陶建成

陶建成

教授

个人简历

教授,现任华为-南京大学座舱声场创新实验室主任委员、中国环境学会环境物理学分会副主任委员、中国声学学会建筑声学分会和环境声学分会委员、全国声学标准化工作委员会委员、中国建筑学会建筑物理分会理事《声学学报》第一届青年编委、多次担任国际会议InterNoise分会场主席。研究方向为噪声控制和建筑声学,研究内容包括:有源噪声控制、新型低频吸声结构、结构声辐射预测、流阻率的声学测量。主持自然科学基金课题以及知名企业项目20余项,发表各类科研论文100余篇,其中含声学领域顶刊美国声学学报(J. Acoust. Soc. Am.)论文15篇,获发明专利授权30余项、省部级科技进步奖2项、华为技术有限公司火花奖。


研究方向

噪声控制和建筑声学

主要课程

建筑声学与音频工程
声学技术创新与行业发展

代表成果

近期论文:

[1]      Jiang H, Chen H, Tao, J*, et al., Accuracy requirements of ear-positioning for active control of road noise in a car, Applied Acoustics, 2024, 225: 110164.

[2]      Duan H, Shi L, Wang S, et al., Case study: Reference optimization for active control of air conditioning noise at defrost mode in vehicles, Noise Control Engineering Journal, 2024, 72 (1): 1-7.   

[3]      Gu W, Wang S, Tao J*, et al., A further study on coherence between virtual signal and physical signals in remote acoustic sensing, Journal of the Acoustical Society of America, 2023, 154 (6): 3737–3740. 

[4]      Yang Z, Wang S, Tao, J*, et al., Active control of sound transmission through a floor-level slit, Journal of the Acoustical Society of America, 2023, 154 (5): 2746-2756.    

[5]      Wang, S, Li, H, Zhang P, et al., An experimental study on the upper limit frequency of global active noise control in car cabins, Mechanical Systems and Signal Processing, 2023, 201: 110672.

[6]      Duan H, Wang S, Tao J, An analytical model for understanding active directivity noise control with near-field error sensing, Applied Sciences-Basel, 2023, 13 (14): 8486.

[7]      Wang S, Yang Z, Tao J*, et al., Transmission loss and directivity of sound transmitted through a slit on ground, Journal of the Acoustical Society of America, 2023, 153 (1): 224-235.

[8]      Zhang P, Wang S, Duan H, et al., A study on coherence between virtual signal and physical signals in remote acoustic sensing, Journal of the Acoustical Society of America, 2022, 152(5): 2840-2848.     

[9]      Wang S, Tao J*, Qiu X, et al., A natural ventilation window for transformer noise control based on coiled-up silencers consisting of coupled tubes, Applied Acoustics, 2022, 192: 108744.

[10]   Wang S, Tao J*, Qiu X, et al., Improving the performance of an active staggered window with multiple resonant absorbers, Journal of the Acoustical Society of America, 2022, 151(3): 1661-1671.

[11]   Wang S, Tao J, Qiu X, et al., Broadband noise insulation of windows using coiled-up silencers consisting of coupled tubes, Scientific Reports, 2021, 11(1): 6292.

[12]   Zhang P, Cong C, Tao J*, et al., Dual frequency sound absorption with an array of shunt loudspeakers, Scientific Reports, 2020, 10(1): 10806.

[13]   Zhong J, Chen B, Tao J*, et al., The performance of active noise control systems on ground with two parallel reflecting surfaces, Journal of the Acoustical Society of America, 2020, 147(5): 3397-3407.

[14]   Zhong J, Tao J*, Qiu X, Increasing the performance of active noise control systems on ground with two vertical reflecting surfaces with an included angle, Journal of the Acoustical Society of America, 2019, 146(6): 4075-4085.

[15]   Zhong J, Tao J*, Qiu X, Increasing the performance of active noise control systems on ground with a finite size vertical reflecting surface, Applied Acoustics, 2019, 154: 193-200.

[16]   Tao J, Guo Q, Qiu X, A near-field error sensing strategy for compact multi-channel active sound radiation control in free field, Journal of the Acoustical Society of America, 2019, 146(4): 2179-2187.

[17]   Wang S, Tao J, Qiu X, et al., A boundary error sensing arrangement for virtual sound barriers to reduce noise radiation through openings, Journal of the Acoustical Society of America, 2019, 145(6): 3695-3702

[18]   Wang K, Tao J*, Qiu X, Boundary control of sound transmission into a cavity through its opening, Journal of Sound and Vibration, 2019, 442: 350-365.

[19]   Zhang G, Tao J, Qiu X, et al., Decentralized two-channel active noise control for single frequency by shaping matrix eigenvalues, IEEE-ACM Transactions on Audio Speech and Language Processing, 2019, 27(1): 44-52.


联系方式

电子邮件:jctao@nju.edu.cn

联系电话:025-83593571

办公地点: 声学楼501

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