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Sound Field Reconstruction Using Physics-Informed Boundary Integral Networks

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arxiv 2506.03917 v1 pith:EUOP3HZM submitted 2025-06-04 eess.AS

Sound Field Reconstruction Using Physics-Informed Boundary Integral Networks

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keywords fieldboundarypressuresoundequationintegralmodelphysics-informed
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Sound field reconstruction refers to the problem of estimating the acoustic pressure field over an arbitrary region of space, using only a limited set of measurements. Physics-informed neural networks have been adopted to solve the problem by incorporating in the training loss function the governing partial differential equation, either the Helmholtz or the wave equation. In this work, we introduce a boundary integral network for sound field reconstruction. Relying on the Kirchhoff-Helmholtz boundary integral equation to model the sound field in a given region of space, we employ a shallow neural network to retrieve the pressure distribution on the boundary of the considered domain, enabling to accurately retrieve the acoustic pressure inside of it. Assuming the positions of measurement microphones are known, we train the model by minimizing the mean squared error between the estimated and measured pressure at those locations. Experimental results indicate that the proposed model outperforms existing physics-informed data-driven techniques.

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