KR101373076B1 - Real Time Floor Noise Canceling System - Google Patents

Abstract

According to the features of the present invention, the present invention relates to a real-time interlayer noise removal system comprises: one or more sound input units to which identification numbers are respectively allocated according to installed locations, and which receive sound generated from the ceiling; a main server which includes a main DB for storing one or more reference waveform data respectively stored for each frequency of sound generated from the ceiling, one or more offset waveform data offsetting the sound corresponding to the reference waveform data, and location information according to the identification numbers of the sound input units, a sound analysis unit for analyzing sound received from the sound input units to generate waveform data, a sound detection unit for comparing the waveform data with pre-stored one or more reference waveform data to detect reference waveform data having a higher concordance rate, and a communication unit for receiving sound inputted from the sound input units and transmitting, to one or more sound generating units, offset waveform data corresponding to the reference waveform data detected by the sound detection unit; and the one or more sound generating units which include a sound converting unit for converting, into sound, offset waveform data transmitted from the communication unit and outputting the sound, and which are installed near each of the sound input units, and installed to generate sound towards the ceiling. Accordingly, the real-time interlayer noise removal system can receive sound through sound input units installed on the ceiling when an interlayer noise occurs, can compare the sound with pre-stored reference waveform data, and can output, through the sound generating units, offset waveform corresponding to the matched reference waveform data, thereby removing the interlayer noise. [Reference numerals] (100) Sound input unit; (200) Main server; (210) Main DB; (220) Sound analysis unit; (230) Sound detection unit; (240) Data generation unit; (250) Communication unit; (300) Sound generation unit; (310) Sound conversion unit

Description

 Real Time Denoise System {.}

The present invention relates to a real-time stratum noise removing system. More specifically, when stratum noise is generated, a reference waveform is matched by receiving a sound through a sound input unit installed on a ceiling and comparing the received sound with previously stored reference waveform data. The present invention relates to a real-time interlayer noise removing system for removing interlevel noise by outputting an offset waveform corresponding to data through a sound generator.

The present invention relates to an interlayer noise removal system.

Floor noise refers to noise pollution mainly generated in multi-family houses or apartments.

Floor noise refers to the sound of toilet water, floor impact sound, piano sound, audio sound, conversation sound, and TV sound.As a result, the government has set the standard for preventing noise between floors in 2004 when the damage caused by floor noise increased. The standard for light impact sound began to be implemented on April 23, and the standard for heavy shock sound was implemented from July 2005.

In addition, the Ministry of Land, Transport and Maritime Affairs foresaw legislation requiring mandatory floor construction standards to meet both thickness and noise performance requirements in order to reduce floor noise in multi-unit housing.

However, even with these efforts, damage caused by interlayer noise continues to occur, and efforts to eliminate such interlayer noise continue.

An object of the present invention devised to solve the problems as described above, when the noise between the floors is generated, the sound is input through the sound input unit installed on the ceiling, the input sound is compared with the previously stored reference waveform data is matched This is to provide a real-time floor noise removing system that removes floor noise by outputting an offset waveform corresponding to reference waveform data through a sound generator.

According to a feature of the present invention for achieving the above object, the present invention, the identification number is specified according to the installed position, respectively, one or more sound input unit for receiving a sound generated from the ceiling; One or more reference waveform data stored for each frequency of sound generated from the ceiling Main DB, one or more offset waveform data for canceling the sound corresponding to the reference waveform data and the location information according to the identification number of the sound input unit, the sound input unit A sound analyzer configured to analyze the sound received from the apparatus to generate waveform data, a sound detector configured to compare the first peak of the waveform data with the first peak of one or more reference waveform data stored in advance and detect reference waveform data matched with the first peak; A main server including a communication unit receiving the sound input from the sound input unit and transmitting offset waveform data corresponding to the reference waveform data detected by the sound detection unit to the sound generator; And a sound converting unit converting the offset waveform data transmitted from the communication unit into a sound and outputting the converted sound. And the offset waveform data is generated by an inverse phase dynamic amplitude of the reference waveform data. The main server may further include generating the waveform by the main waveform if the waveform data does not match the reference waveform data stored in the main DB. And a data generator configured to store the waveform repeated in the waveform data as reference waveform data and to generate offset waveform data by transforming the stored reference waveform data into reverse phase equal amplitude.

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According to the present invention as described above, when the floor noise is generated, the sound is input through the sound input unit installed on the ceiling, and compared with the reference waveform data stored in advance to the input waveform to match the offset waveform corresponding to the matched waveform data It is possible to provide a real-time floor noise removing system that outputs through the sound generator to remove the floor noise.

1 is a block diagram showing a real-time interlayer noise removing system according to an embodiment of the present invention
Figure 2 is an exemplary view showing a location where the real-time floor noise removing system according to an embodiment of the present invention is installed
3 to 4 are exemplary views showing an embodiment of a real-time interlayer noise removing system according to an embodiment of the present invention.
5 is a block diagram showing a real-time interlayer noise removing 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 interlayer noise removing system according to embodiments of the present invention.

1 is a block diagram showing a real-time interlayer noise removing system according to an embodiment of the present invention, Figure 2 is an exemplary view showing a location where a real-time interlayer noise removing system according to an embodiment of the present invention is installed, Figures 3 to Figure 4 is an exemplary view showing an embodiment of a real-time interlayer noise removing system according to an embodiment of the present invention, Figure 5 is a block diagram showing a real-time interlayer noise removing system according to an embodiment of the present invention.

1 to 5, the present invention includes a real-time sound input unit 100 using the sound, the main server 200, the sound generating unit 300.

Sound input unit 100, the identification number is specified according to the installed position, respectively, and receives the sound generated from the ceiling.

That is, it is preferable to receive sound when various sounds are generated from the ceiling such as footsteps, chair dragging, music sounds, and the like.

The main server 200 includes a main DB 210, a sound analyzer 220, a sound detector 230, a communication unit 240, and a data generator 250.

The main DB 210 according to the identification number of the sound input unit 100 and the one or more offset waveform data for canceling the sound corresponding to the reference waveform data, respectively one or more reference waveform data stored for each frequency of the sound generated from the ceiling Location information is stored.

The offset waveform data is generated by the reverse phase dynamic amplitude of the reference waveform data.

That is, the offset waveform data is preferably inverse to the waveform of the reference waveform data, and is preferably emitted to cancel the waveform of the reference waveform data.

The sound analyzer 220 generates waveform data by analyzing the sound input from the sound input unit 100.

The sound detection unit 230 compares the waveform data with one or more reference waveform data stored in advance, and detects reference waveform data having a high matching rate.

Here, the sound detector 230 detects the reference waveform data matched by comparing the first peak of the waveform data with the first peak of the one or more reference waveform data.

That is, when a sound such as a chair drag sound or footstep sound is input from the sound input unit 100, the in-phase reference is compared with the first peak of the sound detected by the sound detection unit 230 and the peak of the pre-stored reference waveform data. Detect waveform data.

The communication unit 240 receives the sound input from the sound input unit 100 and transmits the offset waveform data corresponding to the reference waveform data detected by the sound detection unit 230 to the sound generation unit 300.

If the waveform data does not match the reference waveform data stored in the main DB 210, the data generator 250 stores the waveform repeated in the waveform data as the reference waveform data and inverts the stored reference waveform data. The waveform is transformed into phase dynamic amplitude to generate offset waveform data.

The sound generator 300 is installed in the vicinity of each of the sound input units, is installed to generate a sound toward the ceiling, and includes a sound converting unit 310.

Here, the sound converting unit 310 converts the offset waveform data transmitted from the communication unit 240 into a sound and outputs the converted sound.

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: sound input unit 200: main server
210: main DB 220: sound analysis unit
230: sound detection unit 240: communication unit
250: data generator 300: sound generator
310: sound conversion unit

Claims (4)

Identification numbers are respectively assigned according to the installed position, one or more sound input unit for receiving a sound generated from the ceiling;
One or more reference waveform data stored for each frequency of sound generated from the ceiling Main DB, one or more offset waveform data for canceling the sound corresponding to the reference waveform data and the location information according to the identification number of the sound input unit, the sound input unit A sound analyzer configured to analyze the sound received from the apparatus to generate waveform data, a sound detector configured to compare the first peak of the waveform data with the first peak of one or more reference waveform data stored in advance and detect reference waveform data matched with the first peak; A main server including a communication unit receiving the sound input from the sound input unit and transmitting offset waveform data corresponding to the reference waveform data detected by the sound detection unit to the sound generator; And
At least one sound generating unit for converting the offset waveform data transmitted from the communication unit into a sound and outputting the converted sound, wherein the sound converting unit is installed near each sound input unit and installed to generate sound toward the ceiling. Including;
The offset waveform data,
Characterized in that the reverse phase dynamic amplitude of the reference waveform data,
The main server,
If the waveform data does not match the reference waveform data stored in the main DB, the waveform that is repeated in the waveform data is stored as reference waveform data, and the stored reference waveform data is transformed into reverse phase equal amplitude to generate offset waveform data. Real-time interlayer noise removing system comprising a.
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