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Robust adaptive beam forming directional pickup method based on subarray division

A robust self-adaptive, sub-array division technology, applied in the field of signal processing, can solve the problems of poor beamformer robustness, inability to reduce the covariance matrix dimension, etc., to improve algorithm robustness, reduce target signal distortion, Guaranteed pickup effect

Active Publication Date: 2021-11-02
INST OF ACOUSTICS CHINESE ACAD OF SCI
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Problems solved by technology

And using the Kronecker Product (KP) beamforming method in the microphone array to improve the robustness of the adaptive beamformer, but this method still cannot reduce the dimension of the covariance matrix during the calculation process
In practical applications, especially in large array systems with a large number of microphones, the robustness of the above beamformers is still poor when the number of snapshots is small compared to the number of elements in a large microphone array

Method used

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  • Robust adaptive beam forming directional pickup method based on subarray division
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  • Robust adaptive beam forming directional pickup method based on subarray division

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Embodiment 1

[0082] The present invention proposes a robust adaptive beamforming directional pickup method based on sub-array division, which is suitable for an array pickup system whose formation has the feature of spatial translation, that is, the array can be obtained by multiple translations of a part of the array. This method is mainly divided into the following two parts:

[0083] 1) A beamforming method based on subarray division is proposed. First, the array is divided into sub-arrays, and a fixed beamformer pointing to the target sound source is formed in each sub-array. This method can effectively reduce the amount of calculation, and at the same time, it can provide robust array gain after pre-steering. Secondly, the output signal after pre-steering is used as the input signal of the subsequent KP adaptive beamformer. This method can effectively reduce the covariance matrix dimension and the amount of calculation when the number of microphones is large and the snapshot is low, t...

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Abstract

The invention discloses a robust adaptive beam forming directional pickup method based on subarray division, and the method comprises the steps: carrying out the short-time Fourier transformation of a time domain signal received by a uniform area array, and obtaining a frequency domain signal; obtaining a plurality of sub-arrays for the uniform area array in a manner of uniformly having overlapped array elements; using a delay summation beam former for frequency domain signals of each subarray; according to an output result of the delay summation beam former, carrying out DOA estimation, judging whether a target signal exists in a current frame, and carrying out DOA information marking; carrying out pre-enhancement on the output signal of each sub-array by using an MVDR beam forming algorithm to obtain a pre-enhancement result; performing iterative processing according to the DOA information marking result and the pre-enhancement result to obtain an estimated noise covariance matrix; and selecting two virtual sub-arrays of a KP former, respectively using adaptive beamforming, calculating a weight coefficient by adopting a mode of mutual iteration of the virtual sub-arrays, and then obtaining final beamforming output.

Description

technical field [0001] The invention relates to the technical field of signal processing, in particular to a robust adaptive beamforming directional sound pickup method based on subarray division. Background technique [0002] Large-scale microphone arrays have the characteristics of multiple array elements and large apertures. These characteristics are beneficial to improve the ability of the beamformer to extract far-field target signals and suppress interference to a certain extent. However, for a data-driven adaptive beamformer, the increase in the number of microphones will lead to an increase in the dimension of the covariance matrix, and the number of snapshots required to accurately estimate the noise covariance matrix is ​​at least twice the dimension (ie, the number of microphones). When the number of snapshots is small, the covariance matrix will appear singular, resulting in a significant drop in the performance of the adaptive beamforming algorithm. At the same...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G10L21/0216
CPCG10L21/0216G10L2021/02166Y02D30/70
Inventor 厉剑万成孟维鑫郑成诗李晓东
Owner INST OF ACOUSTICS CHINESE ACAD OF SCI
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