博士,教授,博导
信息与通信工程系
四川大学(望江校区)基础教学楼B座609
研究方向:空时信号处理、统计信号处理、声阵列探测、矢量传感器、多传感器系统
Email: ivan.wuyue@scu.edu.cn
个人简介
武岳,博士,IEEE Senior Member,美国声学学会(ASA)Full Member。于电子科技大学通信与信息工程学院、通信与抗干扰国家级重点实验室获学士、硕士学位,于香港理工大学电子资讯工程学系获博士学位,先后任电子科技大学讲师,香港理工大学Research Fellow,南洋理工大学Research Fellow,佛罗里达大学博士后研究员,四川大学计算机学院副教授、教授,电子信息学院教授。
武岳博士曾获“四川省学术和技术带头人后备人选”、“四川省海外高层次人才”、“四川大学先进个人”等荣誉称号;为四川省科协海智计划特聘专家(首批)、四川省科技协同创新促进会电子信息专委会委员(首届)、四川省统战部兴川助渝侨界智库委员(首批);相关研究工作得到了国家自然科学基金等纵向项目,及工业界横向项目支持;现/曾担任包括美国声学学会会志(JASA)在内的多份SCI期刊副主编;授权国家发明专利多项,已转化1项,相关成果获2022年度川渝产学研协同创新成果奖,第十七届中国成都国际软件设计与应用大赛一等奖等。
研究领域:
空时信号处理,统计信号处理,声阵列探测与成像,矢量传感器,多传感器系统,多模信息融合,目标定位与跟踪,无线传感网定位,无线信道建模
学术任职:
⟡ Associate Editor of J ACOUST SOC AM
⟡ Associate Editor of IEEE T INTELL TRANSP
⟡ Associate Editor of IET SIGNAL PROCESS
⟡ Associate Editor of ELECTRON LETT
⟡ Associate Editor of IEEE ACCESS
⟡ Associate Editor of TELECOMMUN SYST
教学工作
⟡ 现/曾承担本科生课程《最优化理论》、《概率统计》(全英文留学生课程)、《物联网通信及控制原理》、《物联网前沿技术探讨》
⟡ 现/曾承担研究生课程《数字信号处理》、《信息技术中的数理思想》、《数字VLSI设计与EDA工具》、《计算机科学进展》
⟡ 2021年第十四届全国大学生创新创业年会优秀指导教师
⟡ 2021年四川大学教学成果奖(三等奖)
⟡ 2022年四川大学本科优秀毕业论文(设计)三等奖
⟡ 2021年四川大学本科优秀毕业论文(设计)二等奖
⟡ 2021年四川大学基于智慧教学环境的“探究式-小班化”教学质量优秀奖
⟡ 2021年四川大学大学生创新创业与实践教育优秀指导教师
⟡ 2017、2018年四川大学拔尖创新人才培养优秀指导教师
⟡ 2014、2016年四川大学本科教学先进个人
⟡ 2013-2014年度四川大学学术性社团优秀指导教师
项目资助
⟡ 国家自然科学基金 62271333 心形声矢量传感器的高分辨波束形成与参数估计算法研究
⟡ 国家自然科学基金 61401291 声矢量传感器阵列在非理想传输条件下的声源定位研究
⟡ 四川省重点研发项目 2019YFG0118 新型矢量传声器设计及空间感知算法研究
⟡ 成都市重点研发支撑计划 2019-YF05-00998-SN 环境噪声源实时定位及可视化方法研究
⟡ 中国船舶重工集团有限公司某研究所
⟡ 香港地铁(港铁)公司资助项目:铁路噪声源估计与抑制
⟡ 新加坡淡马锡实验室资助项目:超高阶QAM调制信号盲均衡技术
⟡ 美国ARL实验室资助项目:超宽带MIMO雷达目标探测
论文著作
[1] J. -J. Yan, W. -L. Zhao, Y. I. Wu & Y. -J. Zhou, “Indoor sound source localization under reverberation by extracting the features of sample covariance,” Applied Acoustics, vo. 210, no. 109453, pp. 1-9, July 2023.
[2] G. P. Arada, Y. I. Wu, K. T. Wong, W.-Y. Tam, S. Khan & C. J. Fulton, "How Two Crossed Dipoles' Impedance Varies With Their Non-Orthogonality, Length & Separation", Radio Science, vol. 57, no. 4, pp. 1-12, April 2022.
[3] S. S. Du, K. T. Wong, Y. Song, C. J. Nnonyelu & Y. I. Wu, "Higher-order Figure-8 Microphones/hydrophones Collocated as a Perpendicular Triad — Their 'Spatial-Matched-Filter' Beam Steering", Journal of the Acoustical Society of America, vol. 151, no. 2, pp. 1158-1170, February 2022.
[4] Y. I. Wu, K. T. Wong, "Maximum-Output-Power Beamforming Despite No Prior Information About the Signals-of-Interest Nor Possibly About the Interference", Circuits, Systems, and Signal Processing, September 2020.
[5] Z. Guo, J. Peng, W. Xu, W. Liang, W. Wu, Z. Xu, B. Guo & Y. I. Wu, “Minimizing Redundant Sensing Data Transmissions in Energy-Harvesting Sensor Networks via Exploring Spatial Data Correlations”, IEEE Internet of Things Journal, vol. 8, no. 1, pp. 512-526, January 2021.
[6] Z. N. Morris, K. T. Wong & Y. I. Wu*, “Three-dimensional Dislocations in a Uniform Linear Array’s Isotropic Sensors — Direction Finding’s Hybrid Cramer-Rao Bound”, Journal of the Acoustical Society of America, vol. 147, no. 5, pp. 3209-3220, May 2020.
[7] Y. Zhang & Y. I. Wu*, “Multiple Sources Localization by the WSN Using the Direction-of-Arrivals Classified by the Genetic Algorithm”, IEEE Access, vol. 7, pp. 173626-173635, November 2019.
[8] D. M. Kitavi, K. T. Wong, T.-C. Lin, Y. I. Wu*, “Hybrid Cramer-Rao bound of direction finding, using a triad of cardioid sensors that are perpendicularly oriented and spatially collocated”, Journal of the Acoustical Society of America, vol. 146, no. 2, pp. 1099-1109, August 2019.
[9] D. Su, K. T. Wong, Y. I. Wu*, “Bivariate Direction Finding Using Two Perpendicular Bi-directional (“Figure-8”) Sensors of (Possibly) Unequal Orders”, Journal of the Acoustical Society of America, vol. 145, no. 3, pp. 1241-1258, March 2019.
[10] C. J. Nnonyelu, K. T. Wong, Y. I. Wu*, “Cardioid Microphones/hydrophones in a Collocated and Orthogonal Triad—A Steerable Beamformer with No Beam-pointing Error”, Journal of the Acoustical Society of America, vol. 145, no. 1, pp. 575-588, January 2019.
[11] Y. I. Wu, “Multiple Sources Localization with WSN, Eliminating the Direction-of-Arrival Ambiguity Symmetric with respect to the Planar Array,” IEEE Access, vol. 6, pp. 46290 - 46296, August 2018.
[12] M. Muaz, K. T. Wong, Y. I. Wu & D. Su, “A Higher-order 'Figure-8' Sensor and an Isotropic Sensor -- for Azimuth-elevation Bivariate Direction Finding,” Journal of the Acoustical Society of America, vol. 143, no. 4, pp. 2041-2054, April 2018.
[13] K. T. Wong, C. J. Nnonyelu & Y. I. Wu, “A Triad of Cardioid Sensors in Orthogonal Orientation and Spatial Collocation - Its Spatial-matched-filter-type Beam-pattern,” IEEE Transactions on Signal Processing, vol. 66, no. 4, pp. 895-906, February 2018.
[14] D. M. Kitavi, T.-C. Lin, K. T. Wong & Y. I. Wu, “Direction Finding with the Sensors' Gains Suffering Bayesian Uncertainty – Hybrid CRB and MAP Estimation,” IEEE Transactions on Aerospace and Electronic Systems, vol. 52, no. 4, pp. 2038-2044, August 2016.
[15] Y. I. Wu, S.-K. Lau & K. T. Wong, “Near-field/far-field array manifold of an acoustic vector-sensor near a reflecting boundary,” Journal of the Acoustical Society of America, vol. 139, no. 6, pp. 3159-3176, June 2016.
[16] Y. I. Wu, H. Wang & X. Zheng, “WSN Localization Using RSS in Three-dimensional Space – a Geometric Method with Closed-form Solution,” IEEE Sensors Journal, vol. 16, no. 11, pp. 4397-4404, June 2016.
[17] Y. I. Wu, K. T. Wong, X. Yuan, S. K. Lau & S. K. Tang, “A Directionally Tunable but Frequency-invariant Beamformer on an Acoustic Velocity-sensor Triad to Enhance Speech Perception,” Journal of Acoustical Society of America, vol. 131, no. 5, pp. 3891-3902. May 2012.
[18] K. T. Wong & Y. I. Wu, “A Lower Bound of Direction-of-Arrival Estimation for a Sensor-Array Randomly Subject to Sensor-Breakdown,” IEEE Sensors Journal, vol. 12, no. 5, pp. 911-913, May 2012.
[19] Y. I. Wu & K. T. Wong, “Acoustic Near-Field Non-Cooperative Source-Localization by Two Passive Anchor Nodes -- a Pressure-Sensor & a Triad of Collocated Velocity-Sensors,” IEEE Transactions on Aerospace and Electronic Systems, vol. 48, no. 1, pp. 159-169, January 2012. (Among all papers published in this journal in 2012-2013, this paper is top 10 in generating citations toward this journal's 2014 Impact Factor.)
[20] Y. I. Wu & K. T. Wong, “Polarization-Sensitive Geometric Modeling of the Uplink Multipaths' DOA-Distribution,” IET Microwaves, Antennas & Propagation, vol. 5, no. 1, pp. 95-101, January 2011.
[21] Y. I. Wu, S. K. Lau, K. T. Wong & S. K. Tang, “Beacon-Aided Adaptive Localization of Noise-Sources Aboard a Pass-By Rail-Car Using a Track-Side Microphone-Array,” IEEE Transactions on Vehicular Technology, vol. 59, no. 8, pp. 3720-3727, October 2010.
[22] V. I. Piterbarg, K. T. Wong & Y. I. Wu, “Spatial Correlation-Coefficient Across the Base-Station’s Receiving Sensor-Array --- Analytically Derived, Closed-Form, and Accounting for Propagation Loss,” IET Electronics Letters, vol. 46, no. 19, pp. 1351-1353, September 2010.
[23] Y. I. Wu, K. T. Wong & Siu-Kit Lau, “The Acoustic Vector-Sensor’s Near-Field Array-Manifold,” IEEE Transactions on Signal Processing, vol. 58, no. 7, pp. 3946-3951, July 2010.
[24] C.-L. J. Lam, K. T. Wong & Y. I. Wu, “The TOA-Distribution of Wireless Multipaths Between an Omni-Directional Transceiver & a Possibly Mis-Oriented Directional Transceiver,” IEEE Transactions on Communications, vol. 58, no. 4, pp. 1042-1047, April 2010.
[25] K. T. Wong, Y. I. Wu & M. Abdulla, “Landmobile Radiowave Multipaths’ DOA-Distribution: Assessing Geometric Models by the Open Literature’s Empirical Datasets,” IEEE Transactions on Antennas & Propagation, vol. 58, no. 3, pp. 946-958, March 2010.
[26] K. T. Wong & Y. I. Wu, “Spatio-Polarizational Correlation-Coefficient Function Between Receiving-Antennas in Radiowave Communications: Geometrically Modeled, Analytically Derived, Simple, Closed-Form, Explicit Formulas,” IEEE Transactions on Communications, vol. 57, no. 12, pp. 3566-3570, December 2009.
[27] Y. I. Wu & K. T. Wong, “A Geometric Model for the Uplink / Downlink Multipaths’ TOA Distribution, Assuming the Scatterers of a Conical Spatial Density,” IEEE Antennas & Propagation Magazine, vol. 50, no. 6, pp. 196-205, December 2008.
[28] C. Feng, H. Chen, G. Cheng & Y. I. Wu, "Design of Frequency-Invariant Beamformers Using a Weighted Spatial-Response-Variance Measure," European Signal Processing Conference, Belgrade, Serbia, pp. 1826-1830, 29 August to 02 September, 2022.
[29] M. Muaz, Y. I. Wu, D. Su & K. T. Wong, “Direction finding using a 'p-v probe' of higher order,” Meeting of the Acoustical Society of America, Boston, U.S.A., June 25-29, 2017.
[30] W. Chen & Y. I. Wu, “The Variation on the Uplink Multipaths’ DOA Distribution for the Maneuvering Mobile Station in the Wireless Cellular Network,” Accepted to be presented on IEEE 84th Vehicular Technology Conference, Montreal, Canada, September 18-21, 2016.
[31] Y. I. Wu, G. P. Arada, K. T. Wong & W.-Y. Tam, “Mis-modeling & Mis-correction of Mutual Coupling in an Antenna Array – A Case Study in the Context of Direction Finding Using a Linear Array of Identical Dipoles,” IEEE International Conference on Signal and Image Processing, Beijing, China, August 13-15, 2016.
[32] Y. I. Wu, G. P. Arada, K. T. Wong & W.-Y. Tam, “Electromagnetic coupling matrix modeling and ESPRIT-based direction finding – A case study using a uniform linear array of identical dipoles,” The 2nd IET International Conference on Intelligent Signal Processing, London, U.K., 1-2 December, 2015.
[33] H. Luo & Y. I. Wu, A wireless channel model for the multipaths' DOA distribution, assuming directional antennas at transmitter and receiver, IEEE International Conference on Consumer Electronics, Taipei, Taiwan, pp. 414-415, June 6-8, 2015.
[34] Ojowu, Y. Wu, J. Li & L. Nguyen, “SIRE: a MIMO radar for landmine/IED detection,” Proc. SPIE 8714, Radar Sensor Technology XVII, 2013.
[35] K. T. Wong, Y. I. Wu, X. Yuan, S. K. Lau, & S. K. Tang, “A Directionally Tunable but Frequency-invariant Beamformer for an Acoustic Velocity-sensor Triad to Enhance Speech Perception,” IEEE International Conference on Networked Sensing Systems, Penghu, Taiwan, 12–15 June, 2011.
[36] Y. I. Wu & K. T. Wong “Near-field Source Localization (over Azimuth / Elevation / Distance) Using a Single Spatially Extended Acoustic Vector-Sensor,” IEEE Asia-Pacific Microwave Conference, Singapore, 7-10 December, 2009.
[37] Y. I. Wu, K. T. Wong & S. K. Lau, “Beacon-Aided Adaptive Azimuth-Elevation Localization of Sound-Sources aboard a Pass-By Rail-Car Using a Track-Side Acoustic Microphone Planar Array,” International Conference on Sensing Technology, Tainan, Taiwan, 30 November to 3 December, 2008.
[38] C.-L. J. Lam, K. T. Wong & Y. I. Wu, “Closed-Form Explicit Formula for the TOA-Distribution of Multipaths between a Mis-Aligned Directional Transceiver & an Omni-Directional Transceiver Enclosed among Scatterers,” International Symposium on Antennas & Propagation, Taipei, Taiwan, 27-30 October, 2008.
[39] Y. I. Wu, K. T. Wong & S. K. Lau, “Beacon-Aided Adaptive Localization of Sound-Sources aboard a Pass-By Rail-Car Using a Track-Side Acoustic Microphone Array,” Inter-Noise Conference, Shanghai, China, 26-29 October, 2008.
[40] Y. Wu & X. He, “FPGA Implementation of a High Speed Source Synchronous Interface,” Advances in Matrix Theory and Applications: 7th International Conference on Matrix Theory and Applications, pp. 490-493, 2006.
[41] L. Chen, Y. Wu & X. He, “RS Encoding and the DSP Implementation,” Western-China Communication Conference, Chengdu, China, 2006.
授权专利
(1) 国家发明专利,“一种低复杂度的鲁棒自适应波束形成方法及装置”,第一发明人,ZL 202210409794.1
(2) 国家发明专利,“全独立分布式线性阵列的信源三维空间定位方法及相关装置”,ZL 202010776051.9
(3) 国家发明专利,“移动站上行链路波达分布模型的建立方法和系统”,ZL 201910484044.9,已转化
(4) 国家发明专利,“一种基于遗传算法的三维多目标定位方法”,ZL 201710533556.0
(5) 国家发明专利,“基于波达方向歧义消除的定位方法及装置”,ZL 201610705725.X