KR101582815B1 - Method of measuring a floor noise using mobile device - Google Patents

Abstract

The present invention relates to a method for measuring an interlaminar noise using a mobile device, the method comprising: generating a reference noise; Receiving the reference noise through a voice receiving unit provided in the mobile device; Calculating a correction value for correcting the voice reception sensitivity of the voice receiving unit by comparing an energy value of the reference noise received and an energy value of the reference noise set in advance; Measuring a noise to be measured through the voice receiving unit; And applying the correction value to the energy value of the noise to be measured.

Description

[0001] METHOD OF MEASURING A FLOOR NOISE USING MOBILE DEVICE [0002]

The disclosed technology relates to a method of measuring an interlayer noise using a mobile device, and more particularly, to a method of measuring an interlayer noise by using a mobile device, which more accurately corrects a noise measurement error caused by a deviation of a voice receiving unit mounted on each mobile device, The present invention relates to a method of measuring an interlaminar noise using a device.

Interlayer noise is a noise pollution that occurs mainly in multi-family houses or apartments. The floor noise is called a floor impact sound (less than 58 dB) and a heavy impact sound (less than 50 dB) during flooring noise. . In the past, living in a single-family-centered home has become common as apartment houses, such as apartments, become more common.

In order to reduce the problems caused by the problem of interlayer noise, related laws are being strengthened so that the victim can claim damage if the interlayer noise exceeds the prescribed standard.

The strengthened interstate noise regulation allows the damage to be claimed when the average noise for 1 minute is 40dB in the week and 35dB in the nighttime, but it is troublesome for the general person to purchase and measure the noise measurement device for the damage verification.

In order to solve such a hassle, there have been proposed noise measurement applications that can be installed on a smart phone that a general person carries widely and can measure the noise.

However, since a microphone provided in a smart phone is for voice communication, an error may occur in noise measurement. Since noise sensitivity is different depending on the type of the smartphone and the type of microphone employed therein, it is difficult to trust the noise value measured by the conventional noise measurement applications.

The present invention is limited to overcome the problem caused by the conventional noise measurement application, and it is an object of the present invention to provide a mobile noise measurement apparatus and a mobile device which can more accurately measure interlayer noise by correcting a noise measurement error, And to provide a method for measuring interlayer noise using a device.

According to an aspect of the present invention, there is provided a method for measuring an interlayer noise using a mobile device, the method comprising: generating a reference noise; Receiving the reference noise through a voice receiving unit provided in the mobile device; Calculating a correction value for correcting the voice reception sensitivity of the voice receiving unit by comparing an energy value of the reference noise received and an energy value of the reference noise set in advance; Measuring a noise to be measured through the voice receiving unit; And applying the correction value to the energy value of the noise to be measured.

In this case, the step of generating the reference noise may be performed by reproducing the reference noise data through the sound output unit of the mobile device,

The reference noise data has different values depending on the characteristics of the audio output unit and the audio receiver of the model of the mobile device.

The energy value generated by the reference noise data reproduction may have different values depending on the characteristics of the audio output unit and the audio receiver of the mobile device.

The method may further include the step of continuously measuring the noise to be measured to which the correction value is applied, and comparing the measured noise with a prescribed interlayer noise reference value, after the step of applying the correction value, And graphically displaying the noise reference value. At this time, it may further include displaying the measurement start time of the noise to be measured, the measurement end time, the time and the number of times that the noise to be measured exceeds the interlayer noise reference value defined.

According to another aspect of the present invention, there is provided a method of generating a reference noise, the method comprising: generating a reference noise using a voice output unit provided in another mobile device associated with the mobile device.

At this time, the interlocking is performed by driving the noise measurement application installed in the mobile device and the other mobile device, and the reference noise is generated by controlling the reference noise data to be reproduced in the other mobile device.

Embodiments of the disclosed technique may have effects that include the following advantages. It should be understood, however, that the scope of the disclosed technology is not to be construed as limited thereby, since the embodiments of the disclosed technology are not meant to include all such embodiments.

According to the interlayer noise measurement method using the mobile device according to the present invention, it is possible to more accurately measure the interlayer noise by correcting the noise measurement error generated according to the deviation of the voice receiving unit mounted on the mobile device.

FIG. 1 is a flowchart showing a step of performing an interlayer noise measurement method using a mobile device according to an embodiment of the present invention.

The description of the disclosed technique is merely an example for structural or functional explanation and the scope of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas.

The present invention provides a method for correcting a noise measurement error generated according to a sensitivity deviation of a microphone noise measurement mounted on a mobile device to overcome a problem caused by a conventional noise measurement application. Hereinafter, the present invention will be described in detail with reference to FIG.

FIG. 1 is a flowchart showing a step of performing an interlayer noise measurement method using a mobile device according to an embodiment of the present invention.

The method of measuring an interlayer noise according to an exemplary embodiment includes a step S110 of generating a reference noise, a step S120 of receiving a reference noise, a step S130 of calculating a correction value, a step S140 of receiving a target noise, And applying a correction value (S150).

In step S110, the mobile device generates a reference noise. In the present invention, the mobile device includes both information communication devices including a voice output unit (speaker) and a voice receiving unit (microphone). For example, the mobile device may be a smart phone or a tablet PC.

On the other hand, the reference noise is a noise having a predetermined noise energy value when reproduced through the audio output unit, specifically, the reference noise is generated by reproduction of the reference noise data. More specifically, the reference noise data includes reproduction information on how many watts of a band of a voice frequency are to be output.

For example, the reference noise data may include information for outputting a frequency of 440 Hz in 0.1 W. The numerical values presented are for convenience of explanation, and various numerical values can be variously modified according to the characteristics of the mobile device.

That is, in step S110, the mobile device generates a reference noise by outputting the frequency of the 440 Hz band at 0.1 W by the reproduction information of the reference noise data.

In step S120, the mobile device receives the reference noise generated in step S110 through a voice receiving unit included in the mobile device. That is, the sound output from the speaker of the mobile device is received by the microphone of the same device.

The mobile device then measures the energy value of the received reference noise. Where the energy value can be calculated from the amplitude and duration of the received reference noise.

In step S130, the mobile device compares the measured energy value of the reference noise with the energy value of the preset reference noise to calculate a correction value for correcting the voice reception sensitivity of the voice receiving unit.

Here, the "energy value of the preset reference noise" is the energy value of the reference noise measured in the laboratory. In the laboratory, the reference noise data is reproduced from the mobile device of the same model to generate the reference noise, and the precision noise measurement device is positioned at the microphone position of the mobile device, and the energy value of the reference noise generated is measured. This value is used as a correction value for correcting the voice reception sensitivity of the voice receiving unit as "energy value of preset reference noise ".

For example, if the energy value of the preset reference noise is 40 dB and the energy value of the reference noise measured by steps S110 to S120 is 30 dB when the frequency of the 440 Hz band is output from the laboratory at 0.1 W, The correction value is about 1.333 which can correct 30dB to 40dB. The correction value for the example is a simple calculated value for convenience of explanation, and the calculation formula for calculating the correction value according to the frequency or duration of the reference noise may be variously applied.

In step S140, the mobile device measures a noise to be measured through the voice receiving unit. That is, the target noise (interlayer noise) is received and its energy value is measured.

In step S150, the mobile device calculates the energy value of the corrected target noise by applying the correction value calculated in step S130 to the energy value of the target noise.

According to the method for measuring an interlayer noise using a mobile device according to the above-described embodiment, an error that may occur due to a difference in component configuration between a mobile device audio output unit and a voice receiving unit is eliminated by using an energy value of a preset reference noise .

According to various embodiments of the present invention, the method of measuring an interlayer noise using a mobile device may further include continuously measuring an energy value of the target noise to be measured after step S150.

In other words, the noise regulation allows to claim damages if the average noise for 1 minute is 40dB per week and 35dB or more at night.

The method of measuring the inter-layer noise using the mobile device according to the present invention can measure the energy value of the target noise continuously and display it graphically as the prescribed reference value to visually judge the current level of the inter- have.

Further, the time at which the interlayer noise measurement is started, the time at which the measurement is completed, and the number of times that the measured interlayer noise exceeds the prescribed value can be further displayed. In addition, when instantaneous maximum noise exceeds the reference value, it can be stored and displayed.

Therefore, it has an advantage that it can be used as objective data on the noise generation in the case of the interlayer noise dispute.

Meanwhile, a method for measuring an interlayer noise using a mobile device according to another embodiment of the present invention will be described as follows.

When the reference noise is generated in the mobile device receiving the reference noise, since the voice output unit and the voice receiving unit are provided in one device, the vibration of the speaker can be directly transmitted to the microphone. For example, if the frequency of the reference noise overlaps with the natural vibration frequency of the mobile device, a large error occurs in the energy value of the reference noise due to the resonance occurring in the mobile device, so that it may be difficult to apply the calculated correction value.

That is, in order to minimize the resonance of the mobile device when the reference noise is generated, steps S110 and S120 may be performed by interlocking the two mobile devices.

In step S110 according to another embodiment, interworking of two mobile devices is performed first. The noise measurement application installed in each mobile device is driven to interlock the mobile device to be linked. For example, an adjacent mobile device is selected through an interlocking setting screen of a noise measurement application, and interworking is performed through Bluetooth pairing. For convenience of explanation, the two mobile devices are referred to as a first mobile device and a second mobile device, respectively.

When the first mobile device and the second mobile device are interlocked, the first mobile device controls the second mobile device so that the reference noise data is generated in the second mobile device.

In step S120, the first mobile device receives the reference noise generated from the second mobile device and compares the energy value of the received reference noise with the "energy value of the preset reference noise" A correction value for correcting the reception sensitivity can be calculated (S130).

According to this embodiment, since the reference noise is generated in other mobile devices, it is possible to minimize the error in calculating the correction value due to the mobile device resonance.

Although the method of measuring the interlayer noise using the mobile device has been described with reference to the embodiments shown in the drawings for the sake of understanding, it should be understood that those skilled in the art will appreciate that various modifications, It will be appreciated that embodiments are possible. Accordingly, the true scope of protection of the disclosed technology should be determined by the appended claims.

Claims (12)

A method for measuring interlayer noise using a mobile device,
Generating reference noise by reproducing reference noise data through an audio output unit provided in the mobile device;
Receiving the reference noise through a voice receiving unit provided in the mobile device;
Calculating a correction value for correcting the energy value of the reference noise to be equal to an energy value of the predetermined reference noise;
Measuring a noise to be measured through the voice receiving unit; And
And applying the correction value to the energy value of the noise to be measured.
delete The method according to claim 1,
Wherein the reference noise data has different values depending on characteristics of the sound output unit and the sound receiving unit of the mobile device.
The method of claim 3,
Wherein the energy value generated by the reference noise data reproduction has a different value depending on characteristics of the audio output unit and the audio receiving unit of the mobile device.
The method according to claim 1,
Further comprising the step of continuously measuring the noise to be measured to which the correction value is applied, after the step of applying the correction value, and comparing the calculated noise with the prescribed interlayer noise reference value.
The method of claim 5,
Further comprising the step of graphically displaying the noise to be measured and the prescribed interlayer noise reference value.
The method of claim 5,
The method of claim 1, further comprising: displaying a measurement start time of the noise to be measured, a measurement end time, and a time and a number of times that the noise to be measured exceeds a specified interlayer noise reference value. Way.
The method according to claim 1,
Wherein the step of generating the reference noise is performed through an audio output unit provided in another mobile device interlocked with the mobile device.
The method of claim 8,
Wherein the interlocking is performed by driving a noise measurement application installed in the mobile device and the other mobile device,
Wherein the reference noise is generated by controlling the reference noise data to be reproduced in the other mobile device by the mobile device.
Claim 9
Wherein the interlocking is performed by a short-range wireless communication method.
The method of claim 7,
And recording and storing the measurement start time of the noise to be measured, the measurement end time, the time exceeding the inter-layer noise reference value for which the noise to be measured is defined, the number of times and the magnitude of the noise. A Method of Interlayer Noise Measurement Using Mobile Devices.
The method according to any one of claims 1 and 3 to 11,
And a program for implementing a method of measuring an interlayer noise using the mobile device.

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