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Reverse design of broadband sound absorption structure based on deep learning method

Yihong Zhou, Lifeng Ma, Kang Xi, Zhiyuan Zhu

2025Scientific Reports15 citationsDOIOpen Access PDF

Abstract

This research presents a method based on deep learning for the reverse design of sound-absorbing structures. Traditional methods require time-consuming individual numerical simulations followed by cumbersome calculations, whereas the deep learning design method significantly simplifies the design process, achieving efficient and rapid design objectives. By utilizing deep neural networks, a mapping relationship between structural parameters and the sound absorption coefficient curve is established. The forward network predicts the sound absorption coefficient curve, while the reverse network enables the on-demand design of structural parameters for broadband high sound absorption. During the design process, a mean squared error (MSE) below 0.0001 is achieved. The accuracy of the proposed design method is validated through examples. The results demonstrate that the trained deep learning neural network could effectively replace the complex physical mechanisms between structural parameters and sound absorption coefficient curves. This deep learning design method could also be extended to other types of metamaterial reverse designs, significantly enhancing the efficiency of complex metamaterial designs. Lightweight design is crucial for energy saving and emission reduction. With the total mass and average sound absorption coefficient of sound-absorbing materials as targets, the NSGA-II algorithm has been used for multi-objective optimization design. The optimized average sound absorption coefficient increased by 4.84%, and the total material mass was reduced by 18.98%.

Topics & Concepts

Computer scienceBroadbandAbsorption (acoustics)Noise reduction coefficientArtificial neural networkMean squared errorMetamaterialDeep learningAcousticsArtificial intelligenceMaterials scienceMathematicsTelecommunicationsStatisticsPhysicsOptoelectronicsPorosityComposite materialAcoustic Wave Phenomena ResearchNoise Effects and ManagementVehicle Noise and Vibration Control
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