出生于黑龙江省伊春市,2008年7月华东理工大学机械与动力工程学院本科毕业,同年9月通过免试推荐进入上海交通大学机械与动力工程学院硕博连读,师从振动、冲击、噪声研究所蒋伟康教授进行噪声与振动控制方面的学习和研究。2010年9月通过博士生国外访学专项资助赴美国普渡大学进行为期一年的学习和交流,由Ray W. Herrick实验室的J. Stuart Bolton教授给予指导。博士课题研究方向为时域声场全息重建与声源辨识。
本科阶段获教育部“国家奖学金”和上海市优秀毕业生。攻读博士学位期间,以第一作者在Journal of the Acoustical Society of America、Journal of Sound and Vibration等高水平国际学术期刊上发表SCI论文5篇,EI论文2篇,另有国际会议论文和国内会议论文各1篇。先后获得上海交通大学学业一等奖学金、“柳工海外游学奖学金”、蒙民伟国际交流基金资助和教育部“博士研究生国家奖学金”,并被评选为2014届上海交通大学优秀毕业生。
参与项目
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2012.01-2014.12:非平稳任意外形声源辐射声场的时域近场声全息方法,国家自然科学基金委员会,课题编号:11104182;
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2009.10-2013.12:遥控船振动噪声测试与分析,中国船舶重工集团公司第七一O研究所;
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2012.02-2013.04:车身NVH关键技术研究,上汽通用五菱汽车股份有限公司;
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2009.08-2009.10:轨交12 号线白玉兰广场车站和区间的降噪方案,上海金港北外滩置业有限公司;
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2008.10-2009.12:轨道交通噪声声源识别、仿真和集成控制研究,上海申通地铁集团有限公司。
发表与录用的论文
[1] S. W. Pan, W. K. Jiang, "A hybrid approach to reconstruct transient sound field based on the free-field time reversal method and interpolated time-domain equivalent source method," Journal of Sound and Vibration, 2014, 333(16): 3625-3638. (SCI# 000336822300004, SCI&EI, Impact factor: 1.857)
[2] S. W. Pan, W. K. Jiang, H. B. Zhang, S. Xiang, "Modeling transient sound propagation over an absorbing plane by a half-space interpolated time-domain equivalent source method," Journal of the Acoustical Society of America, 2014, 136(4): 1744-1755. (SCI# 000345977400042, SCI&EI, Impact factor: 1.555)
[3] S. W. Pan, W. K. Jiang, S. Xiang, X. J. Liu, "An interpolated time-domain equivalent source method for modeling transient acoustic radiation over a mass-like plane based on the transient half-space Green's function," Wave Motion, 2014, 51(8): 1273-1287. (SCI# 000344830700004, SCI&EI, Impact factor: 1.303)
[4] S. W. Pan, H. B. Zhang, W. K. Jiang, "Theoretical and experimental study of transient sound field reconstruction in semi-free field," Journal of Vibration and Control, 2016, 22(10): 2325-2336. (SCI&EI, Impact factor: 4.355)
[5] S. W. Pan, W. K. Jiang, S. Xiang, “Reconstruction of semi-free transient sound field under different reflection conditions using an extended interpolated time-domain equivalent source method”, Part C: Journal of Mechanical Engineering Science, 2015, 229(5): 895-905. (SCI# 000352537300009, SCI&EI, Impact factor: 0.589)
[6] S. W. Pan, W. K. Jiang, "The use of interpolated time-domain equivalent source method for reconstruction of semi-free transient sound field," Proceedings of Meetings on Acoustics, 2014, 20(1): 055001. (EI# 20142317791434)
[7] S. W. Pan, W. K. Jiang, "Optimized two-dimensional imaging of transient sound fields using a hybrid transient acoustic holography," Proceedings of Meetings on Acoustics, 2013, 19(1): 055012. (EI# 20132516435961)
[8] S. W. Pan, W. K. Jiang, H. B. Zhang, "Research on reconstruction of transient acoustic fields based on statistically optimized near-field acoustical holography," in INTER-NOISE and NOISE-CON Congress and Conference Proceedings, New York City, USA, 2012, pp. 247-258.
[9] S. W. Pan, "Reconstruction of semi-free transient sound field based on an extended interpolated time-domain equivalent source method," Shanghai Jiao Tong University Outstanding Academic Papers by Students. http://hdl.handle.net/123456789/326
[10] S. W. Pan, W. K. Jiang, L. Yan, "The Interpolated Time-domain Equivalent Source Method For Modeling Transient Sound Propagation In Half Space," Noise and Vibration - Emerging Technologies, Dubrovnik, Croatia, April 13-15, 2015.
[11] S. Xiang, W. K. Jiang, S. W. Pan, "Sound source identification in a noisy environment based on inverse patch transfer functions with evanescent Green's functions," Journal of Sound and Vibration, 2015, 359, 68-83. (SCI&EI, Impact factor: 1.857)
[12] H. J. Wu, W. K. Jiang, S. W. Pan, "Some research of mapped radiation modes and its application in analyzing the radiation surface of vibrating structures," the 21st International Congress on Acoustics, Montréal, Canada, June 2-7, 2013.
[13] 鲁文波,蒋伟康,潘思伟,向上, "基于近场声全息声像图纹理特征的机械故障诊断方法," 振动工程学报, 2013, 26(4): 617~623. (EI# 20134416914851)
毕业论文摘要
本文针对TDESM 研究中的不足之处作了深入的探讨和分析,有针对性地提出了克服这些不足之处的解决方案,并开展了一系列基于TDESM 的瞬态声场全息重建方法的创新性研究。本文分析了基于插值时域等效源方法(ITDESM: Interpolated TDESM)的声场重构影响因素,并分别提出了基于时间反转镜(TRM: Time-reversal mirror)和ITDESM 的组合瞬态声场重建方法,具有镜像反射面的半自由空间瞬态声场重建方法,以及具有阻抗反射面的半自由空间瞬态声场重建方法。研究旨在降低瞬态声场重构的测量、计算成本,提高重构精度和成像分辨率,拓展TDESM 的应用范围,提高该方法对实际工程问题的适用能力,从而进一步完善和发展瞬态声场的重建和可视化技术。
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