in Fig.

The keypad 133 is an operation pad used by the audio supervisor to input a command and the wired / wireless interface 131 transfers the command input through the keypad 133 to the AIC-T 120 via wire or wirelessly.

The battery 132 supplies necessary power to the command pad 130. The microphone 134 is a means for converting audio of the audio supervision into an audio signal and the speaker 135 is means for outputting audio.

In the above embodiment, it is assumed that an audio supervisory command is stored in the high frequency band of the audio signal, but it is possible that the audio supervision voice generated through the microphone 134 is recorded in the high frequency band of the audio signal.

It is necessary to provide a speaker to the AIC-R 150 or the record system 170 or to connect the speaker device to the AIC-R 150 for audio output of the audio director recorded in the audio signal.

On the other hand, the technical idea of the present invention can also be applied to a case in which both command and supervised voice are recorded in the high frequency band of the audio signal.

In addition, the high frequency band of an audio signal in which a command or the like is recorded may be wider or narrower than the band of 19 kHz to 20 kHz, or it may be out of this band.

For example, it is possible to store a command or the like in a band having the smallest audio component in an audio signal. Furthermore, it is possible to implement such that a band in which a command or the like is recorded is hopped.

In this case, although the audio component is damaged by the recording of the command or the like, it can be implemented so as to restore from the audio component received before / after since it is for one point in time.

It is necessary that the information on the band containing any and all of the commands is stored in the header or the spare area as well as the highest frequency band of the audio signal.

The technical scope of the present invention encompasses both cases where an audio system including both a transmission system and a reception system as well as a transmission system or a reception system is implemented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

111, 112: MIC
120: Audio In-band Control Transfer (AIC-T)
122: High Frequency Audio Command Mux (HACM)
124: CP (Command Process) 125: wired / wireless interface
130: Command pad 140: Audio transmission system
150: Audio In-band Control Receiver (AIC-R)
152: High frequency Audio Command De-Mux (HACDM)
160: audio receiving system 170: record system
180: Amplifier 190: Speaker

Claims (10)

Generating an audio signal;
Receiving a command related to the audio signal;
Removing audio components in a band of a specific frequency or higher among the audio frequency bands in which audio components are contained in the audio signal and storing the commands; And
And transmitting the audio signal containing the command.
The method according to claim 1,
The above-
Is generated by an audio system on the basis of content input through an input device.
3. The method of claim 2,
The input device includes:
Wherein the input unit is a wired or wireless input unit.
The method according to claim 1,
The above-
And audio information of the user.
delete The method according to claim 1,
Receiving the audio signal containing the command;
Separating the command from the audio signal; And
And processing the audio signal according to the command.
Receiving an audio signal containing a command;
Separating the command from the audio signal; And
And processing the audio signal according to the command,
The above-
Wherein the audio signal is recorded after the audio component is removed in a band of a specific frequency or higher among the audio frequency bands in which the audio component is recorded in the audio signal.
8. The method of claim 7,
The above-
Is generated by an audio system on the basis of content input through an input device.
delete 8. The method of claim 7,
The command includes user's voice information,
And extracting the audio information from the command and outputting the audio information.

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