更新日期:2024年9月25日
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姓 名
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余光正
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性 别
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男
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出生年月
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籍贯
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民 族
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政治面貌
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最后学历
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博士研究生
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最后学位
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工学博士
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教授
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导师类别
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博、硕导
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行政职务
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Email
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scgzyu@scut.edu.cn
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工作单位
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邮政编码
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510641
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通讯地址
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广州市天河区五山路381号华工18号楼301室
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单位电话
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020-87113191
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| 个人主页
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http://www2.scut.edu.cn/g_yu/
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个人简介
研究方向包括多媒体声信号处理,建筑声学,以及声学智能穿戴。2011年入选广东高校优秀青年创新人才培养计划;2012年被评为“千百十人才培养工程”校级培养对象;2014年入选广东省优秀青年教师培养计划,均获得相应的项目资助。主持国家自然科学基金项目和广东省自然科学基金项目等共计10余项,在JASA、JAA、JAES、声学学报等国内外重要期刊发表论文100余篇,其中SCI/EI收录50余篇,已申请和获得授权的国家发明专利10余项,国际专利PCT2项。主讲《声学测量技术》和《声信号处理》等研究生课程,以及《大学物理》、《电子工艺理论基础》和《电子线路计算机辅助设计》等本科生课程。
工作经历
2009.7 ~ 至今 华南理工大学,历经讲师(2009.9)、副教授(2011.9)、教授(2016.9)
2017.7 伦斯勒理工学院(RPI),访问学者
2016.3 ~ 2016.9 香港科技大学(HKUST),访问学者
2013.6 ~ 2013.12 伦敦大学玛丽女王学院(QMUL),访问学者
教育经历
2004年9月开始攻读华南理工大学声学专业硕士研究生;
2005年9月在华南理工大学硕博连读,攻读电路与系统专业博士研究生,
2009年6月获得工学博士学位。
获奖、荣誉称号
2009年1月,作为主要成员获得教育部科技进步二等奖(本人排名第三)。
社会、学会及学术兼职
中国声学学会理事;
中国声学学会声频工程分会副主任委员;
中国声学学会计算声学分会委员;
中国声学学会产业促进委员会委员;
广州电子音响行业协会专家委员会常务副主任委员。
研究领域
招生专业及研究方向主要包括:
(1)物理与光电学院,物理学博士研究生,声学硕士研究生。研究方向为电声与听觉。主要研究空间声与双耳听觉重放,涉及心理声学、声信号处理、虚拟听觉现实、人工智能等领域的交叉课题。具体课题有个性化头相关传输函数(HRTF),虚拟听觉重放(VAD)等。
(2)建筑学院建筑科学与技术博士研究生,主要研究方向为建筑声学。主要通过实验测量和数值模拟等技术手段研究研究室内空间声场特性,声场捡拾与重放,声场控制等。近年专注于小房间或汽车空间的声场特性与声重放的研究。
(3)设计学院机械专业硕士研究生,研究方向为声学智能穿戴产品设计。主要研究人体头部外形的建模、耳机、助听器等智能声学穿戴产品的设计,包括外形设计、佩戴舒适性、听觉舒适性等设计。
科研项目
主持的国家自然科学基金项目:
(1) 2025.01 至 2028.12,人体头部外形与头相关传输函数的空间模态研究(面上12474465)
(2) 2021.01 至 2024.12,小型声学空间听觉定位的关键因素及其应用(面上12074129)
(3) 2016.01 至 2019.12,听觉距离定位因素及其在空间声重放中的应用(面上11574090)
(4) 2012.01 至 2014.12,个性化近场头相关传输函数的测量与快速定制(青年11104082)
主持的广东省自然科学基金项目:
(1) 2024.01 至 2025.12,小型声学空间双耳听觉定位关键因素提取与建模研究(面上2024A1515011446)
(2) 2018.05 至 2021.04,听力损伤人群的空间听觉及应用的研究(重点2018B030311025)
(3) 2012.10 至 2014.10,真人受试者近场头相关传输函数及其定位信息的研究(面上S2012010010015)
(4) 2010.10 至 2012.09:近场头相关传输函数的计算及应用(博士启动10451064101005214);
主持的产学研项目:
(1) 2024.03 至 2027.03,企业技术开放课题“汽车座舱智能音效技术联合研发”( 编号20240711)
(2) 2021.02 至 2022.06,企业技术开发课题“典型空间声场关键声学参数提取及车载声重放技术研究” (编号20210175)
(3) 2021.01 至 2021.12,企业技术开发课题“个性化头相关传输的实现与优化“(编号20210232)
(4) 2020.01 至 2020.12,企业技术开发课题“个性化头相关传输模型理论与评测”(编号20192170)
发表论文
近五年期刊论文成果:
[30] 王婷婷,王业维,余光正,林智源,何璞,李哲林. 光学扫描采集三维头部模型的精度及其对头相关传输函数的影响. 声学技术,已录用
[29] 朱力为,余光正,王业维,何璞.中垂面内视觉刺激对听觉声源定位的影响[OL].声学学报. (May, 2024)https://link.cnki.net/urlid/11.2065.O4.20240429.1017.001
[28] Teng Cao, Guangzheng Yu, Dan Rao. Effect of headphone-based stimuli presentation method on echo threshold. AppliedAcoustics, Volume 219, Pages 109942, (Feb 2024), DOI:10.1016/j.apacoust.2024.109942
[27] Wei Tan, Guangzheng Yu, Dan Rao*.Method for increasing lateral perceived azimuth of binaural reproduction overtwo loudspeakers[J]. Applied Acoustics, Vol 213, Pages 109621, (Oct 2023), DOI:10.1016/j.apacoust.2023.109621
[26] Zhichao Zhang, Guangzheng Yu*, and Linda Liang. Influence of the Relative Height of a Dome-Shaped Diaphragmon the Directivity of a Spherical-Enclosure Loudspeaker. J. Audio Eng. Soc.,Vol, 71, no. 3, pp 118-128, (Mar 2023)
[25] Linda Liang, Guangzheng Yu*. Effectof speaker orientation on speech intelligibility in an automotive environment.Applied Acoustics, Vol 203, Pages 108782, (Feb 2023), DOI:10.1016/j.apacoust.2023.109269
[24] Zhenyu Guo, Yuezhe Zhao, LiliangWang, Yijing Chu, and Guangzheng Yu*. Distance discrimination thresholds ofproximal sound sources in a real anechoic environment. Applied Acoustics, Vol203, Pages 109223, (Jan 2023), DOI: 10.1016/j.apacoust.2023.109223
[23] Wei Tan, Guangzheng Yu and DanRao*. Influence of first-order lateral reflections on the localization ofvirtual source reproduced by crosstalk cancellation system. Applied Acoustics,Vol 202, Pages 109165, (Jan 2023), DOI: 10.1016/j.apacoust.2022.109165
[22] Linda Liang and Guangzheng Yu*. Thecombined effect of source directivity and binaural listening on near-fieldbinaural speech transmission index evaluation. Applied Acoustics, Vol 203,Pages 109198, (Jan 2023), DOI: 10.1016/j.apacoust.2022.109198
[21] Yu Lan, Tingwei Yin, GuangzhengYu*. Effect of torso reflections from simplified torso models on head-relatedtransfer function simulation and ipsilateral perception of elevation. AppliedAcoustics, Volume 201, Pages 109095, ISSN 0003-682X, (Dec 2022), DOI:10.1016/j.apacoust.2022.109095
[20] Linda Liang and Guangzheng Yu.Effect of spatial separation of sources on speech intelligibility in anautomotive environment. The Journal of the Acoustical Society of America, Vol152, Issue 4, Pages A42-A42, (Nov 2022), DOI: 10.1121/10.0015478
[19] Zhelin Li, Xianghong Deng, Yu-ChiLee*, Lijun Jiang, Guangzheng Yu and Jiaxu Fan. Establishment of open webplatform based on 3D head model for product adaptability analysis andevaluation. Heliyon, 2022, Vol 8 Issue 12 Pages e11732, Accession Number:36471830 PMCID: PMC9718972, (Nov 2022), DOI:10.1016/j.heliyon.2022.e11732
[18] Zhichao Zhang and Guangzheng Yu.Influence of sound source directivity on finite element simulation ofsmall-room acoustics. The Journal of the Acoustical Society of America, Vol152, Issue 4 Pages A42-A42, (Oct 2022), DOI: 10.1121/10.0015479, Link
[17] Huali Zhou, Alan Kan, GuangzhengYu, Zhenyu Guo, Nengheng Zheng* and Qinglin Meng*. Pitch perception with thetemporal limits encoder for cochlear implants. IEEE Transactions on NeuralSystems and Rehabilitation Engineering, vol 30, pp2528-2539, (Aug 2022), DOI:10.1109/TNSRE.2022.3203079
[16] Linda Liang, and Guangzheng Yu*.Azimuth-dependent model of binaural speech transmission index based onnear-field head-related transfer functions. Applied Acoustics, 195, 108855,(Jun 2022), DOI: 10.1016/j.apacoust.2022.108855
[15] Linda Liang, Guangzheng Yu*, HualiZhou, and Qinglin Meng. Effect of listener head orientation on speech receptionthreshold in an automotive environment. Applied Acoustics, 193, 108782, (Apr2022), DOI: 10.1016/j.apacoust.2022.108782
[14] Bosun Xie, and Guangzheng Yu.Psychoacoustic Principle, Methods and Problems with Perceived Distance Controlin Spatial Audio. Applied Sciences, 11(23), 11242, (Nov 2021), DOI:10.3390/app112311242
[13] Zhenyu Guo, Guangzheng Yu, HualiZhou, Xianren Wang, Yigang Lu, and Qinglin Meng*. Utilizing true wirelessstereo earbuds in automated pure-tone audiometry[J]. Trends in Hearing, 25,1–13, (Nov 2021), DOI: 10.1177/23312165211057367
[12] Linda Liang, Le Yu, Tong Zhao,Qinglin Meng, and Guangzheng Yu*. Speech intelligibility for various headorientations of listener in automobile using speech transmission index. TheJournal of the Acoustical Society of America, 149(4), 2686–2697, (Apr 2021),DOI: 10.1121/10.0004265
[11] 孟庆林,周华莉,余光正. 人工耳蜗的音高感知编码机制和限制. 复旦学报(自然科学版),60(03):279-287+296, (Mar 2021), DOI:10.15943/j.cnki.fdxb-jns.2021.03.002
[10] Zhenyu Guo, Yigang Lu, Huali Zhou,Zhelin Li, Youming Fan, and Guangzheng Yu. Anthropometric-based clustering ofpinnae and its application in personalizing HRTFs. International Journal ofIndurstrial Ergonomics, 81, 103076, (Jan 2021), DOI:10.1016/j.ergon.2020.103076
[9] Linda Liang, and Guangzheng Yu*.Binaural speech transmission index with spatialized virtual speaker in nearfield: distance and direction dependence. The Journal of the Acoustical Societyof America, 148, EL202-EL206, (Aug 2020), DOI: 10.1121/10.0001808
[8] Dong Cui, Yuexin Cai, andGuangzheng Yu*. A Graphical-User-Interface-Based Azimuth-Collection Method inAutonomous Auditory Localization of Real and Virtual Sound Sources. IEEEJournal of Biomedical and Health Informatics, 25(4), 988–996, (Jul 2020), DOI:10.1109/JBHI.2020.3011377
[7] Huali Zhou, Neng Wang, NenghengZheng, Guangzheng Yu, and Qinlin Meng. A New Approach for Noise Suppression inCochlear Implants: A Single-Channel Noise Reduction Algorithm. Frontiers inHuman Neuroscience, (Apr 2020), DOI: 10.3389/fnins.2020.00301
[6] 邵玉光, 李哲林, 余光正, 李育奇, 邓祥洪, 姜立军. 基于三维头型及穴位分布的辅助设计平台的研究[J]. 图学学报, 41(03), 356-361, (Mar 2020), DOI:10.11996/JG.j.2095-302X.2020030356
[5] Qinglin Meng, Xianren wang,Nengheng Zheng, Jan W H Schnupp, Guangzheng Yu* et al. Time-compressionthresholds for Mandarin sentences in normal-hearing and cochlear implantlisteners[J]. Hearing Research, 374(1), 58-68, (Mar 2019), DOI: 10.1016/j.heares.2019.01.011
[4] Guangzheng Yu*, Yu Liu, Bosun Xie,and Huali Zhou. Multiple Scattering Between Adjacent Sound Sources inHead-Related Transfer Function Measurement System. Sound & Vibration,53(4):151-159, (Jan 2019), DOI: 10.32604/sv.2019.04644
[3] Yuexin Cai, Guisheng Chen, XiaoliZhong, Guangzheng YU, Hanjie Mo, Jiajia Jiang, Xiaoting Chen, Fei Zhao, andYiqing Zheng*. Influence of audiovisual training on horizontal soundlocalization and its related ERP response. Frontiers in Human Neuroscience,12(10), 423-433, (Oct 2018), DOI: 10.3389/fnhum.2018.00423
[2] Guangzheng Yu*, and Liliang Wang.Effect of individualized head-related transfer functions on distance perceptionin virtual reproduction for a nearby sound source. Archives of Acoustics,44(2), 251-258, (Jul 2018), DOI: 10.24425/AOA.2019.128488
[1] Guangzheng Yu, Ruixing Wu, Yu Liu,and Bosun Xie*. Near-field head-related transfer-function measurement anddatabase of human subjects. The Journal of the Acoustical Society of America,143(3): EL194-EL198, (Mar 2018), DOI: 10.1121/1.5027019
近四年会议论文:
[38]余光正. 个性化头相关传输函数的数据获取研究进展(摘要). 全国声学大会, 2024.09, 南京 (邀请报告)
[37]龚哲. 非对称布置对两通路立体声重放听觉声源宽度的影响(摘要). 全国声学大会, 2024.09, 南京
[36]项沁旋. 基于神经网络的多通道解耦有源噪声控制方法及自适应策略(摘要). 全国声学大会, 2024.09, 南京
[35] XiaomanWANG, Qinglin MENG, Zhiyuan LIN, Jin YU, Yewei WANG, Zhelin LI, Bosun XIE. Evaluating the relationship betweenhigh-frequency hearing loss and front-back localization in the elderly. Inter-Noise2024, the 53rd International Congress and Exposition on Noise ControlEngineering, August 25 to 29, 2024, Nantes, France.
[34] YeweweiWANG, Prof Guangzheng YU. Mesh registration-based boundary element method ofhead-related transfer function: unification of hair impedance boundaryconditions. Inter-Noise 2024, the 53rd International Congress and Exposition onNoise Control Engineering, August 25 to 29, 2024, Nantes, France.
[33] GuanCHAOLIN, Guangzheng YU, Dan RAO. Method for improving sound projectionperformance based on linearly constrained minimum power algorithm. Inter-Noise2024, the 53rd International Congress and Exposition on Noise ControlEngineering, August 25 to 29, 2024, Nantes, France.
[32] ZiyuWANG, Guangzheng YU. The Crossover Frequency of Acoustic Simulation forSmall-Scale Enclosures by Wave and Statistic Based Methods. Inter-Noise 2024,the 53rd International Congress and Exposition on Noise Control Engineering, August25 to 29, 2024, Nantes, France.
[31] GuangzhengYU, Zihan CHEN, Yewei WANG, TingtingWANG, Zhelin LI. Comprehensive Evaluation on Wearing and Hearing Comfort ofOver-Ear Headphones Based on Adjustable Clamping Force. Inter-Noise 2024, the53rd International Congress and Exposition on Noise Control Engineering, August25 to 29, 2024, Nantes, France.
[30] BosunXIE, M Runze DONG, M Yewei WANG, Guangzheng YU, Qinglin MENG,Evaluating on the spatial localization cues of binaural soundpressure recorded via behind-the-ear microphones in a hearing aid. Inter-Noise2024, the 53rd International Congress and Exposition on Noise ControlEngineering, August 25 to 29, 2024, Nantes, France.
[29] ZheGONG, Guangzheng YU, Bosun XIE. Enhancing subjective spaciousness for stereoreproduction in car-size acoustical enclosures based on audio signaldecorrelation. Inter-Noise 2024, the 53rd International Congress and Expositionon Noise Control Engineering, August 25 to 29, 2024, Nantes, France.
[28] Zihan Chen, Guangzheng Yu, TingtingWang, and Zhelin Li. A Study on the Force Comfort ofOver-Ear Headphones Based on 3D Anthropometric Data. HCII 2024, LNCS14709, pp. 135–149, 2024.
[27] Tingting Wang, Yewei Wang,Guangzheng Yu, Zihan Chen, and Zhelin Li. Analysis and Validation onMulti-dimensional Assessment for Comfort of In-Ear Headphones. HCII 2024,LNCS 14709, pp. 135–149, 2024.
[26]余光正. 车载多通路声重放技术的机遇与挑战(摘要). 于2024 广州国际专业灯光、音响展,《声频工程前沿应用和电声计量测试技术》专题报告会,2024.05, 广州 (邀请报告)
[25]余光正. 汽车座舱声场数值模拟的问题及进展(摘要). 全国计算声学大会, 2023.12, 哈尔滨 (邀请报告)
[24] Xiang, Qinxuan & Chu, Yijing& Wu, Ming & Yu, Guangzheng. A combined method for multi-channelactive noise control based on online adaptive estimation and offlineconvolutional neural network. (Abstract) The Journal of the AcousticalSociety of America, 154. A79-A79, (Dec 2023), 10.1121/10.0022860, Link
[23] Tan, Wei & Rao, Dan & Wang,Yewei & Yu, Guangzheng. The localization of virtual source reproducedby the crosstalk cancellation system under different direct-to-reverberationenergy ratios conditions. (Abstract) The Journal of the Acoustical Societyof America, 154. A271-A271, (Dec 2023), 10.1121/10.0023499, Link
[22] Cao, Teng & Yu, Guangzheng& Rao, Dan. Echo threshold measurement based on headphonepresentation. (Abstract) The Journal of the Acoustical Society of America,154. A235-A235, (Dec 2023), 10.1121/10.0023389, Link
[21] 王业维, 朱力为, 余光正. 基于平均人体外形的声学人工头模型及其HRTF(摘要). 中国声学学会声频工程、建筑与环境声学2023年学术交流年会,2023.11,南京
[20] 朱力为, 余光正, 王业维. 中垂面视觉对听觉定位影响研究(摘要). 中国声学学会声频工程、建筑与环境声学2023年学术交流年会,2023.11,南京
[19] 余光正. 车载多通路声重放技术的发展(摘要). 中国声学学会声频工程、建筑与环境声学2023年学术交流年会,2023.11,南京 (邀请报告)
[18] 余光正, 雷诚. 小空间反射声对声源定位因素的影响(摘要). 全国声学大会, 2023.07, 哈尔滨
[17]梁林达, 余光正. 车内后排听者的头朝向对语言清晰度的影响(摘要). 全国声学大会, 2023.07, 哈尔滨
[16] Wenfeng Liu, Qinglin Meng,Guangzheng Yu*, et al. Effects of Hearing Loss on Interaural Time DifferenceDiscrimination in an Oddball Paradigm. 2023 8th International Conference onIntelligent Computing and Signal Processing (ICSP). IEEE, 990-993, (Apr 2023),DOI: 10.1109/ICSP58490.2023.10248809, Link
[15] Cheng Lei, Linda Liang, GuangzhengYu*, et al. The speech transmission index of Room-in-Room reproduction betweenrooms with different size and acoustical conditions. 2023 8th InternationalConference on Intelligent Computing and Signal Processing (ICSP). IEEE,383-387, (Apr 2023), DOI: 10.1109/ ICSP58490.2023.10248798, Link
[14] Linda Liang, and Guangzheng Yu*.Effect of frequency response equalization method on speech transmission index.PROCEEDINGS of the 24rd International Congress on Acoustics in Gyeongju, Korea,(Oct 2022), Link
[13] Wei Tan, Guangzheng Yu, and DanRao*. The influence of first-order lateral reflections on binaural cues ofvirtual source reproduced by crosstalk cancellation system. PROCEEDINGS of the24rd International Congress on Acoustics in Gyeongju, Korea, (Oct2022), Link
[12] Cheng lei, Wei Tan, and GuangzhengYu*. Effect of artificial reflections on the distance perception of the virtualsound image generated by the 5.0 channel sound reproduction system. PROCEEDINGSof the 24rd International Congress on Acoustics in Gyeongju, Korea, (Oct2022), Link
[11] Jiachen Chen, Huali Zhou,Guangzheng Yu and Qinglin Meng. Interaural time difference based spatialrelease from masking with asymmetric hearing over a video conference app. 20227th International Conference on Intelligent Computing and Signal Processing Xi'an, China, 2022 pp 1050-1054, (Apr 2022), DOI:10.1109/ICSP54964.2022.9778684, Link
[10] Yingjie Liu, Linda Liang, Wei Tan,Zhichao Zhang, Cheng Lei, Guangzheng Yu, Yuntao Cao, Bingwu Lu, and Yun Li. TheSound Field Characteristics in Automobile under Different Speaker Height basedon Numerical Simulation. Journal of Physics: Conference Series, 2185(1), 12026,(Jan 2022), DOI: 10.1088/1742-6596/2185/1/012026, Link
[9] Yuntao Cao, Linda Liang, Wei Tan,Zhichao Zhang, Cheng Lei, Guangzheng Yu, Bingwu Lu, Yingjie Liu and Yun Li. TheInfluence of Seat Occlusion on Driver’s Binaural Signal in Automobile based onFEM-RTM Simulation. Journal of Physics: Conference Series, 2185(1), 12025, (Jan2022), DOI: 10.1088/1742-6596/2185/1/012025, Link
[8] 余光正. 头相关传输函数的数值计算方法:回顾与展望. 全国计算声学大会, 2021.11, 上海 (邀请报告)
余光正. 基于真实和虚拟声源的 空间听觉定位能力测听与训练. 听力学跨界技术研讨会(iTAP), 2021. 04. (邀请报告)
[7] Huali Zhou, Guangzheng Yu, andQinglin Meng*. Enhancing the temporal fine structure with the temporal limitsencoder for cochlear implants: Effects on pitch ranking. The 180th meeting ofAcoustical Society of America, Online, (Abstract), (Apr 2021), DOI:10.1121/10.0004661, Link
[6] 余光正. 听觉距离定位因素及其在虚拟听觉重放中的应用. 全国声学大会, 2020.11, 上海 (邀请报告)
[5] Zhenyu Guo, Xianren Wang, HualiZhou, Yigang Lu, Guangzheng Yu, and Qinling Meng*. Automated pure toneaudiometry with true wireless stereos earbuds. The 179th meeting of AcousticalSociety of America, Online, 148(4):2714-2714, (Abstract), (Oct 2020), DOI:10.1121/1.5147525, Link
[4] Huali Zhou, Guangzheng Yu, andQinling Meng*. Enhancing the temporal fine structure with the temporal limitsencoder for cochlear implants: Effects on pitch discrimination. The 179thmeeting of Acoustical Society of America, Online, 148(4):2711-2711, (Abstract),(Oct 2020), DOI: 10.1121/1.5147512, Link
[3] 余光正. 双耳效应对较优耳信噪比和语言传输指数的影响. 中国多媒体大会,青年专题论坛3:智能音频分析与生成,2020.09,青岛 (邀请报告)
[2] Linda Liang, and Guangzheng Yu*.Auditory distance perception cues in small enclosed spaces: numericalsimulation and psychoacoustical evaluation. PROCEEDINGS of the InternationalCongress and Exposition on Noise Control Engineering, Seoul, Korea, (Aug2020), Link
[1] Zhenlin Li, Xianghong Deng,Guangzheng Yu, Yu-chi Lee, Lijun Jiang, and Yuguang Shao. A Web PlatformTargeting for Easier Fit Performance Analysis and Headwear Products AidedDesign. PROCEEDINGS of the International Conference on Applied Human Factorsand Ergonomics, pp 56-62, (Jul 2020), DOI: 10.1007/978-3-030-51038-1_9, Link
科研创新
■已授权专利列表
【PCT】
[1] GuangzhengYU, Wei TAN, Linda LIANG, Tong ZHAO, et al. VEHICLE-MOUNTEDSOUND PLAYBACK SIGNAL DELAY METHOD APAPTED TO LISTENING CENTER POSITION, 国际公布号:WO 2022/188434 A1,公布日:15 September 2022
【国家发明专利】
[9]余光正; 周华莉; 谢菠荪.一种用于听觉空间定位测试的受试者头部坐标定位转椅. 国家发明专利. 专利号 ZL 2019 1 0178128.X; 授权号CN 109846490 B. 申请日期2019-03-08; 授权日期2024-05-31.
[8] 余光正; 王礼亮. 一种基于生理参数设计的耳罩壳体可旋转的头戴式耳机. 国家发明专利.专利号ZL 2017 1 1142664.1; 授权号: CN 107801115B. 申请日期2017-11-17, 授权日期2023-12-05.
[7] 余光正;崔冬;谢菠荪. 一种基于APP的声源空间定位能力检测系统. 国家发明专利.专利号ZL 2019 1 0685380.X; 授权号CN 110544532 B. 申请日期2019-07-27, 授权日期2023-07-18.
[6] 余光正; 谭伟; 梁林达; 赵童等. 一种适应听音者中心位的车载声重放信号延时方法. 国家发明专利.专利号ZL 2021 1 0271857; 授权号CN 113115199 B. 申请日期2021-03-12, 授权日期2022-05-24.
[5] 余光正; 谭伟; 梁林达; 赵童等. 一种车载立体声重放的自适应主动分频方法. 国家发明专利.专利号ZL 2020 1 1230703.5; 授权号CN 112511966 B. 申请日期2020-11-06, 授权日期2021-12-17.
[4] 余光正;吴锐兴;谢菠荪.一种基于等高线的人耳轮廓特征增强和生理参数提取方法. 国家发明专利.专利号ZL 2017 1 0731431.9; 授权号CN 107590833 B. 申请日期2017-08-23, 授权日期2021-01-19.
[3]余光正;谢菠荪. 用于近场头相关传输函数测量系统的定位装置. 国家发明专利.专利号ZL 2017 1 0731431.9; 授权号CN 107590833 B. 申请日期2017-08-23, 授权日期2021-01-19.
[2]余光正;刘昱;谢菠荪.用于远场和近场头相关传输函数的多声源自动测量系统. 国家发明专利.专利号ZL 2017 1 0731431.9; 授权号CN 107590833 B. 申请日期2017-08-23, 授权日期2021-01-19.
[1] 谢菠荪; 张承云; 余光正. 一种用于手持式播放装置的立体声扩展方法. 国家发明专利.专利号ZL 2017 1 0731431.9; 授权号CN 107590833 B. 申请日期2017-08-23, 授权日期2021-01-19.
指导学生情况
已指导的博士学位论文:
[2] 谭伟. 串声消除系统定位性能及其优化方法研究[D]. 华南理工大学, 2024.
[1] 梁林达. 汽车座舱小空间的语言清晰度研究[D]. 华南理工大学, 2022.DOI:10.27151/d.cnki.ghnlu.2022.001230, Link
已指导的硕士学位论文:
[20] 陈梓涵. 耳罩参数对头戴式耳机听觉舒适与佩戴舒适性的影响. 华南理工大学, 2024.
[19] 王婷婷. 基于耳部三维测量的入耳式耳机舒适度设计研究[D]. 华南理工大学, 2024.
[18] 曹 腾. 声刺激重放方式对优先效应回声阈值的影响研究[D]. 华南理工大学, 2024.
[17] 朱力为. 视觉刺激对声源方向定位影响的研究[D]. 华南理工大学, 2024.
[16] 兰 宇. 含躯干头模的HRTF数值模拟及躯干效应建模[D]. 华南理工大学, 2023.
[15] 张智超. 汽车尺度小空间内扬声器辐射声场的数值模拟研究[D]. 华南理工大学, 2023.
[14] 刘文峰. 双耳时间差分辨能力的客观失匹配负波指标[D]. 华南理工大学, 2023.
[13] 雷 诚. 汽车小空间模型的重放声信号染色及其均衡处理[D]. 华南理工大学, 2023.
[12] 陈嘉晨. 噪声环境下双耳时间差对听损者语言可懂度的影响[D]. 华南理工大学, 2022
[11] 周华莉. 评估人工耳蜗编码策略的心理声学实验平台研究[D]. 华南理工大学, 2021.
[10] 崔 冬. 声源方向定位实验的坐标采集系统[D]. 华南理工大学, 2020.
[9] 于 乐. 小汽车内部声场的有限元数值模拟[D]. 华南理工大学, 2019.
[8] 王礼亮. 近场水平面声源距离定位相关影响因素的研究[D]. 华南理工大学, 2019.
[7] 吴锐兴. 生理参数测量与个性化头相关传输函数定制[D]. 华南理工大学, 2018
[6] 伍玉叶. 侧向单声源距离定位的影响因素分析与验证[D]. 华南理工大学, 2017
[5] 何颖洋. 耳廓与头部的个性化耦合参数对声源定位因素的影响[D]. 华南理工大学, 2016
[4] 尹婷伟. 肩部反射声对侧向声源仰角定位的影响[D]. 华南理工大学, 2016
[3] 芮元庆. 个性化近场头相关传输函数的计算与分析[D]. 华南理工大学, 2013
[2] 陈泽为. 简化头—颈—躯干模型的头相关传输函数计算[D].华南理工大学, 2012
[1] 钟其柱. 高空间分辨率头相关传输函数数据库的建立及分析[D]. 华南理工大学, 2011
我的团队
研究小组主页:
http://www2.scut.edu.cn/g_yu/