杨程 - 上海交通大学 - 机械与动力工程学院

个人简介

教育背景 2010-2013 香港理工大学机械工程系，博士 2007-2009 香港理工大学机械工程系，硕士 2003-2007 东南大学机械工程系，学士工作经历 - 2017-至今上海交通大学，准聘副教授 - 2016-2017 香港科技大学机械与航空工程系，Research Fellow - 2015-2016 香港理工大学机械工程系，Postdoctoral Fellow - 2013-2015 香港理工大学机械工程系，Research Associate 出访及挂职经历 - 2019.06-2019.07 瑞典皇家理工学院Marcus Wallenberg Laboratory for Sound and Vibration Research, Visiting Scholar - 2012.02-2012.08 西澳大学机械与化工工程系, Visiting Scholar 科研项目主持： 2020-2021 中央军委科技委国防创新特区“XXXXXXX无人机研究” 2020-2022 美的洗涤电器制造有限公司“吸油烟机振动、噪声技术研究” 2020-2021 中船重工七一一研究所“发动机发电机组低频振动噪声计算方法研究” 2020-2021 直升机旋翼动力学国家重点实验室“涵道尾桨气动噪声抑制技术研究” 2021-2023 国家自然科学基金青年项目“弯曲管道内无背腔穿孔板的降噪机理及其设计方法研究” 2020-2022 上海交通大学医工交叉研究基金“三维有限元模型在喉软化症严重程度及疗效评估中的应用” 2019-2021 CAST-BISEE创新基金“XX-12噪声控制研究” 2019-2020 装备预研重点实验室“水下开口弹性空腔声模态研究” 2019-2020 机械系统与振动国家重点实验室自主课题“大涵道比涡扇发动机轻量化短舱声学设计理论” 2019-2020 SJTU-KTH Collaborative Research and Development Seed Grants 2018-2020 上海市浦江人才计划“航空发动机短舱声学设计的关键科学问题” 2017-2019 上海交通大学高层次人才引进与培养启动经费“管道声学” Other projects involved in before SJTU: 2016-2017 Key technologies development for aircraft noise attenuation, 中航工业气动研究院、香港创新科技署 2014-2015 Preliminary study on the noise reduction methods for E-unit, 华为科技有限公司 2013-2016 Interior noise and vibration control of an spacecraft enclosure, 中国空间技术研究院 2010-2012 Noise transmission through double-walled structures: modeling, control and applications, PROCORE-France/Hong Kong Joint Research Scheme, 2009-2012 Vibroacoustic analyses and design of cavity backed micro-perforated panel absorber for environmental noise abatement, General Research Funds Hong Kong SAR. 教学工作 EM207 材料力学（钱学森班）48学时本科 ME238 机械振动学 48学时本科 ME26087 先进噪声控制技术（英文）48学时研究生软件版权登记及专利专利： [1] 一种喷水推进泵降噪结构 [2] 基于叶顶声学超材料的涵道无人机降噪模块 [3] 管道高阶声模态发生装置软著： [1] SJTU-Prop飞行器旋翼辅助设计软件荣誉奖励 Professional: 2018 上海市浦江人才 2013 国际噪声控制工程学会，Young Professionals Grant 2013 香港声学学会，Meyer Poon Memorial Award 2011 香港理工大学，Research Student Attachment Grant Personal: 2011 1st Runner-up, Hong Kong International Dragon Boat Races. 2010 2nd Runner-up, Hong Kong International Dragon Boat Races.

研究领域

气动声学；新概念无人飞行平台；飞行控制

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

期刊论文 [1] T. Zhong, C. Yang*, Application of the patch transfer function method for predicting flow-induced cavity oscillations, Journal of Sound and Vibration 521, 116678, 2022. [2] C. Yang*, T. Zhong, J. Li, S. You, S. Yang, H. Zhang, Z. Zheng*, Extended tube acoustic metamaterial: Its modeling and application to a kitchen hood, Applied Acoustics 185, 108398, 2022. [3] C. Yang*, A mathematical formulation for the optimal impedance of a curved axial microperforated panel in a duct bend, The Journal of the Acoustical Society of America Express Letters 1, 081601, 2021. [4] T. Li, Z. Wang, H. Xiao, Z. Yan, C. Yang, T. Tan*, Dual-band piezoelectric acoustic energy harvesting by structural and local resonances of Helmholtz metamaterial, Nano Energy 90, 106523, 2021. [5] P. Zhang, Y. Huang, Z. Yang, C. Yang*, W. Kang, Effect of source direction on liner impedance eduction with consideration of shear flow, Applied Acoustics 183, 108297, 2021. [6] C. Yang*, P. Zhang, S. Jacob, E. Trigell, M. Åbom, Investigation of extended-tube liners for control of low-frequency duct noise, AIAA Journal 59, 4179-4194, 2021. (入选Aeroacoustics Research in Europe – 2021 highlights) [7] C. Yang, H. Xu*, Effects of the backing cavity on the acoustic absorption of a microperforated panel absorber, Applied Acoustics 166, 107361, 2020. [8] X. Zhang, C. Yang, L. Cheng*, P. Zhang, An experimental investigation on the acoustic properties of micro-perforated panels in a grazing flow, Applied Acoustics 159, 107119, 2020. [9] C. Yang*, Acoustic attenuation of a curved duct containing a curved axial microperforated panel, The Journal of the Acoustical Society of America 144, 501-511, 2019. [10] C. Yang*, On the realization of acoustic attenuation using a microperforated panel alone, The Journal of the Acoustical Society of America 143, 1102-1105, 2018. [11] C. Yang*, Y. Fang, C. Zhao, X. Zhang, On modeling the sound propagation through a lined duct with a modified Ingard-Myers boundary condition, Journal of Sound and Vibration 424, 173-191, 2018. [12] Z. Hu, C. Yang, L. Cheng*, Acoustic resonator tuning strategies for the narrowband noise control in an enclosure, Applied Acoustics 134, 88-96, 2018. [13] C. Yang, X. Zhang*, F. Y. Tao, D. C. C. Lam, A study of the sound transmission mechanisms of a finite thickness opening without or with an acoustic seal, Applied Acoustics 122, 156-166, 2017. [14] C. Yang*, L. Cheng, Prediction of noise inside an acoustic cavity of elongated shape using statistical energy analyses with spatial decay consideration, Applied Acoustics 113, 34-38, 2016. [15] C. Yang, L. Cheng*, Suppression of bending waves in a beam using resonators with different separation lengths, The Journal of the Acoustical Society of America 139, 2361-2371, 2016. [16] C. Yang, L. Cheng*, Sound Absorption of Micro-perforated Panels inside Compact Acoustic Enclosures, Journal of Sound and Vibration 360, 140-155, 2016. (6th most downloaded article in JSV between Oct to Dec 2015) [17] C. Yang, L. Cheng*, Z. Hu, Reducing interior noise in a cylinder using Micro-perforated Panels, Applied Acoustics 95, 50-56, 2015. [18] C. Yang, J. Pan*, L. Cheng, A mechanism study of sound wave-trapping barriers, The Journal of the Acoustical Society of America 134, 1960-1969, 2013. [19] C. Yang, L. Cheng*, J. Pan, Absorption of oblique incidence sound by a finite micro-perforated panel absorber, The Journal of the Acoustical Society of America 133, 201-209, 2013. [20] L. Maxit, C. Yang, L. Cheng*, J. L. Guyader, Modeling of micro-perforated panels in a complex vibro-acoustic environment using Patch Transer Function approach, The Journal of the Acoustical Society of America 131, 2118-2130, 2012. [21] C. Yang, D. Li, L. Cheng*, Dynamic vibration absorbers for vibration control within a frequency band, Journal of Sound and Vibration 330, 1582-1598, 2011. (6th most downloaded article in JSV between Jan to Mar 2011) 会议论文： [1] T. Zhong, C. Yang, A semi-analytical model to predict the flow-induced noise of an open cavity with complex geometry, INTERNOISE, Virtual (August 1-5, 2021). (invited) [2] P. Zhang, Y. Huang, C. Yang, Effect of axially segmented liner distribution on sound attenuation in a flow duct, INTERNOISE, Seoul, Korea (August 23-26, 2020). (invited) [3] 杨程，张鹏林，基于延长管技术的低频线性声衬，中国航空学会声学分会学术会议，网络，（2020）. [4] 张鹏林，杨程，黄煜，分段声衬的轴向分布对其吸声性能的影响研究，中国航空学会声学分会学术会议，网络，（2020）. [5] C. Yang, P. Zhang, S. Sack and M. Åbom, Low frequency duct noise control using extended tube liners, AIAA Aviation Forum, Virtual Event (June 15-19, 2020). [6] S. Sack, C. Yang, M. Åbom, Applications of AI methods in duct acoustics, The 178th Meeting of the Acoustical Society of America, San Diego, USA (December 2-6, 2019). [7] C. Yang, S. Sack, M. Åbom, Optimal damping for a bend containing a microperforated panel, The 178th Meeting of the Acoustical Society of America, San Diego, USA (December 2-6, 2019). [8] 杨程，微穿孔吸声结构的实际降噪效果，上海-西安声学学会第六届声学学术交流会，上海(October, 2019).（invited） [9] 杨程，含有微穿孔板结构的弯管声学特性研究，中国声学大会，深圳(September, 2019). [10] 钟庭生，杨程，薄膜型隔声罩设计，中国航天第十专业信息网2019度学术交流会，福州(2019). [11] 杨程，一种高效的声衬阻抗提取技术，第二届全国气动噪声及控制技术学术会议，贵阳(2019). [12] C. Yang, P. Zhang, T. Zhong, A preliminary study of the acoustic attenuation of a thin acoustic liner, INTERNOISE, Madrid, Spain (June 16-19, 2019). (invited) [13] P. Zhang, Y. Huang, C. Yang, A parallel integration scheme of eigen solutions for duct acoustic modes, INTERNOISE, Madrid, Spain (June 16-19, 2019). (invited) [14] 杨程，吴海军，蒋伟康，一种无背腔的微穿孔板吸声设计，中国声学大会，北京(2018). [15] C. Yang, Acoustic absorption of a microperforated panel without the backing cavity, INTERNOISE, Chicago, USA (August 26-29, 2018). (invited) [16] C. Yang, P. Zhang, Y. Huang, W. Jiang, An investigation of the suitability of an alternative boundary condition for an impedance eduction technique, The 6th conference on noise and vibration – emerging method, Ibiza, Spain (May 7-9, 2018). [17] C. Yang, Sound attenuation in a curved duct using a microperforated panel, The 173rd Meeting of the Acoustical Society of America, Boston, USA (June 25-29, 2017). (invited) [18] C. Yang, F. Y. Tao, X. Zhang, On the acoustic properties of a hole in a wall of finite thickness, Acoustics 2016, Fremantle, Australia (November 9-11, 2016). [19] C. Yang, Control of interior noise by micro-perforated panel, Up 2 High Frequencies Summer School, Lyon, France (July 1-3, 2015). (poster) [20] X. Yu, C. Yang, L. Cheng, Microperforates for acoustic noise control applications, The 23rd International Conference on Noise and Fluctuations, Xian, China (June 2-6, 2014). [21] Z. Y. Hu, C. Yang, L. Cheng, Helmholtz Resonators for tonal noise reduction in manned spacecraft structure, The 4th East Asia Mechanical and Aerospace Engineering Workshop, Hong Kong (October 24-25, 2014). [22] C. Yang, L. Cheng, Micro-perforated panel absorber in small-scale cavity, The 21st International Congress on Sound and Vibration, Beijing, China (July 13-17, 2014). [23] L. Cheng, X. Yu, C. Yang, Micro-perforates in vibroacoustic systems, The 18th Annual Conference of HKSTAM, Hong Kong (March 15, 2014) [24] C. Yang, L. Cheng, A note on the coupling mechanisms of Micro-perforated Panel Absorber, INTERNOISE, Innsbruck, Austria (September 15-18, 2013). [25] C. Yang, J. Pan, L. Cheng, Performance analysis of the Wave Trapping Barrier, Acoustics 2012, Fremantle, Australia (November 21-23, 2012). [26] C. Yang, L. Cheng, Sound Absorption of a Baffled Cavity-backed Micro-perforated Panel Absorber under Oblique and Diffused Incidence, 14th Asia Pacific Vibration Conference, Hong Kong, China (December 5-8, 2011). [27] C. Yang, D. Li, L. Cheng, Dynamic vibration absorbers for vibration control within a frequency band, 14th Asia Pacific Vibration Conference, Hong Kong, China (December 5-8, 2011). [28] C. Yang, L. Cheng, Sound absorption of a baffled cavity-backed micro-perforated panel absorber under oblique and diffused incidence, INTERNOISE, Osaka, Japan (September 4-7, 2011). [29] L. Maxit, C. Yang, L. Cheng, J. L. Guyader, Modeling of micro-perforated panels effect in a complex vibro-acoustic environment using Patch Transfer Function approach, INTERNOISE, Osaka, Japan (September 4-7, 2011).

学术兼职

2018 – Now 上海市声学学会，理事 2018 – Now 中国声学学会，会员 2015 – Now 美国声学学会，会员专业服务： 1. Journal of the Acoustical Society of America、Journal of Sound and Vibration、AIAA Journal、Applied Acoustics、Mechanical Systems and Signal Processing and other (10+) acoustics、vibration、mechanics journals, etc 等期刊审稿人。 2. 瑞典皇家理工学院The Marcus Wallenburg Laboratory for Sound and Vibration Research博士答辩评审委员。