Omni-directional equivalent source sound source identification method based on solid ball array

A sound source identification and equivalent source technology, which is applied in the field of sound field identification, can solve the problems of sound field reconstruction and poor sound source identification performance, and achieve excellent sound source positioning accuracy and sound field reconstruction performance.

Inactive Publication Date: 2019-03-22
CHONGQING UNIV
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Problems solved by technology

The traditional S-ESM is solved by standard Tikhonov regularization technology. However, due to the limitation of Nyquist sampling theorem, the limitation of Tikhonov regularization and the instability of regularization parameters, its reconstruction accuracy can only be achieved at medium and low frequencies and small measurement distances. accept
[0003] The spherical array equivalent source (SDI-based S-ESM, referred to as SDI) based on the fastest descent iteration (Steepest Descent Iteration, SDI) has achieved better medium and high frequency reconstruction performance, and broadened the S-ESM in sound source identification. Applicable distance in the field, but limited by the inherent defects of the fastest descent iterative solution, SDI has poor sound field reconstruction and sound source identification performance at low frequencies and large measurement distances

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  • Omni-directional equivalent source sound source identification method based on solid ball array
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  • Omni-directional equivalent source sound source identification method based on solid ball array

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Embodiment Construction

[0045] Below in conjunction with accompanying drawing and embodiment the present invention will be further described:

[0046] The present invention comprises the following steps:

[0047] Step 1. Obtain the total sound pressure of the sound field radiation measured by the solid sphere array

[0048] The S-ESM coordinate system used in the present invention is as figure 1 As shown, let the center of the solid sphere array be the coordinate origin, and the array radius be a. Any position in the three-dimensional space can be described by r=(r,θ,φ), r represents the distance between any observation point in the three-dimensional space and the origin, θ and φ are the elevation angle and azimuth angle respectively, and the values ​​are 0-180° and 0-360°, used to indicate the direction of the described position, and record Ω≡(θ,φ). The position of the equivalent source is r e =(r e ,Ω e ), the position of each reconstruction point on the reconstruction sphere is r r =(r r ,...

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Abstract

The invention discloses an omni-directional equivalent source sound source identification method based on a solid ball array. The method includes the steps that 1, sound field radiation total sound pressure measured by the solid ball array is acquired; 2, the equivalent source intensity q is calculated on the basis of an iterative weighting algorithm, wherein the solving formula is shown in the description, in the formula, W refers to a weighting matrix which is a reversible matrix with non-zero diagonal elements, and lambda is a regularization parameter; S3, the sound pressure at any positionis reconstructed. The method has the advantages that the sound source positioning precision and the sound field rebuilding performance are excellent at medium and low frequency and large measuring distances.

Description

technical field [0001] The invention belongs to the technical field of sound field identification, and in particular relates to a sound source identification method of a spherical equivalent source of a solid sphere array. Background technique [0002] The Spherical Equivalent Source Method (S-ESM) based on solid sphere array is a new algorithm for omnidirectional sound field reconstruction and sound source identification. The traditional S-ESM is solved by standard Tikhonov regularization technology. However, due to the limitation of Nyquist sampling theorem, the limitation of Tikhonov regularization and the instability of regularization parameters, its reconstruction accuracy can only be achieved at medium and low frequencies and small measurement distances. accept. [0003] The spherical array equivalent source (SDI-based S-ESM, referred to as SDI) based on the fastest descent iteration (Steepest Descent Iteration, SDI) has achieved better medium and high frequency recon...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S5/22
CPCG01S5/22
Inventor 褚志刚刘宴利平国力杨洋
Owner CHONGQING UNIV
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