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西安交通大学生命科学与技术学院导师教师师资介绍简介-吴 亮

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Home - 吴 亮Basic Information

吴亮 Liang Wu
Ph.D, Associate Professor
Department of Biomedical Engineering
School of Life Science and Technolog
Xi'an Jiaotong University




Contact

Address:
No. 28 Xianning West Road
Xi'an, China 710049
Tel: +86--803
Email: liangwu@xjtu.edu.cn




Visitors




Welcome

欢迎对科学研究感兴趣的本科生一起体验科研的乐趣!
欢迎对语音产生、语音声学、及语音信号处理感兴趣的优秀学子加入团队!
常年招收生物医学工程、生物力学、信息科学、材料学、生物化学等背景的硕士、博士、博士后!




Academic Appointment

2017 - Present Associate Professor
School of Life Science and Technology, Xi'an Jiaotong University, China
2019 - 2020 Visiting Associate Project Scientist
David Geffen School of Medicine, Univeristy of California, Los Angeles, USA
2013 - 2017 Assistant Professor
School of Life Science and Technology, Xi'an Jiaotong University, China
2015 - 2016 Visiting Assistant Project Scientist
David Geffen School of Medicine, Univeristy of California, Los Angeles, USA




Research Interests

Speech Production and Neuromuscular Control
语音产生与神经肌肉控制
Speech Synthesis and Rehabilitation based on Physiological Features
基于生理特征的语音合成与重建
Computational Model and Physical Model of Human Speech Production System
人类语音系统计算与物理模型
Speech Perception and Natural Language Processing
语音感知与自然语言处理







Home - 吴 亮Basic Information

吴亮 Liang Wu
Ph.D, Associate Professor
Department of Biomedical Engineering
School of Life Science and Technolog
Xi'an Jiaotong University




Contact

Address:
No. 28 Xianning West Road
Xi'an, China 710049
Tel: +86--803
Email: liangwu@xjtu.edu.cn




Visitors




Welcome

欢迎对科学研究感兴趣的本科生一起体验科研的乐趣!
欢迎对语音产生、语音声学、及语音信号处理感兴趣的优秀学子加入团队!
常年招收生物医学工程、生物力学、信息科学、材料学、生物化学等背景的硕士、博士、博士后!




Academic Appointment

2017 - Present Associate Professor
School of Life Science and Technology, Xi'an Jiaotong University, China
2019 - 2020 Visiting Associate Project Scientist
David Geffen School of Medicine, Univeristy of California, Los Angeles, USA
2013 - 2017 Assistant Professor
School of Life Science and Technology, Xi'an Jiaotong University, China
2015 - 2016 Visiting Assistant Project Scientist
David Geffen School of Medicine, Univeristy of California, Los Angeles, USA




Research Interests

Speech Production and Neuromuscular Control
语音产生与神经肌肉控制
Speech Synthesis and Rehabilitation based on Physiological Features
基于生理特征的语音合成与重建
Computational Model and Physical Model of Human Speech Production System
人类语音系统计算与物理模型
Speech Perception and Natural Language Processing
语音感知与自然语言处理







Research - 吴 亮Fundings
National Natural Science Foundation of China 国家自然科学基金(面上项目) 2019-2022
The Mechanism of vocal fatigue caused by phonation-induced vocal fold dehydration
发声引起的声带组织失水在发声疲劳产生中的生物物理机制
National Natural Science Foundation of Shaanxi Province 陕西省自然科学基金(青年项目) 2016-2017
Quantitative evaluation of vocal fatigue caused by vocal-dose related phonation
基于嗓音剂量学的不同发声方式下发声疲劳生理特征的定量研究
National Natural Science Foundation of China 国家自然科学基金(青年项目) 2015-2017
Quantitative evaluation of vocal fatigue based on the vocal fold biomechanics and phonatory aerodynamics
基于声带振动力学与发声空气动力学的发声疲劳定量评价
China Postdoctoral Science Foundation funded project 中国博士后基金面上项目 2014-2015
Theory and application of phonation efficiency for electrolaryngeal speech
电子喉语音发声效率的基本理论方法和应用研究
The Fundamental Research Funds for the Central Universities 西安交通大学自由探索与自主创新项目 2014-2017
The application and evaluation of Electrolaryngeal speech for temporary aphonia patients
暂时性禁/失声期的语音替代交流技术与嗓音康复评价







Publications - 吴 亮Books
万明习, 王素品,吴亮. (2015). 嗓音医学工程学. 北京:科学出版社. ISBN 978-7-03-043382-4.




Journals
L Wu, Z Zhang*. (2021). Impact of the paraglottic space on voice production in an MRI-based vocal fold model. J Voice, In Press. [pdf]
K Xiao, B Zhang, S Wang, M Wan, L Wu*. (2020). Acoustical and perceptual characteristics of Mandarin consonants produced with an electrolarynx. Speech Commun, 123(2020): 26-34. [pdf]
吴亮, 叱干鹏举, 王素品, 万明习*. (2020).声带上表面振动黏膜波波速的激光测振估计方法. 声学学报, 45(1): 124-130. [pdf]
ZZhang*, L Wu, R Gray, DK Chhetri. (2020). Three-dimensional vocal fold structural change due to implant insertion in medialization laryngoplasty. PLoS ONE, 15(1): e**. [pdf]
L Wu, Z Zhang*. (2019). Voice production in a MRI-based subject-specific vocal fold model with parametrically controlled medial surface shape. J Acoust Soc Am, 146(6): 4190-4198. [pdf]
K Xiao, S Wang, M Wan, LWu*. (2019). Reconstruction of Mandarin electrolaryngeal fricatives with hybrid noise source. IEEE/ACM Trans Audio, Speech, Language Process, 27(2): 383-391. [pdf]
K Xiao, S Wang, M Wan, L Wu*. (2018). Radiated noise suppression for electrolarynx speech based on multiband time-domain amplitude modulation.IEEE/ACM Trans Audio, Speech, Language Process, 26(9): 1585-1593. [pdf]
B Jing, Z Ge, L Wu, S Wang, M Wan*. (2018). Visualizing the mechanical wave of vocal fold tissue during phonation using electroglottogram-triggered ultrasonography.J Acoust Soc Am, 143(5): EL425-429. [pdf]
L Wu*, Z Zhang. (2017). A computational study of vocal fold dehydration during phonation.IEEE Trans Biomed Eng, 64(12): 2938-2948. [pdf]
L Wu, K Xiao, S Wang, M Wan*. (2017). Acoustic influence of the neck tissue on Mandarin voiceless consonant production of Electrolaryngeal speech. Speech Commun, 87: 31-39. [pdf]
L Wu, K Xiao, S Wang, M Wan*. (2017). Vocal efficiency of electrolaryngeal speech production. Speech Commun, 89: 17-24. [pdf]
B Jing, P Chigan, Z Ge, L Wu, Supin Wang, Mingxi Wan*. (2017). Visualizing the movement of the contact between vocal folds during vibration by using array-based transmission ultrasonic glottography.J Acoust Soc Am, 141(5): 3312-3322. [pdf]
L Wu, Z Zhang*. (2016). A parametric vocal fold model based on magnetic resonance imaging.J Acoust Soc Am,140(2), EL159-16516. [pdf]
B Jing,S Tang, L Wu, S Wang, M Wan. (2016). Visualizing the vibration of laryngeal tissue during phonation using ultrafast plane wave ultrasonography. Ultrasound Med Biol, 42(12): 2812-2825. [pdf]
张聪, 唐姗姗, 张媛媛, 敬博文, 吴亮, 万明习, 王素品*. (2015). 基于电声门图信号的可控超声喉动态成像系统. 中国科技论文, 2015 (14).
张聪, 吴亮, 张向红, 杜小滢, 万明习, 王素品*. (2015). 发声效率测量系统的设计与实现. 中国科技论文在线, 2015.07.01.
L Wu, C Wan, K Xiao, S Wang, M Wan*. (2014). Evaluation of a method for vowel-specific voice source control of an electrolarynx using visual information. Speech Commun, 57: 39-49. [pdf]
L Wu, K Xiao, J Dong, S Wang, M Wan*. (2014). Measurement of the sound transmission characteristics of normal neck tissue using a reflectionless uniform tube.J Acoust Soc Am,136(1): 350-356. [pdf]
L Wu, C Wan, S Wang, M Wan*. (2013). Improvement of electrolaryngeal speech quality using a supraglottal voice source with compensation of vocal tract characteristics. IEEE Trans Biomed Eng, 60(7): 1965-1974. [pdf]
L Wu, C Wan, S Wang, M Wan*. (2013). Development and evaluation of on/off control for electrolaryngeal speech via artificial neural network based on visual information of lips. J Voice, 27(2): 259.e7-e16. [pdf]
C Wan, L Wu, H Wu, S Wang, M Wan*. (2012). Assessment of a method for the automatic on/off control of an electrolarynx via lip deformation. J Voice, 26(5): 674.e21-e30. [pdf]
C Wan, E Wang, L Wu, S Wang, M Wan*. (2012). Design and evaluation of an electrolarynx with tonal control function for Mandarin. Folia Phoniatr Logo,64(6): 290-296. [pdf]
X Qin,L Wu, H Jiang, S Tang, S Wang, M Wan*. (2011). Measuring body-cover vibration of vocal folds based on high-frame-rate ultrasonic imaging and high-speed video. IEEE Trans Biomed Eng, 58(8): 2384-2390. [pdf]




Conferences
L Wu, Z Zhang*. Effect of the paraglottic space on phonation in a MRI-based vocal fold model. The 12th International Conference on Voice Physiology and Biomechanics, Grenoble, France, 2020.
L Wu, Z Zhang*. Effect of medial surface shape on voice production in a MRI-based three-dimensional phonation model. The 178th meeting of the Acoustical Society of America, 146(4): 3086, 2019.
L Wu, D Chhetri, Z Zhang*. Three-dimensional vocal fold deformation under simulated lateral cricoarytenoid muscle activation in an excised human larynx. The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Canada, 2019.
L Wu, Zhaoyan Zhang*. A computational study of vocal fold dehydration during phonation. The 5th Joint meeting of the Acoustical Society of America and the Acoustical Society of Japan, 140(4): 3395, 2016.
B Jing, S Tang, L Wu, S Wang, M Wan*. High speed imaging and measurement of laryngeal vibration during phonation using ultrafast ultrasonography: a preliminary study. IEEE International Ultrasonics Symposium, Taipei, Taiwan, 2015.
C Wan, E Wang, L Wu, S Wang. Design and evaluation of an electrolarynx with Mandarin tone-control function.International Conference on Audio, Language and Image Processing, Shanghai, pp. 627-631, 2012.
吴亮,万聪颖, 牛志峰, 王素品, 万明习. 一种电子喉语音重建与交流系统. 2011年中国生物医学工程联合学术年会, 武汉, 青年论文竞赛一等奖.




Patents
万明习,张聪,吴亮,王素品. 声带振动发声效率测量系统及其测量方法.ZL 5.0,授权时间:2017.10.20.(国家发明专利)
万明习,吴亮,付然飞,王素品. 基于差频超声的音频声源产生和气道特性测试方法与系统.ZL 4.9,授权时间:2017.6.6.(国家发明专利)
M Wan, L Wu, S Wang, Z Niu, C Wan. Electrolaryngeal speech reconstruction method and system thereof. Patent No. US 8,650,027 B2, 授权时间:2014.2.11. (美国发明专利)
万明习,吴亮,王素品,牛志峰,万聪颖. 一种电子喉语音重建方法及其系统.ZL 8.1,授权时间:2012.7.4.(国家发明专利)
万明习,吴亮,王素品,吴辉雄,刘菲,翟健东. 一种自动调节的咽腔电子喉语音通讯系统.ZL 7.3,授权时间:2011.2.9.(国家发明专利)







Resources - 吴 亮


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