黄公平、武汉大学教授、博士生导师。主要从事面向语音通讯和人工智能的声信号感知理论与关键技术研究。曾获国家高层次青年人才、湖北省高层次人才、德国 “洪堡学者”、中国电子学会优博、以色列理工Andrew and Erna Finci Viterbi 奖等荣誉。在国际权威期刊与会议上发表论文70余篇，出版学术专著1本，获授权国际发明专利7项。担任IEEE声学信号处理技术委员会（AASP）委员，国际会议 IEEE ICSPCC 2023技术委员会共同主席、中国计算机学会语音听觉与对话专业委员会委员、担任声学学报青年编委、SCI期刊 Circuits Systems and Signal Processing 编委 (Associate Editor)、IEEE Open Journal of  Signal Processing 顾问编委(Consulting Associate Editor)。

面向语音通信和智能语音交互等声学应用，研究声信号处理领域的理论与关键技术。着重研究声信号感知，尤其是在多人视频会议、机器人听觉、智慧大屏、智能家居、智能车载、远程会议及协作、助听等系统中的应用。主要研究内容包括麦克风阵列、语音增强、去混响、波束形成、回声消除、降噪、声源定位等。相关研究成果发表领域权威期刊论文60多篇，其中语音领域顶级期刊IEEE/ACM Transactions on Audio, Speech and Language Processing 论文19篇。获授权国际发明专利7项，在麦克风阵列领域著有专著一本（Springer出版社，2023年8月出版）。

主持国家高层次人才青年项目。主持了”洪堡学者“研究基金“基于麦克风阵列的机器人听觉”(编号: 1220884)。参与了包括国家杰出青年科学基金、中以合作与交流基金重点项目、国家自然科学基金重点项目、国家重点研发计划在内的十多个项目，参与了与华为、科大讯飞、 腾讯、CVTE、西门子等企业的多个合作研究项目。

学术专著
[1] J. Benesty, G. Huang, J. Chen, and N. Pan, "Microphone Arrays," Springer (2023年8月出版)

期刊论文
[29] X. Luo, G. Huang, J. Jin, J. Chen, J. Benesty, W. Zhang, M. Zhu, and J. Li, “Design of maximum directivity beamformers with linear acoustic vector sensor arrays,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 31, pp. 1-15, Mar. 2023.
[28] J. Jin, J. Benesty, G. Huang, and J. Chen, “On differential beamforming with non-uniform linear microphone arrays,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 30, pp.1840-1852, 2022. 
[27] G. Huang, J. Benesty, and J. Chen, “Fundamental approaches to robust differential beamforming with high directivity factors,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 30, pp. 1277-1289, Sep. 2022
[26] G. Huang, J. Benesty, and J. Chen, “Kronecker product multichannel linear filtering for adaptive weighted prediction error-based speech dereverberation,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 30, pp. 1277-1289, 2022.
[25] X. Zhao, G. Huang, J. Chen, and J. Benesty, “On the design of 3D steerable beamformers with uniform concentric circular microphone arrays,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 29, pp. 2764-2778, Aug. 2021.
[24] X. Wang, J. Benesty, J. Chen, G. Huang, and I. Cohen, “Beamforming for cube microphone arrays via Kronecker product decompositions,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 29. pp. 1774-1784, May 2021. 
[23] X. Chen, J. Benesty, G. Huang, and J. Chen, “On the robustness of the superdirective beamformer,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 29, pp. 838-849, Jan. 2021. 
[22] G. Huang, J. Benesty, I. Cohen, and J. Chen, “A simple theory and new method of differential beamforming with uniform linear microphone arrays,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 28, pp. 1079-1093, Mar. 2020. 
[21] G. Huang, J. Benesty, I. Cohen, and J. Chen, “Differential beamforming on graphs,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 28, pp. 901-913, Feb. 2020. 
[20] X. Zhao, J. Benesty, G. Huang, and J. Chen, “On a particular family of differential beamformers with cardioid-like and no-null patterns,” IEEE Signal Processing Letters, vol. 28, pp. 140-144, Dec. 2020.
[19] X. Zhao, J. Benesty, G. Huang, and J. Chen, “Differential beamforming from the beampattern factorization perspective,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 29, pp. 632-643, Dec. 2020. 
[18] X. Wang, G. Huang, J. Chen, J. Benesty, and I. Cohen, “Time difference of arrival estimation based on a Kronecker product decomposition,”IEEE Signal Processing Letters, vol. 28, pp. 51-55, Dec. 2020.
[17] W. Yang, J. Benesty, G. Huang, and J. Chen, “A new class of differential beamformers,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 29, pp. 594-606, Dec. 2020. 
[16] W. Yang, G. Huang, J. Chen, J. Benesty, I. Cohen, and W. Kellermann, “Robust dereverberation with Kronecker product based multichannel linear prediction,” IEEE Signal Processing Letters, vol. 28, pp. 101-105, Dec. 2020.
[15] J. Jin, G. Huang, X. Wang, J. Chen, J. Benesty, and I. Cohen, “Steering study of linear differential microphone arrays,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 29, pp. 158-170, Nov. 2020. 
[14] J. Jin, J. Chen, J. Benesty, Y. Wang, and G. Huang, “Heterophasic binaural differential beamforming for speech intelligibility improvement,” IEEE Transactions on Vehicular Technology, vol. 69, no. 11, pp. 13497-13509, Nov. 2020.
[13] G. Huang, J. Chen, J. Benesty, I. Cohen, and X. Zhao, “Steerable differential beamformers with planar microphone arrays,” EURASIP Journal on Audio, Speech, and Music Processing, vol. 2020, no. 1, pp.1-18, Nov. 2020. (邀请论文)
[12] G. Huang, I. Cohen, J. Benesty, and J. Chen, “Continuously steerable differential beamformers with null constraints for circular microphone arrays,” J. Acoust. Soc. Am., vol. 148, no. 3, pp. 1248-1258, Sep. 2020.
[11] 潘超, 黄公平, 陈景东, “面向语音通信与交互的麦克风阵列波束形成方法”, 信号处理, 36(6): 804-815, 03. 2020. (邀请论文)
[10] G. Huang, J. Chen, and J. Benesty, “Design of planar differential microphone arrays with fractional orders,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 28, pp. 116-130, Oct. 2019. 
[9] T.  Long, J. Chen, G. Huang, J. Benesty, and I. Cohen, “Acoustic source localization based on geometric projection in reverberant and noisy environments,” IEEE J. Selected Topics Signal Process., vol. 13, no. 1, pp. 143-155, Mar. 2019.
[8] G. Huang, J. Chen, and J. Benesty, “Insights into the frequency-invariant beamforming with concentric circular microphone arrays,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 26, no. 12, pp. 2305-2318, Dec. 2018. 
[7]  G. Huang, J. Chen, and J. Benesty, “On the design of differential beamformers with arbitrary microphone array geometry,” J. Acoust. Soc. Am., vol. 144, no. 1, pp. EL66-EL70, May 2018.
[6] G. Huang, J. Chen, and J. Benesty, “A flexible high directivity beamformer with spherical microphone arrays,” J. Acoust. Soc. Am., vol. 143, no. 5, pp. 3024-3035, May 2018.
[5] G. Huang, J. Benesty, and J. Chen, “On the design of frequency-invariant beampatterns with uniform circular microphone arrays,”IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 25, no. 5, pp. 1140-1153, May 2017.
[4] G. Huang, J. Benesty, and J. Chen, “Design of robust concentric circular differential microphone arrays,” J. Acoust. Soc. Am., vol. 141, no. 5, pp. 3236-3249, May 2017.
[3] G. Huang, J. Benesty, and J. Chen,  “Superdirective beamforming based on the Krylov matrix,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 22, no. 12, pp. 2034-2047, Dec. 2016. 
[2] G. Huang, J. Chen, and J. Benesty, “Direction-of-arrival estimation of passive acoustic sources in reverberant environments based on the Householder transformation,” J. Acoust. Soc. Am., vol. 138, no. 5, pp. 3053-3060, Nov. 2015.
[1] G. Huang, J. Benesty, T. Long, and J. Chen, “A family of maximum SNR filters for noise reduction,” IEEE/ACM Trans. Audio, Speech, Lang. Process., vol. 22, no. 12, pp. 2034-2047, Dec. 2014. 

会议论文
[30] G. Huang, J. Benesty, I. Cohen, E. Winebrand, J. Chen, and W. Kellermann, “Switching Kronecker product linear filtering for multi-speaker adaptive speech dereverberation,” in Proc. IEEE ICASSP, 2023.
[29] X. Wang, B. Andreas, G. Huang, Y. Yang, W. Kellermann, and J. Chen, “Spatially informed independent vector analysis for source extraction based on the convolutive transfer function model,” in Proc. IEEE ICASSP, 2023.
[28] G. Huang, J. Benesty, J. Chen, C. Paleologu, S. Ciochina, W. Kellermann, and I. Cohen, “Acoustic system identification with partially time-varying models based on tensor decompositions,” in Proc. IEEE IWAENC, 2022.
[27] W. Yang, G. Huang, A. Brendel, J. Chen, J. Benesty, W. Kellermann, and I. Cohen, “A bilinear framework for adaptive speech dereverberation combining beamforming and linear prediction,” in Proc. IEEE IWAENC, 2022.
[26] X. Wang, J. Benesty, G. Huang, and J. Chen,“A minimum-variance-distortionless-response spectral estimator with Kronecker product filters,” in Proc. EUSIPCO,2022.
[25] Huang, Y. Wang, J. Benesty, I. Cohen, and J. Chen, “Combined differential beamforming with uniform linear microphone arrays,” in Proc. IEEE ICASSP, 2021, pp. 781-785. 
[24] X. Wang, G. Huang, I. Cohen, J. Benesty, and J. Chen, “Kronecker product adaptive beamforming for microphone arrays,” in Proc. APSIPA ASC, 2021. 
[23] X. Luo, J. Jin, G. Huang, J. Chen, J. Benesty, I. Cohen, W. Zhang, M. Zhu, and C. Li, “Constrained maximum directivity beamformers based on uniform linear acoustic-vector-sensor arrays,” in Proc. APSIPA ASC, 2021. (邀请论文)
[22] X. Zhao, G. Huang, J. Benesty, J. Chen, and I. Cohen, “On the design of square differential microphone arrays with a multistage structure,” in Proc. IEEE ICASSP, 2021, pp. 746-750. 
[21] X. Wang, G. Huang, I. Cohen, J. Benesty, and J. Chen, “Robust steerable differential beamformers with null constraints for concentric circular microphone arrays,” in Proc. IEEE ICASSP, 2021, pp. 4465-4469. 
[20] G. Huang, I. Cohen, J. Benesty, and J. Chen, “Kronecker product beamforming with multiple differential microphone arrays,” in Proc. IEEE SAM, 2020, pp. 1-5.
[19] G. Huang, J. Chen, J. Benesty, and I. Cohen, “Robust and steerable Kronecker product differential beamforming with rectangular microphone arrays,” in Proc. IEEE ICASSP, 2020, pp. 211-215. 
[18] D. Li, G. Huang, Y. Lei, J. Chen, and J. Benesty, “Robust source separation with differential microphone arrays and independent low-rank matrix analysis,” in Proc. EUSIPCO, 2020, pp. 291-295.
[17] X. Zhao, G. Huang, J. Chen, and J. Benesty, “An improved solution to the frequency-invariant beamforming with concentric circular microphone arrays,” in Proc. IEEE ICASSP, 2020, pp. 556-560.
[16] G. Huang, X. Zhao, J. Chen, and J. Benesty, “Properties and limits of the minimum-norm differential beamformers with circular microphone arrays,” in Proc. IEEE ICASSP, 2019, pp. 426-430. (IEEE SPS Travel Grant)
[15] X. Chen, G. Huang, J. Chen, and J. Benesty, “A maximum-achievable-directivity beamformer with white-noise-gain constraint for spherical microphone arrays,” in Proc. ICA, 2019, pp. 2752-2759. (邀请论文)
[14] X. Wang, J. Benesty, G. Huang, J. Chen, and I. Cohen, “Design of Kronecker product beamformers with cuboid microphone arrays,” in Proc. ICA, 2019, pp. 2660-2667. (邀请论文)
[13] X. Zhao, G. Huang, J. Benesty, and J. Chen, “Optimal design of symmetric and asymmetric beampatterns with circular arrays,” in Proc. ICA, 2019, pp. 2909-2916.
[12] W. Yang, G. Huang, J. Benesty, I. Cohen, and J. Chen, “On the design of flexible Kronecker product beamformers with linear microphone arrays,” in Proc. IEEE ICASSP, 2019, pp. 441-445. 
[11] J. Jin, G. Huang, J. Chen, and J. Benesty, “Design of optimal linear differential microphone arrays based array geometry optimization,” in Proc. IEEE ICASSP, 2019, pp. 5741-5745. 
[10] G. Huang, J. Chen, and J. Benesty, “On the design of robust steerable frequency-invariant beampatterns with concentric circular microphone arrays,” in Proc. IEEE ICASSP, 2018, pp. 506-510. 
[9] W. Yang, G. Huang, W. Zhang, J. Chen, and J. Benesty, “Dereverberation with differential microphone arrays and the weighted-prediction-error method,” in Proc. IEEE IWAENC, 2018, pp. 376-380.
[8] G. Huang, J. Benesty, and J. Chen, “Study of the frequency-domain multichannel noise reduction problem with the Householder transformation,” in Proc. IEEE ICASSP, 2017, pp. 486-490. 
[7] G. Huang, J. Benesty, and J. Chen, “Subspace superdirective beamforming with uniform circular microphone arrays,” in Proc. IEEE IWAENC, 2016, pp. 1-5.
[6] G. Huang, J. Benesty, and J. Chen, “A parametric superdirective beamformer with uniform linear microphone arrays,” in Proc. ICA, 2016. (邀请论文)
[5] C. Li, J. Benesty, G. Huang, and J. Chen, “Subspace superdirective beamformers based on joint diagonalization,” in Proc. IEEE ICASSP, 2016, pp. 400-405. 
[4] G. Huang, J. Benesty, and J. Chen, “On a multichannel maximum SNR filter for noise reduction in the STFT domain,” in Proc. IEEE ChinaSIP, 2015, pp. 697-700. (邀请论文)
[3] J. Yu, J. Benesty, G. Huang, and J. Chen, “Optimal single-channel noise reduction filtering matrices from the Pearson correlation coefficient perspective,” in Proc. IEEE ICASSP, 2015, pp. 201-205. 
[2] G. Huang, J. Chen, and J. Benesty, “Investigation of a parametric gain approach to single-channel speech enhancement,” in Proc. IEEE ICASSP, 2015, pp. 206-210. (IEEE SPS Travel Grant) 
[1] J. Yu, J. Benesty, G. Huang, and J. Chen, “Examples of optimal noise reduction filters derived from the squared Pearson correlation coefficient,” in Proc. IEEE ICASSP, 2014, pp. 1571-1575.

国家高层次青年人才

湖北省高层次人才

中国电子学会优秀博士学位论文
以色列理工学院“Andrew and Erna Finci Viterbi Fellowship”
陕西省优秀博士学位论文
西北工业大学优秀博士学位论文
IEEE 信号处理学会 ICASSP 2018和 ICASSP 2015 “Student Travel Grant”
国家工信部创新奖学金、国家奖学金

担任国际会议 IEEE ICSPCC 2023技术委员会共同主席(Technical Program Chairs)；
担任中国计算机学会语音听觉与对话专业委员会委员；
担任SCI期刊 Circuits Systems and Signal Processing 编委 (Associate Editor)；
担任期刊 IEEE Open Journal of  Signal Processing 顾问编委(Consulting Associate Editor)；
担任 ICASSP、Interspeech、IWAENC、 EUSIPCO  等语音领域知名国际会议的技术委员会成员； 
担任IEEE/ACM Transactions on Audio, Speech, and Language Processing, IEEE Transactions on Signal Processing, IEEE Signal Processing Letters, Journal of the Acoustical Society of America, Signal Processing, IEEE Transactions on Industrial Electronics, IEEE Transactions on Multimedia, IEEE Transactions on Vehicular Technology, IEEE Transactions on Aerospace and Electronic Systems, IEEE Transactions on Circuits and Systems, IEEE ASME Transactions on Mechatronics, IEEE Communications Letters, Speech Communication 等20多个SCI国际期刊的审稿人。

欢迎报考2023级、2024级硕士或博士研究生。
欢迎有意攻读智能语音信号处理方向的硕士或博士研究生的同学与我联系，也欢迎对智能语音信号相关方向感兴趣的本科同学与我联系。
课题组与西北工业大学的陈景东教授（IEEE Fellow，语音信号处理领域权威学者 ）、加拿大魁北克国立科学研究院的Jacob Benesty教授（语音信号处理领域权威学者 ）、以色列理工的Israel Cohen教授（IEEE Fellow，语音信号处理领域权威学者 ），德国埃尔朗根-纽伦堡大学的Walter Kellermann教授（IEEE Fellow，语音信号处理领域权威学者 ）等国际知名学者保持长期密切合作。欢迎对国际合作和交流感兴趣的同学加入。