代表性论文专著
发表论文100余篇, 其中在MSSP,JSV和IEEE TIM等杂志发表第一/通信作者发表SCI论文57篇,主要的论文列表如下,查看更多的论文信息网页:https://www.researchgate.net/profile/Liang_Yu17
【中文期刊论文】
[1] 余亮, 吴海军, 蒋伟康. 结合波束形成和GAN网络的多通道语音增强研究. 噪声与振动控制, 2018, 38(S2): 591-596.
[2] 刘学良, 吴海军, 余亮. 四边形常数单元离散下的声学非奇异BIE. 噪声与振动控制, 2018, 38(S1): 14-18.
[3] 严莉, 李豆, 余亮, 吴海军, 蒋伟康, 唐路蒙. 破壁料理机减振降噪研究. 噪声与振动控制, 2019, 39(06): 257-261.
[4] 余亮, 潘铮, 陈正武, 蒋伟康. 传声器阵列特征值滤波去噪方法. 声学学报, 2021, 46(3): 335-343.
[5] 丁晋晋, 胡定玉, 余亮. 三维空间非同步测量高分辨率声成像方法. 声学学报, 2021, 47(2): 220-228.
[6] 余亮, 潘铮, 陈正武, 高建正, 蒋伟康. 基于最优收缩的传声器阵列部分相干噪声去噪方法. 声学技术, 2021, 40(5): 671-679.
[7] 初宁, 黄乾, 余亮*, 宁岳, 徐建锋, 吴大转. 一种基于相位平均的旋转声源高分辨率定位方法. 振动与冲击, 2021, 40(19): 125-136.
[8] 王冉, 余龙靖, 余亮*, 蒋伟康. 基于RPCA 低秩稀疏分解的循环频率检测方法. 振动与冲击, 2022
[9]王冉,黄裕春,张军武,余亮*.变转速下滚动轴承的阶频谱相关域微弱故障特征增强与提取. 测控技术. 2022,42(3):79-86.
[10] 王冉, 张军武, 余亮*, 组稀疏低秩矩阵估计的变转速滚动轴承故障特征提取. 振动与冲击, 2023
[11] 王冉,曹徐,张军武,余亮*,基于张量CP分解的滚动轴承微弱故障特征提取方法,振动、测试与诊断,2023
[12] 王冉,黄裕春,张军武,余亮*. 基于低秩和稀疏分解的滚动轴承故障特征提取方法对比研究.振动与冲击,2023.
[13] 王冉,汪光哲,张晨宇,郭奇欣,张永立,余亮,高源,陈诺,拖曳阵列流致噪声的混合高斯建模与抑制(20230301-0033),声学学报, 2023.
[14] 高康,郐浩瑜,黄时春,余亮,蒋伟康, 圆形流管内高阶混合模态激发的全局标定方法(气动声学专栏),实验流体力学,2023.
【英文期刊论文】
[1] Jerome Antoni, Liang Yu, Quentin Leclere. Reconstruction of sound quadratic properties from non-synchronous measurements with insufficient or without references: Proof of concept. Journal of Sound and Vibration, 2015, 349: 123-149.
[2] Liang Yu, Jerome Antoni, Quentin Leclere. Spectral matrix completion by cyclic projection and application to sound source reconstruction from non-synchronous measurements. Journal of Sound and Vibration, 2016, 372: 31-49.
[3] Liang Yu, Jerome Antoni, Quentin Leclere, Weikang Jiang. Acoustical source reconstruction from non-synchronous sequential measurements by Fast Iterative Shrinkage Thresholding Algorithm. Journal of Sound and Vibration, 2017, 408: 351-367.
[4] Liang Yu, Haijun Wu, Jerome Antoni, Weikang Jiang. Extraction and imaging of aerodynamically generated sound field of rotor blades in the wind tunnel test. Mechanical Systems and Signal Processing, 2019, 116: 1017-1028.
[5] Liang Yu, Jerome Antoni, Haijun Wu, Weikang Jiang. Reconstruction of cyclostationary sound source based on a back-propagating cyclic wiener filter. Journal of Sound and Vibration, 2019, 442: 787-799.
[6] Liang Yu, Jerome Antoni, Haijun Wu, Quentin Leclere, Weikang Jiang, Fast Iteration Algorithms for Implementing the Acoustic Beamforming of Non-synchronous Measurements. Mechanical Systems and Signal Processing, 2019, 134: 106309.
[7] Liang Yu, Jerome Antoni, Han Zhao, Qixin Guo, Rui Wang, Weikang Jiang. The acoustic inverse problem in the framework of alternating direction method of multipliers. Mechanical Systems and Signal Processing, 2021, 149: 107220.
[8] Lin Geng, Liang Yu*, Meng-Lin Mu, Chun-Dong He, Bo Yan. Recovery of non-stationary free field based on pressure and acceleration measurements in a noisy environment. Journal of Sound and Vibration, 2019, 453: 25-40.
[9] Lin Geng, Liang Yu*, Chundong He, Wuguo Wang, Yunhao Dai. A multistep acoustic method for suppressing the reconstruction instability of instantaneous vibration of an exciting planar structure. Mechanical Systems and Signal Processing, 2020, 135: 106402.
[10] Liang Yu, Li Yan, Mengjie Chen, Liangchao Dong. Cyclostationary modeling of the surface EMG signal and its application for CP diagnosis. Journal of Shanghai Jiaotong University (Science), 2018, 23(1): 56-61.
[11] Liang Yu, Wei Dai, Shichun Huang, Weikang Jiang. Sparse Time–Frequency Representation for the Transient Signal Based on Low-Rank and Sparse Decomposition. Journal of Acoustics, 2019, 1: e190003.
[12] Hao Jiang, Haijun Wu, Liang Yu, Weikang Jiang. Force identification based on the reconstruction of distributed response with an optimized sensor placement. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part C, Journal of Mechanical Engineering Science, 2018, 203(210): 1989-1996.
[13] Haijun Wu, Liang Yu, Weikang Jiang. A coupling FEM/BEM method with linear continuous elements for acoustic-structural interaction problems. Applied Acoustics, 2019, 150: 44-54.
[14] Shichun Huang, Liang Yu*, Weikang Jiang*. Water entry sound detection in strong noise by using the spectrogram matrix decomposition method. Applied Acoustics, 2020, 161: 107171.
[15] Dingyu Hu, Jinjin Ding, Han Zhao, Liang Yu* , Spatial basis interpretation for implementing the acoustic imaging of non-synchronous measurements. Applied Acoustics, 2021, 182: 108198.
[16] Ning Chu, Linlin Wang, Liang Yu, Changbo He, Linlin Cao, Bin Huang, Dazhuan Wu. An Adaptive Autogram Approach Based on a CFAR Detector for Incipient Cavitation Detection. Sensors, 2020, 20(8): 2303.
[17] Ning Chu*, Yue Ning, Liang Yu*, Qian Huang, Dazhuan Wu. A High-Resolution and Low-Frequency Acoustic Beamforming Based on Bayesian Inference and Non-Synchronous Measurements. IEEE Access, 2020, 8: 82500-82513.
[18] Haijun Wu, Dou Li, Liang Yu, Weikang Jiang. A boundary element method based near field acoustic holography in noisy environments. Journal of the Acoustical Society of America, 2020, 147(5): 3360-3371.
[19] Ning Chu, Han Zhao, Liang Yu*, Qian Huang, Yue Ning. Fast and High-Resolution Acoustic Beamforming: A Convolution Accelerated Deconvolution Implementation. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 6502415.
[20] Liang Yu, Qixin Guo, Ning Chu, Rui Wang. Achieving 3D Beamforming by Non-Synchronous Microphone Array Measurements. Sensors, 2020, 20: 7308.
[21] Ning Chu, Yue Ning, Liang Yu*, Qian Huang, Dazhuan Wu. A Fast and Robust Localization Method for Low-Frequency Acoustic Source: Variational Bayesian Inference Based on Nonsynchronous Array Measurements. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 2504718.
[22] Ning Chu, Qian Huang, Liang Yu*, Yue Ning, Dazhuan Wu. Rotating acoustic source localization: A power propagation forward model and its high-resolution inverse methods. Measurement, 2021, 174: 109006.
[23] Liang Yu, Yi Fan, Ning Chu, Qian Huang, Yue Ning, Peng Hou. Low complexity modeling of cross-spectral matrix and its application in the non-synchronous measurements of microphones array. IEEE Access, 2021, 9: 21951-21964.
[24] Ning Chu, Yue Ning, Liang Yu*, Qin Liu, Qian Huang, Dazhuan Wu, Peng Hou. Acoustic Source Localization in a Reverberant Environment based on Sound Field Morphological Component Analysis and Alternating Direction Method of Multipliers. IEEE Transactions on Instrumentation and Measurement, 2021,70: 1-13.
[25] Ning Chu, Qin Liu, Liang Yu*, Yue Ning, Peng Hou. Non-synchronous Measurements of a Microphone Array at Coprime Positions. IEEE Signal Processing Letters, 2021, 28: 1420-1424.
[26] Liang Yu, Zening Gong, Ning Chu, Yue Ning, Yuling Zheng, Peng Hou. Adaptive Imaging of Sound Source Based on Total Variation Prior and a Subspace Iteration Integrated Variational Bayesian Method. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 1-17.
[27] Ran Wang, Haitao Fang, Longjing Yu, Liang Yu*, Jin Chen. Sparse and low-rank decomposition of the time-frequency representation for bearing fault diagnosis under variable speed conditions. ISA transactions, 2021:0019-0578.
[28] Ran Wang, Chenyu Zhang, Liang Yu*, Jiaqing Li. Sparsity-Enhanced Equivalent Source Method for Acoustic Source Reconstruction via The Generalized Minimax-Concave Penalty. Mechanical Systems and Signal Processing,2022, 167: 108508.
[29] Shichun Huang, Xingjian Pan, Liang Yu*, Weikang Jiang*. Achieving cylindrical duct modes generation in Spinning Mode Synthesizer via a least-square identification of the global calibration factor. Applied Acoustics, 2022, 186: 108423.
[30] Liang Yu, Longjing Yu, Jiaqi Wang, Ran Wang , Zhifei Chen. Cyclostationary modelling for the aerodynamically generated sound of helicopter rotors. Mechanical Systems and Signal Processing, 2022, 168: 108680.
[31] Liang Yu, Chenyu Zhang, Ran Wang, Guogang Yuan, Xiao Wang. Grid-moving equivalent source method in a probability framework for the transformer discharge fault localization. Measurement, 2022, 191:110800.
[32] Ran Wang, Chenyu Zhang, Liang Yu*, Haitao Fang, Xiong Hu. Rolling bearing weak fault feature extraction under varible speed conditions via joint sparsity and low-rankness in the cyclic order-frequency domain. Applied Sciences, 2022, 12:2449.
[33] Liang Yu, Zhixin Li, Ning Chu*, Ali Mohammad-Djafari, Qixin Guo, Rui Wang. Achieving the Sparse Acoustical Holography via the Sparse Bayesian Learning. Applied Acoustics, 2022, 191: 108690.
[34] Qin Liu, Ning Chu*, Liang Yu*, Yue Ning, Peng Wu. Efficient Localization of Low Frequency Sound Source with Non-Synchronous Measurement at Coprime Positions by Alternating Direction Method of Multipliers. IEEE Transactions on Instrumentation and Measurement, 2022, 14: 1-12.
[35] Liang Yu, Jerome Antoni, Jiayu Deng, Cong Li, Weikang Jiang. Low rank and Gaussian Mixture Modeling of the space-snapshot representation of microphone array measurement for the Acoustic Imaging in a complex noisy environment. Mechanical Systems and Signal Processing, 2022, 165: 108294.
[36] Ran Wang, Longjing Yu, Chunhua Wei, Shuai Ma, Weiguo Zhang, Zhifei Chen, Liang Yu*,Aerodynamic noise separation of helicopter main and tail rotors using a cascade filter with Vold-Kalman filter and cyclic Wiener filter, Applied Acoustics,Volume 192, 2022, 108751, ISSN 0003-682X, https://doi.org/10.1016/j.apacoust.2022.108751.
[37] Ran Wang, Ting Liu, Chenyu Zhang, Liang Yu*, Jiaqing Li,Noise source localization in permanent magnet synchronous motors under time-varying speed working conditions, Applied Acoustics, Volume 192, 2022, 108724, ISSN 0003-682X, https://doi.org/10.1016/j.apacoust.2022.108724.
[38] Ran Wang, Haitao Fang, Yongli Zhang, Liang Yu*, Jin Chen, Low-rank enforced fault feature extraction of rolling bearings in a complex noisy environment: a perspective of statistical modelling of noises, IEEE Transactions on Instrumentation and Measurement, vol. 71, pp. 1-14, 2022, Art no. 3510414, doi: 10.1109/TIM.2022.3165281.
[39] Lin Geng, Lei Jiang, Liang Yu*, Feng Xie, Kalman-filter-based time-domain plane wave superposition method for reconstructing an instantaneous sound field, Mechanical Systems and Signal Processing,Volume 174,2022,109107,ISSN 0888-3270.
[40] Ran Wang, Longjing Yu, Haitao Fang, Liang Yu*, Jin Chen, and Changqing Shen, Cyclic correlation density decomposition based on a sparse and low-rank model for weak fault feature extraction of rolling bearings, Measurement, Volume 198, 2022,111393, ISSN 0263-2241, https://doi.org/10.1016/j.measurement.2022.111393.
[41] Ning Chu, Qin Liu, Liang Yu*, Qian Huang, Yue Ning, Dazhuan Wu, Ali Mohammad-Djafari,
High-resolution localization of rotating acoustic sources: An experimental investigation and axial fan application, Measurement, 2022, 111149, ISSN 0263-2241,https://doi.org/10.1016/j.measurement.2022.111149
[42] Qixin Guo, Liang Yu*, Ran Wang, Rui Wang*, Weikang Jiang,The Acoustic Inverse Problem in the Inhomogeneous Medium by Iterative Bayesian Focusing Algorithm,Signal Processing,2022,108602,ISSN 0165-1684, https://doi.org/10.1016/j.sigpro.2022.108602.
[43] Wang Ran, Xiaoquan Yi, Liang Yu*, Chenyu Zhang, Tongdong Wang, and Xiaopeng Zhang ,Infrasound Source Localization of Distributed Stations Using Sparse Bayesian Learning and Bayesian Information Fusion, Remote Sensing 14, no. 13: 3181. https://doi.org/10.3390/rs14133181
[44] Ran Wang, Qiulan Jing, Longjing Yu, Yongli Zhang, Liang Yu*, The acoustic imaging of the broadband dipole sound sources of helicopter rotor in the wind tunnel test, in IEEE Transactions on Instrumentation and Measurement, vol. 71, pp. 1-11, 2022, Art no. 4504911, doi: 10.1109/TIM.2022.3193742.
[45] Dingyu Hu, Jinjin Ding, Han Zhao, Liang Yu*, Achieving high-resolution 3D acoustic imaging in a large-aspect-ratio cabin by the non-synchronous measurements, Applied Acoustics, Volume 197, 2022, 108953, ISSN 0003-682X, https://doi.org/10.1016/j.apacoust.2022.108953.
[46] Liang Yu, Yanqi Chen, Yongli Zhang, Ran Wang, Zhaodong Zhang,On-line harmonic signal denoising from the measurement with non-stationary and non-Gaussian noise, Signal Processing, 2022, 108723, ISSN 0165-1684, https://doi.org/10.1016/j.sigpro.2022.108723.
[47] Li Wang, Puhan Zhao, Ning Chu*, Liang Yu* and Ali Mohammad-Djafari, A hierarchical Bayesian fusion method of infrared and visible images for temperature monitoring of high-speed direct-drive blower, IEEE Sensors Journal, vol. 22, no. 19, pp. 18815-18830, 1 Oct.1, 2022, doi: 10.1109/JSEN.2022.3201226.
[48] Liang Yu, Xiaoquan Yi, Ran Wang*, Chenyu Zhang, Tongdong Wang, Xiaopeng Zhang, Uncertainty quantification for infrasound propagation in the atmospheric environment, Applied Sciences 12, no. 17: 8850. https://doi.org/10.3390/app12178850
[49] Ran Wang, Junwu Zhang, Haitao Fang, Liang Yu*, Jin Chen, Sparsity enforced time-frequency decomposition in the Bayesian framework for bearing fault feature extraction under time-varying conditions, Mechanical Systems and Signal Processing,Volume 185, 2023, 109755, ISSN 0888-3270,
https://doi.org/10.1016/j.ymssp.2022.109755.
[50] Liang Yu, Longjing Yu, Ran Wang, Chunhua Wei, Kexin Xu, Rui Wang, Passive sound detection of the helicopter in the far-field with a spectral coherence decomposition method, Mechanical Systems and Signal Processing, Volume 185, 2023, 109754, ISSN 0888-3270, https://doi.org/10.1016/j.ymssp.2022.109754.
[51] Long Chen, Weize Sun, Lei Huang, Liang Yu, Broadband Sound Source Localization via Non-synchronous Measurements for Service Robots: A Tensor Completion Approach, IEEE Robotics and Automation Letters, vol. 7, no. 4, pp. 12193-12200, Oct. 2022, doi: 10.1109/LRA.2022.3212665.
[52] Shichun Huang, Liang Yu*, Weikang Jiang*, Duct mode identification in a statistical model via the Iterative Bayesian, Mechanical Systems and Signal Processing, Volume 186, 2023,109842, ISSN 0888-3270, https://doi.org/10.1016/j.ymssp.2022.109842.
[53] Junjia Zhang, Pengcheng Gong, Yuntao Wu, Liang Yu, Lirong Li, Design of Frequency Invariant Beamformers Via Adpm Approach,Signal Processing, 2022, 108814, ISSN 0165-1684, https://doi.org/10.1016/j.sigpro.2022.108814.
[54] Ran Wang, Fucheng Yan, Ruyu Shi, Liang Yu *, Yingjun Deng*,Uncertainty-Controlled Remaining Useful Life Prediction of Bearings with a New Data-Augmentation Strategy, Applied Sciences 12, no. 21: 11086. https://doi.org/10.3390/app122111086, 2022.
[55] Lin Geng, Ge Zhang, Liang Yu*, Jun Ma, Chun-Li Shao, Feng Xie,Reconstruction and analysis of a non-stationary sound field in a uniformly flow medium, Applied Acoustics, Volume 201, 2022, 109111, ISSN 0003-682X, https://doi.org/10.1016/j.apacoust.2022.109111.
[56] Qin Liu, Ning Chu*, Liang Yu*, Zhunyuan Shao, Huixian Qin, Peng Wu, A Bayesian Framework of Non-Synchronous Measurements at Coprime Positions for Sound Source Localization with High Resolution, IEEE Transactions on Instrumentation and Measurement, 2022.
[57] Xiaoping Zhou, Zhen Ma, Jiehui Li, and Liang Yu. Ultrasonic-Aided Fast-Layered Alternating Iterative Tensor Channel Estimation for V2X Millimeter-Wave Massive MIMO Systems, Electronics 11, no. 22: 3742. https://doi.org/10.3390/electronics11223742,2022.
[58] Lin Chen, Youhong Xiao*, Liang Yu*, Tiejun Yang, Algorithms with randomization-based acceleration strategies for sound source localization by non-synchronous measurements, Mechanical Systems and Signal Processing, Volume 188, 2023, 109996, ISSN 0888-3270, https://doi.org/10.1016/j.ymssp.2022.109996.
[59] Ran Wang, Yongli Zhang, Liang Yu*, Jérôme Antoni, Quentin Leclère, Weikang Jiang, A probability model with Variational Bayesian Inference for the complex interference suppression in the acoustic array measurement, Mechanical Systems and Signal Processing, Volume 191, 2023, 110181, ISSN 0888-3270, https://doi.org/10.1016/j.ymssp.2023.110181.
[60] Chenyu Zhang, Ran Wang*, Liang Yu*, Youhong Xiao, Order domain beamforming for the acoustic localization of rotating machinery under variable speed working conditions, Applied Acoustics, Volume 205, 2023,109290,ISSN 0003-682X,
https://doi.org/10.1016/j.apacoust.2023.109290.
[61] Liang Yu, Qixin Guo, Rui Wang, Minyan Shi, Fucheng Yan, and Ran Wang. 2023. "Dynamic Offloading Loading Optimization in Distributed Fault Diagnosis System with Deep Reinforcement Learning Approach" Applied Sciences 13, no. 7: 4096. https://doi.org/10.3390/app13074096.
[62] Ning Chu, Keyu Hu, Liang Yu*, Ali Mohammad-Djafari, and Weihua Yang. High-Resolution Fast-Rotating Sound Localization Based on Modal Composition Beamforming and Bayesian Inversion, in IEEE Signal Processing Letters, vol. 30, pp. 349-353, 2023, doi: 10.1109/LSP.2023.3263800.
[63] Liang Yu,Huimin Liu,Ning Chu,Ali Mohammad-Djafari and Weihua Yang,3D Non-Synchronous Measurements With Central Reference Based on Revolution and Autorotation of Spherical Microphone, IEEE Signal Processing Letters ,vol.30,pp.518-522,2023,doi:
10.1109/LSP.2023.3270767.
[64] Ran Wang, Mingjie Yu, Yue Bai, Liang Yu*, and Guangming Dong,Broadband Acoustic Modal Identification by Array Nonsynchronous Measurements with One Reference,AIAA Journal , 1-14,2023,https://doi.org/10.2514/1.J062596.
[65] Ran Wang, Fucheng Yan, Liang Yu*, Changqing Shen, Xiong Hu, Jin Chen,A federated transfer learning method with low-quality knowledge filtering and dynamic model aggregation for rolling bearing fault diagnosis,Mechanical Systems and Signal Processing ,Volume 198 ,2023,
110413,ISSN 0888-3270,https://doi.org/10.1016/j.ymssp.2023.110413.
[66] Liang Yu, Yue Bai, Ran Wang, Kang Gao, Weikang Jiang,Sparse Bayesian Learning with hierarchical priors for duct mode identification of tonal noise,Journal of Sound and Vibration ,Volume 560 ,2023, 117780.
[67] Yifan Diao, Liang Yu* and Weikang Jiang*,High-resolution DOA estimation achieved by a single acoustic vector sensor under anisotropic noise,Applied Acoustics,Volume 211,2023, 109432,ISSN 0003-682X,https://doi.org/10.1016/j.apacoust.2023.109432.
【法语会议论文】
[1] Liang Yu, LVA INSA Lyon, Imagerie acoustique par mesure séquentielle sans référence. Les Journées des Jeunes Chercheurs en vibrations, Acoustique et Bruit (JJCAB) , Lyon, France, 2014 (presentation in French,https://www.lmssc.cnam.fr/node/1062)
【英文会议论文】
[1] Liang Yu, FANG Yong, Blind estimation of source number based on SVM in wireless communication systems, 2009 IET International Communication Conference on Wireless, Mobile and Computing Proceedings, Shanghai, China, Dec , 7-9, 2009. (Best Student Paper)
[2] Liang Yu, Kamata sei-ichiro, Yong Fang, Novel Face Representation Toward Pose Invariant Face Recognition, TENCON 2010 - 2010 IEEE Region 10 Conference, Fukuoka, Japan, Nov, 21-24, 2010.
[3] Xianchun Zheng, Sei-ichiro kamata, Liang Yu, Face Recognition with Local Gradient Derivative Patterns, TENCON 2010 - 2010 IEEE Region 10 Conference, Fukuoka, Japan, Nov, 21-24, 2010.
[4] Liang Yu, Jerome Antoni, Quentin Leclere, Combined regularization optimization for separating transient signal from strong noise in rolling element bearing diagnostics, Surveillance 7, Chartres, France , October, 29-30, 2013.
[5] Liang Yu, Jerome Antoni, Quentin Leclere, Recovering phase relationships between non-synchronous microphone array measurements, International Conference on Noise and Vibration Engineering, Leuven, Belgium Sep, 19-21, 2014.
[6] Liang Yu , Zhiqiang Zhang, Weikang Jiang, Motoyuki Abe, Imaging of automotive engine components noise from non-synchronous sequential measurements, 45th International Congress and Exposition on Noise Control Engineering: Towards a Quieter Future, INTER-NOISE 2016, Hamburg, Germany, August, 21-24, 2016.
[7] Liang Yu , Weikang Jiang , GuangTao Chen, Motoyuki Abe , Cyclostationary sound source imaging for engine bay on-site measurements, INTER-NOISE 2017, the 46th International Congress and Exposition on Noise Control Engineering Taming Noise and Moving Quiet, Hongkong, China, Aug, 27-30, 2017.
[8] Liang Yu, Weikang Jiang, Jerome Antoni, Quentin Leclere and Haijun Wu, acoustical beamforming using non-synchronous microphone array measurements, Berlin Beamforming Conference 2018, Berlin, Germany, March, 5-6, 2018.
[9] Haijun Wu, Liang Yu, Shichun Huang, Xiang Lu, Weikang Jiang, Yu Huang, Bayesian Formalism Of Mapping Relationship Based Nearfield Acoustical Holography, International Congress on Sound and Vibration (ICSV25), Hiroshima, Japan, July, 8-12, 2018.
[10] Dou Li, Haijun Wu, Liang Yu, Weikang Jiang, An inverse patch transfer function method based on the Green’s function in free field, INTER-NOISE 2017, the 46th International Congress and Exposition on Noise Control Engineering, INTER-NOISE 2018, Chicago, Illinois, USA , August, 26-29, 2018.
[11] Liang Yu, Jerome Antoni, Haijun Wu, Quentin Leclere, Weikang Jiang, Acoustical source reconstruction from non-synchronous measurements by Gibbs sampling, International Congress on Sound and Vibration (ICSV26), Montreal, Canada, July, 7-11, 2019.
[12] Jianzheng Gao, Liang Yu, Weikang Jiang, Extraction of target sources from incoherent and partially coherent background noise using low-rank and sparse decomposition of the cross-spectral matrix, the 48th International Congress and Exhibition on Noise Control Engineering, Madrid, Spain, June, 16-19, 2019.
[13] Liang Yu, Yi Fan, Jerome Antoni, Haijun Wu, Quentin Leclere, Baihua Yuan, Weikang Jiang, The max-norm minimization in non-synchronous measurements, 23rd International Congress on Acoustics (ICA2019), Aachen, Germany, September, 09-13, 2019.
[14] Weikang Jiang, Liang Yu, Acoustic imaging to locate noise sources in environments with unknown acoustical disturbance, International Workshop on Environmental Engineering 2019 (IWEE2019), Okinawa, Japan, June, 25-28, 2019.
[15] Huang Shichun, Yan Li, Yu Liang, Jiang Weikang, Study On Methodologies To Locate Rotating Sound Sources In The Duct By Using An Out-Duct Placed Microphone Array, the 49th International Congress and Exhibition on Noise Control Engineering, Seoul, Korea, August, 23-26, 2020.
[16] Liang Yu, Cong Li, Jerome Antoni, Zhifei Chen, Weikang Jiang, On The Denoising Of Non-Gaussian Noise In The Acoustic Array Measurement, the 49th International Congress and Exhibition on Noise Control Engineering, Seoul, Korea, August, 23-26, 2020.
[17] Ning Chu, Yue Ning, Liang Yu And Dazhuan Wu, A Fast And High-Resolution, Beamforming Based On Bayesian Compressed Sensing, 8th Berlin Beamforming Conference, Berlin, Germany, March, 2-3, 2020.
[18] Shichun Huang, Liang Yu, Weikang Jiang,Measurement of loudspeaker mechanical impedance by changing the sound load at the throat of loudspeaker,the 50th International Congress and Exhibition on Noise Control Engineering, WASHINGTON, DC, USA, August, 1-5, 2021.
[19] Qixin Guo, Liang Yu, Ran Wang, Rui Wang, Weikang Jiang, Sound Source Localization by Iterative Bayesian Focusing Algorithm in the Inhomogeneous Medium,4th International Conference on Information Communication and Signal Processing (ICICSP 2021),September 24th - September 26th, 2021 / Shanghai, China.
[20] Kexin Xu, Liang Yu, Ran Wang, Rui Wang, Weikang Jiang, Reinforcement Learning Based Information Fusion for Harmonic Estimation,4th International Conference on Information Communication and Signal Processing (ICICSP 2021),September 24th - September 26th , 2021 / Shanghai, China.
[21] Yifan Diao, Liang Yu, Weikang Jiang, DOA Estimation of Helicopters Using Acoustic Vector Sensor in Complex Environment,4th International Conference on Information Communication and Signal Processing (ICICSP 2021),September 24th - September 26th , 2021 / Shanghai, China.
[22] Ran Wang, Junwu Zhang, Longjing Yu, Haitao Fang, Liang Yu,* and Jin Chen, Order-frequency spectral correlation decomposition based on RPCA for weak fault feature extraction of rolling bearings under time-varying conditions, 19th Asia-Pacific Vibration Conference (APVC2021) , Qingdao, 12th - 15th October 2022.
[23] Qixin Guo, Liang Yu, Rui Wang, Ran Wang, Weikang Jiang, Wancheng Ge, Acoustic Imaging in Four-layer Medium by Iterative Bayesian Focusing Algorithm, 5th International Conference on Information Communication and Signal Processing (ICICSP 2022),September 16th - September 18th , 2022 / Shenzhen, China.
[24] Chenyu Zhang, Liang Yu, Baohong Bai, Chen Xu, Ran Wang, Youhong Xiao, Weighted Block L1 Norm Regularized Two-dimensional Off-grid Compressive Beamforming for Acoustic Source Identification, 5th International Conference on Information Communication and Signal Processing (ICICSP 2022),September 16th - September 18th , 2022 / Shenzhen, China.
[25] Fangchao Chen, Youhong Xiao, Liang Yu, Lin Chen,Fast Iteration Shrinkage Thresholding Unfolding Network for Acoustic Source Localization, 5th International Conference on Information Communication and Signal Processing (ICICSP 2022),September 16th - September 18th , 2022 / Shenzhen, China.
[26] Pengcheng Gong, Junjia Zhang, Yuntao Wu, Liang Yu and Lirong Li, Robust Superdirective Beamforming based on ADPM, 5th International Conference on Information Communication and Signal Processing (ICICSP 2022),September 16th - September 18th , 2022 / Shenzhen, China.
[27] Lirong Li, Bing Mei, Peng Chen, Liang Yu and Pengcheng Gong, Localization Method of Underwater Robot based on Sonar Image, 5th International Conference on Information Communication and Signal Processing (ICICSP 2022),September 16th - September 18th , 2022 / Shenzhen, China.
[28] Su Yu, Chenyu Zhang, Dingyu Hu, Liang Yu, Sound Sources Reconstruction based on the Non-synchronous Measurements of Microphone Arrays and Equivalent Sources Modeling, 5th International Conference on Information Communication and Signal Processing (ICICSP 2022),September 16th - September 18th , 2022 / Shenzhen, China.
【中文会议论文】
[1] 余亮, 王洵, 吴海军, 蒋伟康, 远场量化发动机喷流噪声的迭代波束形成算法, 航空发动机试验与测试工程技术论坛, 绵阳, 四川, 9月18-20 日, 2018.
[2] 余亮, 蒋伟康, 强干扰环境下远场旋翼谐波噪声提取, 第二届全国气动噪声及控制技术学术会议, 贵阳, 中国, 8月9-11日, 2019.(会议优秀论文)
[3] 黄时春, 严 莉, 余亮, 蒋伟康,基于活塞声源模型的涵道高阶声模态激发方法研究, 第二届全国气动噪声及控制技术学术会议, 贵阳, 中国, 8月9-11日, 2019.
[4] 李豆, 吴海军, 余亮, 蒋伟康, 噪声环境下基于双声压测量面的声场重建, 2019年全国声学大会, 深圳,中国, 9月20-23日, 2019.
[5] 余亮, 潘铮, 初宁, 宁岳, 黄乾, 蒋伟康, 传声器阵列噪声去除方法研究-从波束域方法到低秩建模方法, 2020年全国声学大会, 上海, 中国, 11月26-29日, 2020.
[6] 初宁, 侯鹏, 余亮, 宁岳, 黄乾, 刘钦, 一种基于解混响技术的水中多目标分离方法, 2020年全国声学大会, 上海, 中国, 11月26-29日, 2020.
[7] 方海涛,余龙靖,王 冉,余 亮,稀疏低秩分解在时变转速条件下的轴承故障诊断,第十六届全国实验力学大会暨重大装备实验与测试技术论坛,嘉兴, 中国, 4月23日至26日, 2021
[8] 余龙靖, 余亮, 王冉, 蒋伟康, 基于RPCA低秩稀疏分解的循环频率检测方法, 2021全国振动与噪声高技术应用学术会议, 重庆, 中国, 4月9日至11日, 2021 (会议优秀论文).
[9] 郭奇欣, 余亮, 王睿, 蒋伟康, 声学成像的概率方法:稀疏贝叶斯与稀疏声全息算法研究, 2021全国振动与噪声高技术应用学术会议, 重庆, 中国, 4月9日至11日, 2021.
[10] 王冉, 李聪, 余亮, 余龙靖, 蒋伟康, 广义Stein无偏风险估计正则化在声场重建中的应用, 2021全国振动与噪声高技术应用学术会议, 重庆, 中国, 4月9日至11日, 2021.
[11] 黄时春,严 莉,余 亮,蒋伟康,一种管道高阶模态发生器及模态测试实验研究,第三届全国气动噪声及控制技术学术会议,中国,云南, 2021年8月10至12 日.
[12] 王冉,余龙靖,陈志菲,余亮,蒋伟康,级联滤波器分离直升机主尾桨气动噪声,第三届全国气动噪声及控制技术学术会议,中国,云南,2021年8月10至12日.
【特邀报告】
(1) 2015年5月访问国防科技大学,并做《合成孔径阵列测量》邀请报告;
(2) 2018年3月访问瑞典lund大学能源学院,并做《基于阵列测量的循环平稳声源分离和成像》学术报告;
(3) 2018年11月16日,在“探索工程技术革新 助推中国制造2025”博士后学术论坛做《循环平稳信号建模方法与应用》学术报告;http://news.sjtu.edu.cn/jdyw/20181119/90137.html
(4) 2019年5月29日受邀参加中国地质大学(武汉)2019 中法人工智能学术论坛,并做题目为《Acoustical source reconstruction from non-synchronous microphone array measurements》报告, 网址:http://jidian.cug.edu.cn/info/1126/2793.htm
(5) 2019年 The 14th International Conference On Theoretical And Computational Acoustics,Inverse Problems of Acoustic Wave分论坛特邀报告 , 《Non-synchronous Microphone Array Measurements : An Alternative Way of Compressive Sensing Measurements in Acoustics》 网址:https://www.ictca2019.com/vue#/
(6) 2020年07月06日受检测与装备事业部部长朱海斌老师的邀请,在浙江清华柔性电子技术研究院“装备检测与诊断分析”学术论坛做学术报告:《声学传声器阵列测量:从合成孔径测量到复杂干扰建模》,http://www.ifet-tsinghua.com/yjydt/info.aspx?itemid=373
(7) 在2020全国声学大会音频分会邀请报告:《合成孔径声学传声器阵列非同步测量-贝叶斯和低维建模方法》,PPT 链接:https://www.researchgate.net/publication/358890478_Synthetic_aperture_non-synchronous_measurements_hechengkongjingfeitongbuceliang
(8) 2021年05月26日 参加2021年度ME学术大讲堂第十三讲:《声学传声器阵列测量:从近场合成孔径测量到远场大尺度分布式阵列测量》http://www.jdxy.zjut.edu.cn/newsDetail.jsp?id=6849
(9) 2021年06月5日在上风高科集团研发中心做邀请报告:《旋转声源的阵列测量和信号处理前沿问题研究》;
(10) 2021年06月24日在LVA seminar 做《风洞内的声学测量挑战:从精准测量和信号分离到声源成像》学术报告,和欧盟洁净天空2计划的声学测量专家一起,共话声学测量前沿技术;
(11) 2021年7月24日访问国防科学大学,并做《智能阵列信号处理》学术报告;
(12) 2021年8月17日访问同济大学电子与信息工程学院,并做《基于多维和阵列信号处理的工业测量应用》学术交流;
(13) 2021年9月26日在ICICSP“航空飞行器及其设备的声学测量和信号处理”论坛做《航空装备的气动声学测量和信号处理——直升机、航空发动机和民航客机噪声测量》专题tutorial,并且在B站全网直播,PPT链接:https://www.researchgate.net/publication/360217762_Aeroacoustic_measurementhangkongfeixingqijiqishebeideshengxuecelianghexinhaochuliBzhanzhiboPPT;
(14) 2021年10月10日,访问上海大学通信学院,参加《数字信号处理》国家精品课程建设讨论并做分享;
(15) 2021年10月18日,访问深圳大学信息工程学院,并做《合成孔径阵列测量理论和应用》的学术报告;
(16) 2021年10月18日,访问南方科技大学力学与航空航天工程系,并做《先进声学阵列测量技术》的学术报告;
(17) 2021年10月25日,应吉林化工学院航空学院邀请做《气动声学信号处理》的学术报告;
(18) 2022年01月8日,流体力学青年学术沙龙学术报告《气动声学信号处理》
PPT链接:https://www.researchgate.net/publication/360241170_Aeroacoustic_Signal_Processing_qidongshengxuexinhaochuliPPT;
(19) 2022年01月14日,中国空气动力研究发展中心学术报告《气动声学测量和气动声学信号处理》;
(20) 2022年07月14日,访问华为2012实验室,并在2012声学工程实验室第一届国际声学技术论坛邀请报告《振动和声学的测量和信号处理:频率和随机的角度》;
(21) 2022年10月13日,在宁波职业技术学院“行知讲坛”做《声学测量和声学信号处理》学术报告;
(22) 2022年10月19日,华南理工大学《信号处理学习和研究经验》分享;
(23) 2022年11月29日,中南大学邀请报告《多物理场测量及贝叶斯方法》系列报告;
(24) 2023年5月14日,中航工业气动院邀请报告《声学风洞传声器阵列测量技术发展与挑战》;
(25) 2023年7月21日,第三届全国气动噪声及控制技术学术会议邀请报告《风洞声学测量:过去现在和未来》;
(26) 2023年7月23日,西北工业大学民航学院第十一届翱翔青年学者论坛暨第二届翱翔博士后论坛邀请报告《航空装备声学感知和智能信号处理》;