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    Journals >Journal of Synthetic Crystals >Volume 53 >Issue 10 >Page 1720 > Article
    • Journal of Synthetic Crystals
    • Vol. 53, Issue 10, 1720 (2024)
    Design of Two-Dimensional Layered Phononic Crystal Structures Based on LightGBM and Genetic Algorithm
    CHU Fan and ZHAO Chunfeng*
    Author Affiliations
  • College of Civil Engineering, Hefei University of Technology, Hefei 230009, China
    • show less
    DOI: Cite this Article
    CHU Fan, ZHAO Chunfeng. Design of Two-Dimensional Layered Phononic Crystal Structures Based on LightGBM and Genetic Algorithm[J]. Journal of Synthetic Crystals, 2024, 53(10): 1720 Copy Citation Text show less
    References

    [1] KUSHWAHA M S, HALEVI P, DOBRZYNSKI L, et al. Acoustic band structure of periodic elastic composites[J]. Physical Review Letters, 1993, 71(13): 2022-2025.

    [2] LIU Z, ZHANG X, MAO Y, et al. Locally resonant sonic materials[J]. Science, 2000, 289(5485): 1734-1736.

    [6] HUANG J K, SHI Z F. Vibration reduction of plane waves using periodic In-filled pile barriers[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2015, 141(6): 04015018.

    [8] NGOM M, SY A, FAYE I, et al. Study of phononic and photonic crystal problems by topological optimization method[J]. International Journal of Mathematical Analysis, 2011, 5(15):723-745.

    [9] HEDAYATRASA S, ABHARY K, UDDIN M. Numerical study and topology optimization of 1D periodic bimaterial phononic crystal plates for bandgaps of low order Lamb waves[J]. Ultrasonics, 2015, 57: 104-124.

    [11] HA T Y, YOON G H. Improving the performance of destructive interference phononic crystal structure through topology optimization[J]. Finite Elements in Analysis and Design, 2024, 235: 104138.

    [12] LIU C X, YU G L, ZHAO G Y. Neural networks for inverse design of phononic crystals[J]. AIP Advances, 2019, 9(8): 085223.

    [13] LI X, NING S W, LIU Z L, et al. Designing phononic crystal with anticipated band gap through a deep learning based data-driven method[J]. Computer Methods in Applied Mechanics and Engineering, 2020, 361: 112737.

    [14] GURBUZ C, KRONOWETTER F, DIETZ C, et al. Generative adversarial networks for the design of acoustic metamaterials[J]. The Journal of the Acoustical Society of America, 2021, 149(2): 1162.

    [15] GUO L T, ZHAO S Y, YANG J, et al. Graphene-based phononic crystal lenses: machine learning-assisted analysis and design[J]. Ultrasonics, 2024, 138: 107220.

    [16] DE PASCALIS R, DONATEO T, FICARELLA A, et al. Optimal design of phononic media through genetic algorithm-informed pre-stress for the control of antiplane wave propagation[J]. Extreme Mechanics Letters, 2020, 40: 100896.

    [17] HAN X K, ZHANG Z. Topological optimization of phononic crystal thin plate by a genetic algorithm[J]. Scientific Reports, 2019, 9: 8331.

    [20] LAI C G, CALLERIO A, FACCIOLI E, et al. Prediction of railway-induced ground vibrations in tunnels[J]. Journal of Vibration and Acoustics, 2005, 127(5): 503-514.

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    CHU Fan, ZHAO Chunfeng. Design of Two-Dimensional Layered Phononic Crystal Structures Based on LightGBM and Genetic Algorithm[J]. Journal of Synthetic Crystals, 2024, 53(10): 1720
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