KR101373077B1 - Real time audio sound correction system - Google Patents

Abstract

According to the characteristic of the present invention, the prevent invention relates to a real-time audio sound correction system, comprising: a first sound input unit which receives sound from an external source or audio data which are previously stored in the form of recorded data; a sound generating unit which outputs the sound or audio data received by the first sound input unit; a second sound input unit which is formed in proximity to the sound generating unit and receives sound generated by the sound generation unit; and a main server including a first sound analysis unit which analyzes the sound or audio data received by the first sound input unit to create first waveform data, a second sound analysis unit which analyzes the sound received by the second sound input unit to create second waveform data, a correction information generating unit which removes the waveform of the second waveform data from the waveform of the first waveform data to create correction information, and an equalization unit which, when the correction information is generated by the correction information generating unit, regulates the output from the sound generating unit so that the waveform of the first waveform data coincides with the waveform of the second waveform data. According to the present invention, the real-time audio sound correction system store the sound from the first sound input unit as the first waveform and the sound from the second sound input unit installed in proximity to a speaker as the second waveform and equalizes the first waveform and the second waveform so that the sound from the first sound input unit and the output sound from a speaker coincide with each other. [Reference numerals] (100) First sound input unit; (150) Sound generating unit; (200) Second sound input unit; (300) Main server; (310) First sound analysis unit; (320) Second sound analysis unit; (330) Correction information generating unit; (340) Equalization unit

Description

 Real-Time Audio Sound Calibration System {.}

The present invention relates to a real-time audio sound correction system, and more particularly, to store the sound input from the first sound input unit as the first waveform, and to convert the sound input from the second sound input unit installed in the vicinity of the speaker to the second waveform. The present invention relates to a real-time audio sound correction system for storing and equalizing a first waveform and a second waveform to match a sound input from a first sound input unit with a sound output from a speaker.

The present invention relates to a sound correction system.

In the PA system installed in the building, a plurality of speakers are installed in at least one zone.

The output of the plurality of speakers varies over time depending on the location and environment in which the plurality of speakers are installed.

If the speaker is installed in a place full of dust, dust may accumulate, which may interfere with audio signal output.

In addition, when an abnormality occurs in a specific speaker among a plurality of speakers, a listener located in an area in which the specific speaker is installed may not properly hear sound from the speaker.

That is, when a speaker is abnormal, when a listener listens to the sound output from the speaker, the proper voice signal cannot be delivered.

An object of the present invention devised to solve the above problems is to store the sound input from the first sound input unit as a first waveform, and to receive the sound input from the second sound input unit installed near the speaker. It is to provide a real-time audio sound correction system that equalizes the sound input from the first sound input unit with the sound output from the speaker by equalizing the first waveform and the second waveform by storing the waveform.

According to a feature of the present invention for achieving the above object, the present invention, the first sound input unit for receiving a sound when the sound is generated from the outside or for receiving the sound data in advance by storing the sound data; A sound generator for outputting sound or sound data input from the first sound input unit; A second sound input unit formed near the sound generator and receiving a sound generated by the sound generator; A first sound analysis unit configured to analyze the sound or sound data input from the first sound input unit to generate first waveform data, and a second sound to generate second waveform data by analyzing the sound input from the second sound input unit An analysis unit for generating correction information by removing the waveform of the second waveform data from the waveform of the first waveform data; and generating the correction information in the correction information generation unit. And a main server including an equalizer configured to adjust an output of the sound generator so that the waveforms of the second waveform data match. The correction information generator includes a waveform of the first waveform data and the second waveform data. And when the waveforms of the waveforms coincide, the correction information is not generated. The equalizing unit removes the noise signal when a noise signal is detected in the correction information. It is characterized in that the output to the sound generating generates the noise removed signal waveform.

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According to the present invention as described above, the sound input from the first sound input unit is stored as a first waveform, and the sound input from the second sound input unit installed near the speaker as a second waveform to store the first waveform and the first wave It is possible to provide a real-time audio sound correction system that equalizes two waveforms so that the sound input from the first sound input unit matches the sound output from the speaker.

1 is a block diagram showing a real-time audio sound correction system according to an embodiment of the present invention.
2 is an exemplary view showing a real-time audio sound correction system according to an embodiment of the present invention.
3 is a block diagram showing a real-time audio sound correction 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. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for explaining a real-time audio sound correction system according to embodiments of the present invention.

1 is a block diagram showing a real-time audio sound correction system according to an embodiment of the present invention, Figure 2 is an exemplary view showing a real-time audio sound correction system according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Fig. 1 is a block diagram showing a real-time audio sound correction system according to the present invention.

1 to 3, the present invention real-time audio sound calibration system includes a first sound input unit 100, a sound generator 150, a second sound input unit 200, and a main server 300.

When a sound is generated from outside, the first sound input unit 100 receives a sound or receives sound data that is stored in advance by converting the sound into data.

That is, the first sound input unit 100 may be installed in the form of a microphone to receive external sound or to receive sound data in which sounds such as MP3, CD, tape, and the like are input in advance.

The sound generator 150 outputs a sound or sound data input by the first sound input unit 100.

That is, the sound generator 150 is configured in the form of a speaker to output the input sound.

The second sound input unit 200 is formed in the vicinity of the sound generator 150 and receives the sound generated by the sound generator 150.

That is, the second sound input unit 200 is preferably formed in the vicinity of the sound generator 150 in the form of a microphone.

The main server 300 includes a first sound analyzer 310, a second sound analyzer 320, a correction information generator 330, and an equalizer 340.

Here, the main server 300 basically controls the sound input or output from the first sound input unit 100, the sound generator 150, and the second sound input unit 200.

The first sound analysis unit 310 analyzes the sound or the sound data input from the first sound input unit 100 to generate first waveform data.

That is, the first sound analyzer 310 may generate the first waveform data by analyzing the waveform of the sound input through the microphone corresponding to the first sound input unit 100 or the previously input sound data.

The second sound analyzer 320 analyzes the sound input from the second sound input unit 200 to generate second waveform data.

That is, the second sound analyzer 320 may generate second waveform data by analyzing a waveform of a sound input through a microphone corresponding to the second sound input unit 200.

The correction information generation unit 330 generates correction information by removing the waveform of the second waveform data from the waveform of the first waveform data.

The correction information generation unit 330 does not generate correction information when the waveform of the first waveform data and the waveform of the second waveform data coincide with each other.

That is, the correction information is not generated when the waveform of the first waveform data and the waveform of the second waveform data match, and the correction information is generated only when the waveform of the first waveform data and the waveform of the second waveform data do not match. desirable.

The equalizing unit 340, when the correction information is generated in the correction information generation unit 330, outputs the output of the sound generator 150 to match the waveform of the first waveform data with the waveform of the second waveform data. Adjust

In other words, the output of the sound generator 150 is adjusted in such a manner that the correction information is canceled according to the correction information, so that the output of the sound generator is matched with the waveform of the first waveform data and the waveform of the second waveform data. It is preferred to be adjusted.

Here, the equalizing unit 340 generates a noise signal removing waveform for removing the noise signal when the noise signal is detected in the correction information and outputs the noise signal to the sound generator 150.

That is, even if the waveform of the first waveform data and the waveform of the second waveform data coincide with each other by adjusting the output of the sound generator 150, the noise signal that is continuously generated generates the noise signal removal waveform in the sound generator 150. It is desirable to remove even the noise signal by outputting.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

100: first sound input unit 150: sound generating unit
200: second sound input unit 300: main server
310: first sound analysis unit 320: second sound analysis unit
330: correction information generating unit 340: equalizing unit

Claims (3)

A first sound input unit configured to receive sound when the sound is generated from the outside, or to receive sound data in advance by converting the sound into data;
A sound generator for outputting sound or sound data input from the first sound input unit;
A second sound input unit formed near the sound generator and receiving a sound generated by the sound generator;
A first sound analysis unit configured to analyze the sound or sound data input from the first sound input unit to generate first waveform data, and a second sound to generate second waveform data by analyzing the sound input from the second sound input unit An analysis unit for generating correction information by removing the waveform of the second waveform data from the waveform of the first waveform data; and generating the correction information in the correction information generation unit. And a main server including an equalizer configured to adjust an output of the sound generator to match the waveform of the second waveform data.
The correction information generation unit,
And when the waveform of the first waveform data and the waveform of the second waveform data coincide, the correction information is not generated.
The equalizing unit,
When the noise signal is detected in the correction information, a real-time audio sound correction system, characterized in that for generating a noise signal removal waveform to remove the noise signal to the sound generator.
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