KR101886213B1 - Sound source localization apparatus and operating method thereof - Google Patents

Abstract

The present invention relates to a sound source position estimating apparatus and an operation method thereof. A method of operating a sound source position estimating apparatus according to an embodiment of the present invention includes the steps of obtaining a sound source position estimating result according to a value of a sound source position estimating parameter while changing a value of a sound source position estimating parameter in the same environment, Determining an error length between an estimated sound source position and an ideal sound source position on the basis of the sound source position estimation parameter based on the sound source position estimation result; And updating the optimal value for the parameter.

Description

TECHNICAL FIELD [0001] The present invention relates to a sound source position estimating apparatus and a sound source position estimating apparatus,

The present invention relates to a sound source position estimating apparatus and an operation method thereof.

Generally, the sound source localization technique sets two microphones at different positions in an arbitrary space, and determines a position of the corresponding sound source based on the arrival time difference of the sound source signals that occur in the same sound source and arrive at the two microphones.

The most important thing in the sound source localization technique is the estimation performance (for example, accuracy, etc.), which is determined by the performance and number of microphones, the arrangement of microphones, the degree of noise and echo, The estimation performance is deteriorated by the elements.

Accordingly, there is a demand for a sound source position estimating apparatus and a method for operating the same that can guarantee the position estimation performance of a sound source.

There is a need in the art for a sound source position estimating apparatus and a method for operating the same that can guarantee a position estimation performance of a sound source.

In order to solve the above problems, a first aspect of the present invention provides a method of operating a sound source position estimating apparatus. The method includes the steps of: obtaining a sound source position estimation result according to a value of a sound source position estimation parameter while changing a value of a sound source position estimation parameter in the same environment; and, based on the obtained sound source position estimation result, Determining an error length between the estimated sound source position and the ideal sound source position for each value and updating the optimal value for the sound source position estimation parameter based on the determined error length for each sound source position estimation parameter value .

A second aspect of the present invention provides a sound source position estimating apparatus. The sound source position estimating apparatus includes a sound source position estimating unit for estimating a position of the sound source based on the sound source signals received through the plurality of microphones and a sound source position estimating unit for estimating a position of the sound source based on the sound source position estimating unit Determining an error length between an estimated sound source position and an ideal sound source position for each sound source position estimation parameter value based on the obtained sound source position estimation result, And a parameter setting / resetting unit for updating an optimal value for the sound source position estimation parameter based on the determined error length for each sound source position estimation parameter value.

In addition, the solution of the above-mentioned problems does not list all the features of the present invention. The various features of the present invention and the advantages and effects thereof will be more fully understood by reference to the following specific embodiments.

It is possible to provide a sound source position estimation apparatus and an operation method thereof that can guarantee the position estimation performance of a sound source.

1 is a block diagram showing a configuration of a sound source position estimating apparatus according to an embodiment of the present invention,
FIG. 2 is a flowchart illustrating an operation method of a sound source position estimating apparatus according to an embodiment of the present invention;
3 is an illustration showing an average error length per lower frequency according to an embodiment of the present invention,
4 is an exemplary diagram illustrating an estimation failure rate for each lower frequency according to an embodiment of the present invention, and
FIG. 5 is an exemplary diagram illustrating the number of successes of estimation by a lower limit frequency according to an embodiment of the present invention; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, the present invention will be described with respect to a sound source position estimating apparatus and its operation method capable of assuring the position estimation performance of a sound source. In particular, the present invention relates to a technique for estimating the position of a sound source using a plurality of microphones, and more particularly, to a technique for improving the estimation accuracy of the position estimation method using a plurality of microphones, including a total average error length (mm) (BWL), Cross Correlation Level (CCL), and sample number (BWL) through a quantitative measurement item called an error length (%) and a total detected times of error length A method for determining an optimal value for a sound source position estimation parameter such as a number of samples will be described. Accordingly, the present invention can easily and objectively optimize the values of the sound source location estimation parameters, thereby ensuring the sound source location estimation performance.

1 is a block diagram showing a configuration of a sound source position estimating apparatus according to an embodiment of the present invention.

As shown in the figure, the sound source position estimation apparatus includes a plurality of microphones 100, a filter 110, a cross correlation unit 120, a sound source position estimation unit 130, and a parameter setting /

Referring to FIG. 1, the plurality of microphones 100 are arranged at predetermined positions according to the arrangement, and receive sound source signals transmitted from the sound sources.

The filter 110 performs filtering on sound source signals received through the plurality of microphones 100 arranged. Here, the filter 110 includes, for example, a band pass filter that passes only a signal in a predetermined frequency range, and an average filter that removes impulse noise. Here, in the case of the average filter, the degree of averaging is adjusted according to the cross-correlation level value.

The cross-correlation unit 120 performs cross-correlation (CC) in the frequency domain with respect to the filtered sound source signals, and outputs a delay time and a cross-correlation level value according to the cross-correlation. Here, the delay time represents the arrival time difference TDE (Estimated Time Delay) of the sound source signal transmitted from the same sound source and arriving at the two microphones, and the cross correlation level value is a value obtained by subtracting the degree of matching between the sound source signals transmitted from the same sound source and arriving at the two microphones And is represented by a value between 0 and 1.

The sound source position estimating unit 130 estimates the positions of the sound sources based on the sound source signals received through the plurality of microphones 100 arranged. In particular, the sound source location estimator 130 determines the three-dimensional coordinates of the sound source location corresponding to the delay time output by the cross-correlation unit 120 based on the predefined location reference table. The position reference table is a table that defines a time delay for each three-dimensional (XYZ) coordinate of a sound source position with respect to a current ambient acoustic environment, and is updated to an appropriate value according to a change in ambient acoustic environment.

The parameter setting / resetting unit 140 determines the necessity of setting / resetting the sound source position estimation parameter, and changes the value of the sound source position estimation parameter in the same environment to the predetermined unit, The sound source position estimation result is obtained according to the value of the sound source position estimation parameter. The sound source position estimation parameter includes a lower limit frequency, a cross-correlation level, a number of samples, and the like, wherein the lower limit frequency and the number of samples changed in the predetermined unit are applied to the filter 110, And is applied to the cross correlation unit 120. Then, the parameter setting / resetting unit 140 determines an error length between the estimated sound source position and the ideal sound source position for each sound source position estimation parameter value based on the obtained sound source position estimation result, Based on the error length for each parameter value, it determines the failure / success of the sound source location estimation by the sound source location estimation parameter value. The parameter setting / resetting unit 140 repeats this process for a predetermined number of times, and determines an estimation failure rate, a predetermined number of times of in-time estimation success, and an average error length for each sound source position estimation parameter value. The parameter setting / resetting unit 140 configures the first group with the sound source position estimation parameter values corresponding to the average error lengths of the average error lengths according to the determined sound source position estimation parameter values that are equal to or less than the first threshold value, A second group is formed of the sound source position estimation parameter values corresponding to the estimated failure rate lower than the second threshold value among the estimated failure rate for each of the estimated parameter values, and the second group is set to the estimated success number of times greater than or equal to the third threshold among the determined sound source position estimation parameter success- And constitute a third group with corresponding sound source position estimation parameter values. The parameter setting / resetting unit 140 may determine an optimal value for the sound source position estimation parameter as a sound source position estimation parameter value included in at least two of the first, second, and third groups, The sound source position estimation parameter is set / reset with the sound source position estimation parameter value of the sound source position estimation parameter.

2 is a flowchart illustrating an operation method of a sound source position estimating apparatus according to an embodiment of the present invention.

Referring to FIG. 2, in step 201, the sound source position estimation apparatus determines whether setting / resetting of a sound source position estimation parameter is necessary. Here, the sound source position estimation parameter includes a lower limit frequency, a cross-correlation level, a number of samples, and the like. The sound source position estimating apparatus obtains a delay time and a cross-correlation level value by performing cross-correlation in a frequency domain with respect to sound source signals received through a plurality of microphones, Monitoring is possible. Therefore, the sound source position estimation apparatus monitors cross-correlation level values of a sound source signal received through a plurality of microphones, and when the monitored cross-correlation level value is less than a threshold value, It is judged that the accuracy is lowered and it is judged that it is necessary to set / reset the sound source position estimation parameter suitable for the changed ambient acoustic environment in order to increase the accuracy of the sound source position estimation.

If it is determined in step 201 that the setting / resetting of the sound source position estimation parameter is necessary, the sound source position estimating apparatus changes the sound source position estimation parameter in the same sound environment to a predetermined unit in step 203, To obtain the sound source position estimation result. For example, it is possible to estimate the position of a sound source according to the value of the lower frequency while changing the lower frequency in units of 2 kHz in the same acoustic environment.

In step 205, the sound source position estimation apparatus determines an error length between the estimated sound source position and the ideal sound source position for each sound source position estimation parameter value based on the obtained sound source position estimation result. Here, it is assumed that the sound source position estimating apparatus knows an accurate position of the corresponding sound source, that is, an ideal sound source position.

In step 207, the sound source position estimating apparatus determines failure / success of sound source position estimation according to the sound source position estimation parameter value based on the determined error length for each sound source position estimation parameter value. Here, the sound source position estimation apparatus determines whether or not the error length between the estimated sound source position and the ideal sound source position is below a threshold value, and determines that the sound source position estimation is successful when the error length is below a threshold value. It can be determined that the sound source position estimation has failed.

Here, steps 203 through 207 are repeated a predetermined number of times.

In step 209, the sound source position estimation apparatus determines an estimation failure rate of the sound source position estimation and a predetermined number of successful in-time estimation times according to the sound source position estimation parameter value according to the sound source position estimation failure / success determination result in step 209, Determine the average error length per parameter value.

Then, in step 211, the sound source position estimating apparatus constructs the first group from the sound source position estimating parameter values corresponding to the average error length of the average error length of the sound source position estimating parameter values determined below the first threshold value. For example, an average error length for each lower frequency may be determined as shown in FIG. 3, and the first group may be composed of the lower frequency values corresponding to the average error length of the first threshold.

Then, in step 213, the sound source position estimating apparatus configures the second group with the sound source position estimation parameter values corresponding to the estimated failure rate below the second threshold among the determined sound source position estimation parameter failure rate per parameter value. For example, the estimation failure rate for each lower frequency can be determined as shown in FIG. 4, and the second group can be configured with the lower frequency values corresponding to the estimation failure rate below the second threshold.

Then, in step 215, the sound source position estimating apparatus configures the third group with the sound source position estimation parameter values corresponding to the number of successes of the estimated number of times of success or failure of the estimated sound source position estimation parameter value by the third threshold or more. For example, the number of successes estimated by the lower frequency limit can be determined as shown in FIG. 5, and the third group can be configured with the lower limit frequency values corresponding to the number of successes of estimation over the third threshold value.

In step 217, the sound source position estimation apparatus determines and updates the optimal value for the sound source position estimation parameter with the sound source position estimation parameter values included in at least two of the first, second, and third groups. For example, in the case of FIGS. 3 to 5, the optimum value for the lower limit frequency may be 4 or 5 kHz.

Then, in step 219, the sound source position estimation apparatus sets / resets the sound source position estimation parameter with the determined optimum sound source position estimation parameter value.

In step 221, the sound source position estimation apparatus estimates a sound source position based on the set / reset sound source position estimation parameter.

Thereafter, the sound source position estimating apparatus ends the algorithm according to the present invention.

Alternatively, according to another embodiment of the present invention, weights are given to each of the average error length, the estimation failure rate, and the estimation success times for each sound source position estimation parameter value, and the sum of them is obtained. The optimum value for the sound source position estimation parameter may be determined from the sound source position estimation parameter value.

Alternatively, according to another embodiment of the present invention, an optimal value for the sound source position estimation parameter may be determined based on one of an average error length, an estimation failure rate, and an estimation success rate for each sound source position estimation parameter value. For example, the optimum value for the sound source position estimation parameter may be determined from the sound source position estimation parameter value corresponding to the smallest average error length among the average error lengths per sound source position estimation parameter value. Alternatively, the optimum value for the sound source position estimation parameter may be determined to be the sound source position estimation parameter value corresponding to the smallest estimation failure rate among the estimation failure rates for each sound source position estimation parameter value. Alternatively, the optimum value for the sound source position estimation parameter may be determined to be the sound source position estimation parameter value corresponding to the largest number of successes of the estimation success times of the sound source position estimation parameter values.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: microphone
110: filter
120: cross-correlation unit
130: sound source position estimating unit
140: Parameter setting /

Claims (8)

Obtaining a sound source position estimation result according to a value of a sound source position estimation parameter while changing a value of a sound source position estimation parameter in the same environment;
Determining an error length between an estimated sound source position and an ideal sound source position for each sound source position estimation parameter value based on the obtained sound source position estimation result;
And updating an optimal value for the sound source position estimation parameter based on the determined error length for each sound source position estimation parameter value.
The method according to claim 1,
Wherein the sound source position estimation parameter includes at least one of a lower limit frequency, a cross-correlation level, and a number of samples.
The method according to claim 1,
And updating the optimal value for the sound source position estimation parameter based on the determined error length for each sound source position estimation parameter value,
Determining a failure / success of sound source position estimation for each sound source position estimation parameter value based on the determined error length for each sound source position estimation parameter value;
Determining an estimated failure rate and a predetermined number of successful in-time estimation times for each sound source position estimation parameter value according to a result of the sound source position estimation failure / success determination;
Determining an average error length for each sound source position estimation parameter value;
Determining an optimal value for the sound source position estimation parameter based on at least one of an average error length, an estimation failure rate, and an estimation success rate for each of the determined sound source position estimation parameter values.
The method of claim 3,
Determining an optimal value for the sound source position estimation parameter based on at least one of an average error length, an estimation failure rate, and an estimation success rate for each of the determined sound source position estimation parameter values,
Constructing a first group with sound source position estimation parameter values corresponding to an average error length of an average error length for each sound source position estimation parameter value that is less than or equal to a first threshold value;
Constructing a second group with sound source position estimation parameter values corresponding to an estimated failure rate lower than a second threshold among the determined sound source position estimation parameter value-based failure rate;
And constructing a third group with the sound source position estimation parameter values corresponding to the number of successes of the estimated number of successes of the sound source position estimation parameter values by the third threshold or more,
Wherein the optimal value is determined as a sound source position estimation parameter value included in at least two of the first, second, and third groups.
A sound source position estimator for estimating a position of the sound source based on sound source signals received through a plurality of microphones,
The sound source position estimation parameter according to the value of the sound source position estimation parameter is obtained through the sound source position estimation unit while changing the value of the sound source position estimation parameter in the same environment, and based on the obtained sound source position estimation result, And a parameter setting / resetting unit for determining the error length between the estimated sound source position and the ideal sound source position and updating the optimal value for the sound source position estimation parameter based on the determined error length for each sound source position estimation parameter value A sound source position estimating apparatus.
6. The method of claim 5,
Wherein the sound source position estimation parameter includes at least one of a lower limit frequency, a cross-correlation level, and a number of samples.
6. The method of claim 5,
Wherein the parameter setting / resetting unit updates the optimal value for the sound source position estimation parameter based on the determined error length for each sound source position estimation parameter value,
Determining failure / success of the sound source position estimation for each sound source position estimation parameter value based on the determined error length for each sound source position estimation parameter value, determining an estimation failure rate for each sound source position estimation parameter value according to the sound source position estimation failure / Determining an average error length for each of the sound source position estimation parameter values based on at least one of an average error length, an estimation failure rate, and an estimation success rate for each of the determined sound source position estimation parameter values, And determines an optimum value for the sound source position estimation parameter.
8. The method of claim 7,
Wherein the parameter setting / resetting unit determines the optimal value for the sound source position estimation parameter based on at least one of the determined average error length, the estimated failure rate,
A first group is formed of sound source position estimation parameter values corresponding to an average error length equal to or less than a first threshold among the determined average error lengths according to the sound source position estimation parameter values, The second group is constituted by the sound source position estimation parameter values corresponding to the estimated failure rate below, and the sound source position estimation parameter values corresponding to the estimated number of success times of the third threshold or more among the determined sound source position estimation parameter success- Group,
Wherein the optimum value is determined as a sound source position estimation parameter value included in at least two of the first, second, and third groups.

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