KR100209611B1 - Sound recording apparatus for a video camera - Google Patents

Abstract

An on-site sound recording apparatus of a video camera includes: a plurality of audio receivers respectively receiving a plurality of sound signals which are attached to one side of the video camera; A storage unit for storing each of the received audio signals after A / D conversion; A correlation separator which separates the sound of a subject desired by the user and other surrounding sounds not desired by the user by calculating a correlation between the audio signals output from the storage in a specific time period; A gain controller for amplifying and attenuating each of the separated audio signals according to a correlation; The recording unit is configured to record the amplified and attenuated audio signal on a recording medium after D / A conversion, thereby selectively amplifying and recording a sound generated from a subject to be recorded, thereby providing a more realistic sound.

Description

On-site sound recording device for video camera

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to video cameras, and more particularly, to a field sound recording apparatus of a video camera.

With the improvement of living standards, video cameras (camcorders) have become popular and widely used.

Such a video camera provides an image processing function to a user, while audio processing provides only a simple stereo function.

Accordingly, a video camera having various image processing functions and an effective voice processing function has been developed.

Hereinafter, an on-site sound recording apparatus of a video camera according to the prior art will be described with reference to the accompanying drawings.

1 is a view showing an example of the configuration of the microphone of the video camera according to the prior art and the sound processing from various sound sources according to the configuration of the microphone, Figure 2 is a block diagram showing a voice processing apparatus of the video camera according to the prior art to be.

As shown in FIG. 1, the first and second microphones 10 and 20 are mounted to be symmetrical to the outside of the conventional video camera 100.

An audio signal generated from an arbitrary sound source (subject) is input to the mounted first and second microphones 10 and 20.

In this case, the sound source is input to the microphones 10 and 20 in the form of concentric circles of one size.

The sound sources input to the microphones 10.20 are amplified by gains of a predetermined magnitude in each amplification unit (not shown) in the audio signal processing unit 30, and each amplified signal is processed and output to fit a stereo channel. .

The output voice signal is recorded in the recording unit 40, and the recorded voice signal is provided using the two microphones 10 and 20 to provide stereo sound.

In the conventional video camera, when the subject is far away when shooting, a zoom lens is used for shooting. The audio signal of the subject appearing in the video becomes small and the sound around the microphone becomes louder, thereby reducing the sense of unity of audio and video. There is a problem.

In addition, when recording the stage performance in the auditorium or when you want to record the sports event in the stadium, it is impossible to record the realistic sound because the surrounding sounds are recorded louder than the actors' voices or the dynamic sounds of the sports events. have.

Accordingly, the present invention has been made to solve the above-mentioned problems according to the prior art. An object of the present invention is to add one microphone to a conventional video camera and calculate the correlation of each signal with an audio signal input to each microphone. It is to provide an on-site sound recording device for a video camera that enables the recording of the on-site sound that can be felt only in a movie, even in a low cost video camera.

In addition, it does not require a separate microphone system as in a movie, and provides a field sound recording device for a video camera to generate a three-dimensional sound, such as watching a video in the field only with a microphone attached to the video camera.

1 is a view showing an example of the configuration of the microphone of the video camera according to the prior art and the sound processing from various sound sources according to the microphone configuration.

2 is a block diagram showing a sound processing apparatus of a video camera according to the prior art.

3 is a view showing an example of the configuration of the microphone of the video camera according to the present invention and the sound processing from various sound sources according to the microphone configuration.

4 is a block diagram showing an on-site sound recording apparatus of a video camera according to the present invention.

* Explanation of symbols for main parts of the drawings

10,20,50: microphone 30: audio signal processing unit

40: recording unit 60: storage unit

70: comparison unit 80: gain control unit

100: video camera

The on-site sound recording apparatus for a video camera according to the present invention adds a separate microphone to determine whether the subject is a sound or a sound of the surrounding environment by using correlation through each microphone in the same time zone, and adjusts gain. The sound is amplified and the surrounding sound is attenuated by the sound recording.

In addition, another feature of the present invention is a plurality of audio receiving unit for receiving a plurality of sound signals attached and input to one side of the video camera; A storage unit for storing each of the received audio signals after A / D conversion; A correlation separation unit that calculates a correlation of each audio signal output from the storage unit at a specific time period and separates a sound of a subject desired by a user from other ambient sounds not desired by the user; A gain control unit for amplifying and attenuating each of the separated audio signals according to a correlation; And a recording unit which records the amplified and attenuated audio signal on one recording medium after D / A conversion.

Hereinafter, an on-site sound recording apparatus for a video camera according to the present invention will be described with reference to the accompanying drawings.

3 is a view showing an example of the sound processing from the various sound sources according to the configuration of the microphone and the microphone configuration of the video camera according to the present invention, Figure 4 is a block diagram showing the on-site sound recording apparatus of the video camera according to the present invention to be.

First, referring to FIGS. 3 and 4, the video camera 100 includes first, second, and third microphones 10, 20, and 50 that receive sound sources generated from an external subject; A storage unit 60 for storing A / D-converted sound sources input to the microphones 10, 20, and 50, respectively; A correlation separator 70 for calculating a correlation between audio signals output from the storage unit 60 to separate a sound source; A gain control unit 80 for determining the recording level of the audio signal according to the correlation value calculated by the correlation separation unit 70; An audio signal processor 30 for processing an audio signal that can be recorded on a tape (not shown) according to the determined recording level; And a recording section 40 for recording the processed audio signal.

Here, the storage unit 60 is the first, second, third buffer (61, 62, 63) for A / D conversion of each audio signal input through each microphone (10, 20, 50) and then stored respectively It consists of.

The first and second microphones 10 and 20 of the microphones 10, 20 and 50 are fixed microphones and are symmetrically installed on the left and right sides of the video camera 100, and the third microphone 50 is the video camera. It is disposed in the center of the 100.

In this case, the third microphone 50 may be fixed or movable.

In describing the operation of the configuration, the operation when the third microphone 50 is movable will be described first.

First, a sound source generated from a subject that is in focus of the video camera 100 by using a signal of a focus controller (not shown) of the video camera 100, that is, by using a signal that is accurately focused on the subject, may be a first source. The second microphone 50 is moved in such a manner as to be simultaneously input to the second and third microphones 10, 20, and 50.

In this way, the sound source generated around the subject to be recorded is simultaneously input to the first, second, and third microphones 10, 20, and 50, and the sound source generated at the other part, that is, the sound source generated at or near the video camera 100, is generated. The first, second, and third microphones 10, 20, and 50 are input to different time zones.

The sound source signals input to the first, second, and third microphones 10, 20, and 50 are signals in which signals generated from various sound sources are mixed.

Therefore, the sound source signal generated from the subject focused on the focus controller is to be separated from the mixed sound source signals.

In order to separate the sound source signal, the above-described correlation separating unit 70 is required.

In order to calculate the correlation between the various sound source signals, the first, second, and third microphones 10, 20, and 50 are input to the first, second, and third buffers 61 of the storage unit 60. , 62,63).

The first, second, and third buffers 61, 62, and 63 store the input audio signal in a memory (not shown) after A / D conversion.

The correlation separator 70 reads each voice signal stored in each of the buffers 61, 62, and 63 and calculates the correlation.

That is, the voice signal stored in the second buffer 62 through the third microphone 50 and the voice signal stored in the first and third buffers 61 and 63 through the first and second microphones 10 and 20 are the same time. If the correlation is the largest in, it is determined that the voice signal of the portion is the voice signal generated from the correct subject and is output to the gain controller 80.

On the other hand, if the correlation between the audio signals stored in each of the buffers 61, 62, and 63 at different times is greatest, the audio signals may be generated from other sound sources, i.e., from the video camera 100, or from unwanted portions. It is determined that the voice signal generated by the output signal to the gain control unit 80, this determination signal.

The gain controller 80 increases the volume of a signal having a high correlation among the voice signals of the third microphone 50 at the same time according to the input determination signal, and decreases the volume of the recorded voice signal.

The audio signal processor 30 performs D / A conversion on the audio signal output from the gain control unit 80 and records the audio signal in the recording unit 40 while adjusting the strength of the audio signal according to the determined gain adjustment signal.

If you record the audio signal through this process, you can hear realistic sound compared to the existing video camera when you play the video and audio later, and you can feel the change more than the change when you change to the conventional mono sound and stereo sound. .

Subsequently, when the third microphone 50 is fixed, the operation of the video camera 100 may be removed first.

To this end, the audio signal comparison position of the correlation separator 70 may be moved by using the signal of the focus controller of the video camera 100.

Therefore, since the additional device capable of moving the third microphone 50 can be removed, the reliability of the system can be improved.

The on-site sound recording apparatus for a video camera according to the present invention uses the three microphones in which one microphone is added to a conventional video camera to investigate the correlation of the audio signals received from each microphone, and has the greatest correlation at a specific time period. By recording the voice signals large and recording the other voice signals small, there is an effect that can provide a more realistic sound than the conventional video camera.

In addition, the additional microphone is fixedly installed to remove other unnecessary devices, thereby improving the reliability of the system.

In addition, there is an advantage that can provide a high quality video camera with the addition of a small cost.

Claims (6)

A sound recording apparatus of a video camera, comprising: a plurality of audio receivers respectively receiving a plurality of sound signals attached and input to one side of the video camera; A storage unit for storing each of the received audio signals after A / D conversion; A correlation separator which separates the sound of a subject desired by the user and other surrounding sounds not desired by the user by calculating a correlation between the audio signals output from the storage in the same time zone; A gain controller for amplifying and attenuating each of the separated audio signals according to a correlation; And a recording unit configured to record the amplified and attenuated audio signal on one recording medium after D / A conversion. The field sound recording apparatus for a video camera of claim 1, wherein the audio receiver comprises first, second, and third microphones. The sound field of claim 2, wherein the first and second microphones are fixed, and the third microphone is installed to move the sound source generated by the subject to be simultaneously input with the first and second microphones. Recording device. 3. The video camera of claim 2, wherein the first and second microphones are symmetrically installed at left and right sides of the video camera, and the third microphone is mounted between the first and second microphones of a central portion of the video camera. On-site sound recording device. The apparatus of claim 1, wherein the storage unit comprises first, second and third buffers for receiving and storing respective audio signals. The voice signal stored in the storage unit of claim 1, wherein the correlation separating unit determines that the voice signal stored in the storage unit is the voice signal generated in the correct subject when the voice signal stored in the storage unit has the greatest correlation at a specific time. If the correlation is the greatest, the audio signal is a video signal for the field camera recording, characterized in that it is determined that the voice signal is generated from the unwanted portion.