● 2004.6 -至今：复旦大学电子工程系 讲师、副教授、教授

● 2009.9：芬兰Jyväskylä大学访问学者

● 2006.7-12： 加拿大Alberta大学访问学者

● 2004年：复旦大学电子科学与技术博士后流动站出站

● 2002年： 获同济大学声学研究所声学专业理学博士学位

● 1999年：获陕西师范大学应用声学所声学专业硕士学位

● 1996年： 获陕西师范大学物理系物理学专业学士学位

● 本科生课程：电磁场与电磁波，电磁生物效应及医学应用

● 研究生课程：医学超声学，硬组织超声诊断原理及应用

● 智慧医疗超声

● 医学信号处理

● 医学超声诊断系统研制

● 超声检测

● 超声导波的产生传播及其在医学和工业无损检测(NDE&T)中的应用

● 国家自然科学基金重点项目“多层复杂生物组织中超声传播和调控新机理及其信息深度挖掘方法研究”

● 国家重大科研仪器研制项目“跨尺度高分辨率的多模态超声骨成像方法及仪器研制”

● 国家杰出青年科学基金项目“医学超声检测”

● 国家自然科学基金委科技活动专项“2020年全国声学大会”

● 国家自然科学基金科学仪器专项 “骨骼系统超声测试与分析的理论研究及实验仪器研制”

● 国家自然科学基金面上项目 “长骨疲劳评价的编码超声导波方法研究”

● 国家自然科学基金面上项目 “超声柱面导波动态监测与评价骨折愈合过程的研究”

● 国家自然科学基金面上项目 “超声导波评价长骨状况的研究”

● 国家自然科学基金青年项目 “超声评价松质骨状况的参量及方法研究”

● 国家自然科学基金国际合作交流项目“超声评价骨强度的定量生物标记”

● 国家自然科学基金国际合作交流项目 “时频方法分析长骨中超声导波信号的研究”

● 国家自然科学基金青年项目 “评价长骨的超声激发振动声导波方法研究” (负责人：许凯亮)

● 国家自然科学基金青年项目 “超声背散射法评价松质骨各向异性微结构的方法研究”(负责人：刘成成)

● 上海市科委国际合作项目 “骨骼中超声导波信号的相控阵激发、检测及信息处理方法研究”

● 上海市优秀学术带头人计划“智能超声评价人体肌骨系统的理论及方法研究”

● 上海市重点科技攻关项目 “松质骨状况的超声诊断技术及系统优化”

● 上海市科技支撑项目 “松质骨超声诊断仪的关键技术研究及系统优化”

● 上海市青年科技启明星计划项目 “评价长骨皮质骨状况的超声导波技术研究”

● 上海市自然科学基金项目 “松质骨组织的超声成像方法研究”

● 2019年：获中国声学学会“魏荣爵奖”(第二届)

● 2019年：获第21届中国国际工博会高校展区优秀展品奖“特等奖”

● 2019年：入选国家级人才

● 2019年：入选上海市优秀学术带头人计划

● 2019年：获上海市育才奖

● 2019年：获复旦大学“钟扬式”科研团队称号

● 2019年：获复旦大学十佳“三好”研究生导学团队称号

● 2019年：获第47届日内瓦国际发明金奖

● 2018年：获上海市自然科学二等奖

● 2018年：获第20届高交会“优秀产品奖”

● 2018年：《声学技术》优秀编委

● 2017年：入选科技部中青年科技创新领军人才

● 2016年：教育部科技进步二等奖

● 2016年：复旦大学信息科学与工程学院“院长奖”

● 2015年：国家杰出青年科学基金

● 2013年：第25界上海市优秀发明选拔赛优秀发明金奖

● 2013年：上海市声学学会首届“魏墨盦声学奖”(2012年)

● 2013年：复旦大学信息科学与工程学院“院长奖”

● 2010年：教育部新世纪优秀人才

● 2009年：复旦大学信息科学与工程学院“院长奖”

● 2007年：上海市青年科技启明星人才

● 2006年：上海高校选拔培养优秀青年教师

● 2006年：复旦大学优秀博士后奖

● 2006年：复旦大学“世纪之星”综合培养计划

● 加拿大Alberta大学兼职教授、重庆大学兼职教授

● 近代声学教育部重点实验室(南京大学)学术委员会委员

● 中国科学院健康信息学重点实验室学术委员会委员

● 中国声学学会副理事长、生物医学超声工程分会主任委员、检测声学分会委员

● 医工整合联盟副理事长(2016-2021)

● 中国科协第九次全国代表大会代表(2016-2021)

● 中国生物医学工程学会医学超声工程分会副主任委员

● 中国医学装备协会超声装备技术分会治疗超声专委员副主任委员

● 中国超声医学工程学会仪器开发专委会常务委员

● 中国医师协会超声分子影像及人工智能专业委员会常务委员

● 中国研究型医院学会超声医学专业委员会常务委员

● 全国声学科学技术名词审定委员会委员

● 上海市声学学会理事

● 上海市生物医学工程学会理事、超声医学工程专委会副主任委员

● 上海市医学会数字医学专委会委员

● 《Ultrasound in Medicine & Biology》Advisory Editorial Board

● 《Journal of Biomedical and Bioengineering》Associate Editor

● 《Advances in Medical Informatics》Associate Editor

● 《中国医学影像技术》常务编委

● 《生物医学工程与临床》第四届编委

● 《声学技术》编委

● 2017年：论文“统计分布模型用于超声背散射评价松质骨状况”获西安-上海声学学会第五届声学学术交流会议优秀论文(刘成成等)

● 2014年：论文“多通道超声导波法检测板状结构中的缺陷”获全国检测声学会议优秀论文(张正罡等)

● 2013年：第六届复旦大学博士生论坛信息科学与技术篇三等奖 (刘丹)

● 2013年：论文“自适应滤波-倒谱法估计骨小梁间距”获中国西部声学会议优秀论文(许怿文等)

● 2013年：第一届“TI杯”关爱健康医疗电子创意创新设计大赛二等奖(许怿文等)

● 2013年：上海市物理学会“2013上海高校研究生创新论坛”一等奖(刘成成)

● 2013年：上海市物理学会“2013上海高校研究生创新论坛”优秀奖(张慧琳)

● 2013年：上海市物理学会“2013上海高校研究生创新论坛”优秀奖(刘丹)

● 2007年：”The feasibility of estimating mean trabecular bone spacing using a simplified inverse filter tracking (SIFT) algorithm.” Best poster awards. 8th Ann Alberta Biomed EngConf, Canada(黄凯等)

● 2005年：论文“松质骨中两种纵波的传播特性分析”获教育部科技发展中心科技论文在线优秀论文奖

● 2005年：论文“管道导波检测中激发频率的选择及灵敏度分析”获教育部科技发展中心科技论文在线优秀论文奖

● 2004年：论文“超声背散射信号及其相关参量在松质骨评价中的应用”获首届上海超声医学论坛优秀论文奖.(由上海市声学学会、上海市生物医学工程学会、上海市医学会和上海市超声医学工程学会联合发)

[1] Qinzhen Shi#, Yifang Li#, Yuan Liu, Meilin Gu, Xiaojun Song, Chengcheng Liu*,Dean Ta*, Weiqi Wang. Index-rotated Fast Ultrasound Imaging of Cortical Bone Based on Predicted Velocity Model. IEEE Trans UFFC, 2022

[2] Meilin Gu#, Yifang Li#, Qinzhen Shi, Tho Tran, Xiaojun Song, Dan Li*,Dean Ta*. Meta-learning Analysis of Ultrasonic Guided Waves for Coated Cortical Bone Characterization. IEEE Trans UFFC, 2022

[3] Chen Jiang, Chengcheng Liu*, Yiqiang Zhan*,Dean Ta*. The Spectrum-Beamformer for Conventional B-Mode Ultrasound Imaging System: Principle, Validation, and Robustness. Ultrasonic Imaging. 2022

[4] Honglei Chen, Kailiang Xu*, Zenghua Liu,Dean Ta. Sign coherence factor-based search algorithm for defect localization with laser generated Lamb waves. Mechanical Systems and Signal Processing, 2022，173: 109010

[5] Meilin Gu, Yifang Li, Tho N.H.T. Tran, Xiaojun Song, Qinzhen Shi, Kailiang Xu*,Dean Ta*. Spectrogram decomposition of ultrasonic guided waves for cortical thickness assessment using basis learning. Ultrasonics 2022,120: 106665

[6] Liang Tang#, Tianpei Wu#, Yaling Zhou, Yi Zhong, Lijun Sun, Jianzhong Guo, Xiushan Fan*,Dean Ta*. Study on synergistic effects of carboxymethyl cellulose and LIPUS for bone tissue engineering. Carbohydrate Polymers, 2022: 286: 119278

[7] Ting Feng, Yejing Xie, Weiya Xie, Yingna Chen, Peng Wang, Lan Li, Jing Han,Dean Ta, Liming Cheng*, Qian Cheng*. Characterization of multi-biomarkers for bone health assessment based on photoacoustic physicochemical analysis method. Photoacoustics; 2022: 25: 100320

[8] Hualiang Zhao, Chuanxin Zhang, Jiajie He, Ying Li, Boyi Li, Xue Jiang*,Dean Ta*. Nondestructive evaluation of special defects based on ultrasound metasurface. Frontiers in Materials, 2022; 8: 802001.

[9] Tho N. H. T. Tran, Lawrence H Le*,Dean Ta*. Analysis of Ultrasonic Guided Wave Propagation in Multi-Layered Bone Structure with Varying Soft-Tissue Thickness in View of Cortical Bone Characterization. IEEE Trans UFFC, 2022；69(1): 147-155.

[10] Xue Jiang*, JiaJie He, ChuanXin Zhang, HuaLiang Zhao, WeiQi Wang,DeAn Ta*, Cheng-Wei Qiu*. Three-dimensional ultrasound subwavelength arbitrary focusing with broadband sparse metalens. SCIENCE CHINA Physics, Mechanics & Astronomy, 2022; 65(2): 224311

[11] Zhengfen Jiang, Boyi Li, Tho N H T Tran, Jiehui Jiang, Xin Liu*,Dean Ta*. Fluo-Fluo translation based on deep learning. Chinese Optics Letters, 2022; 20(3): 031701

[12] Mengyang Lu, Xin Liu*, Chengcheng Liu, Boyi Li, Wenting Gu, Jiehui Jiang,Dean Ta*. Artifact removal in photoacoustic tomography with an unsupervised method. Biomedical Optics Express, 2021; 12(10): 6284-6299

[13] Jiajie He, Xue Jiang*, Hualiang Zhao,Dean Ta*, Weiqi Wang. Frequency distillation with dispersive reflector for multitone ultrasound perception. Appl Phys Lett, 2021; 119: 144102.

[14] Jianing Xi#, Jiangang Chen#, Zhao Wang, Dean Ta, Bing Lu, Xuedong Deng, Xuelong Li, Qinghua Huang*. Simultaneous Segmentation of Fetal Hearts and Lungs for Medical Ultrasound Images via an Efficient Multi-scale Model Integrated With Attention Mechanism. Ultrasonic Imaging, 2021; 43(6) 308–319

[15] Liang Tang#, Wenxin Cao#, Tingting Zhao, Kang Yu, Lijun Sun, Jianzhong Guo, Xiushan Fan*,Dean Ta*. Weight-bearing exercise prevents skeletal muscle atrophy in ovariectomized rats. Journal of Physiology and Biochemistry, 2021; 77(1): 273-281.

[16] Ting Feng, Yuxiang Ge, Yejing Xie, Weiya Xie, Chengcheng Liu, Lan Li,Dean Ta, Qing Jiang*, Qian Cheng*. Detection of collagen by multi-wavelength photoacoustic analysis as a biomarker for bone health assessment. Photoacoustics, 2021; 24: 100296.

[17] Jiajie He, Xue Jiang*, Hualiang Zhao, Chuanxin Zhang, Yan Zheng, Chengcheng Liu,Dean Ta*. Broadband Three-Dimensional Focusing for an Ultrasound Scalpel at Megahertz Frequencies. Phys Rev Applied, 2021, 16: 024006

[18] Yifang Li, Qinzhen Shi, Yuan Liu, Meilin Gu, Chengcheng Liu, Xiaojun Song,Dean Ta*, Weiqi Wang. Fourier-Domain Ultrasonic Imaging of Cortical Bone Based on Velocity Distribution Inversion. IEEE Trans UFFC,2021,68(8): 2619-2634

[19] Duwei Liu, Boyi Li*, Dongsheng Bi, Tho N H T Tran, Yifang Li, Dan Liu, Ying Li,Dean Ta*. Assessment of cortical bone fatigue using coded nonlinear ultrasound. Chin Phys B, 2021, 30 (9): 094301

[20] Dongsheng Bi, Zhongquan Dai, Duwei Liu, Feng Wu, Chengcheng Liu, Ying Li, Boyi Li, Zhili Li, Yinghui Li,Dean Ta*. Ultrasonic backscatter measurements of human cortical and trabecular bone densities in a head-down bed rest study. Ultrasound in Med Biol., 2021; 47(8): 2404-2415

[21] Tho N. H. T. Tran#, Feng He#, Zhenggang Zhang, Mauricio D Sacchi,Dean Ta*, Lawrence H Le*. Single Versus Multi-channel Dispersion Analysis of Ultrasonic Guided Waves Propagating in Long Bones. Ultrasonic imaging, 2021; 43(3): 157-163

[22] Yifang Li, Kailiang Xu*, Ying Li, Feng Xu,Dean Ta*, Weiqi Wang. Deep learning analysis of ultrasonic guided waves for cortical bone characterization. IEEE Trans UFFC,2021,68(4): 935-951

[23] Qi Chen, Kailiang Xu*, Dean Ta*. High-resolution Lamb waves dispersion curves estimation and elastic property inversion. Ultrasonics, 2021; 115: 106427.

[24] Husnain Shahid, Adnan Khalid, Xin Liu, Muhammad Irfan, Dean Ta*. A deep learning approach for the photoacoustic tomography recovery from undersampled measurements. Frontiers in Neuroscience, 2021; 15: 598693.

[25] Weiya Xie#, Ting Feng#, Mengjiao Zhang, Jiayan Li, Dean Ta, Liming Cheng*,Qian Cheng*. Wavelet Transform-based Photoacoustic Time-frequency Spectral Analysis for Bone Assessment. Photoacoustics, 2021; 22: 100259

[26] Xue Jiang#*, Nengyin Wang#, Chuanxin Zhang, Xinsheng Fang, Shengquan Li, Xiaoyu Sun, Yong Li,Dean Ta*, Weiqi Wang. Acoustic orbital angular momentum prism for efficient vortex perception. Appl Phys Lett, 2021; 118: 071901.

[27] Shuxin Sun, Liang Tang, Tingting Zhao, Yiting Kang, Lijun Sun, Chengcheng Liu, Ying Li, Feng Xu, Yi-Xian Qin,Dean Ta*. Longitudinal effects of low-intensity pulsed ultrasound on osteoporosis and osteoporotic bone defect in ovariectomized rats. Ultrasonics, 2021; 113: 106360.

[28] Yifang Li, Qinzhen Shi, Ying Li, Xiaojun Song, Chengcheng Liu*,Dean Ta*, Weiqi Wang. High-resolution bone microstructure imaging based on ultrasonic frequency-domain full-waveform inversion. Chinese Physics B, 2021; 30(1): 014302.

[29] Chen Jiang, Ying Li, Kailiang Xu*,Dean Ta*. Full-matrix phase shift migration method for transcranial ultrasonic imaging. IEEE Trans UFFC, 2021, 68(1): 72-83.

[30] Liang Tang, Shasha An, Zhihao Zhang, Xiushan Fan, Jianzhong Guo, LijunSun*,Dean Ta*. MSTN is a key mediator for low-intensity pulsed ultrasound preventing bone loss in hindlimb- suspended rats. Bone, 2021, 143: 115610.

[31] Ting Feng, Yejing Xie, Weiya Xie, Dean Ta, Qian Cheng*. Bone Chemical Composition Analysis Using Photoacoustic Technique, Frontiers in Physics, 2020, 8: 601180

[32] Ting Feng, Yunhao Zhu, Yejing Xie,Dean Ta, Jie Yuan*, and Qian Cheng*, Feasibility study for bone health assessment based on photoacoustic imaging method, Chinese Optics Letter, 18(12), 2020.

[33] Xue Jiang*,Dean Ta*, Weiqi Wang. Modulation of orbital-angular-momentum symmetry of nondiffractive acoustic vortex beams and realization using a metasurface. Physical Review Applied, 2020; 14: 034014

[34] Jiajie He, Xue Jiang*,Dean Ta*, Weiqi Wang. Experimental demonstration of underwater ultrasound cloaking based on metagrating. Appl. Phys. Lett., 2020, 117: 091901.

[35] Xue Jiang*, Yong Li,Dean Ta*, Weiqi Wang. Ultrasonic sharp autofocusing with acoustic metasurface, Physical Review B, 2020, 102: 064308

[36] Weiying Mao, Yang Du, Chengcheng Liu, Boyi Li,Dean Ta, Chao Chen, Rong Zhang*. A combined ultrasonic backscatter parameter for bone status evaluation in neonates. Computational and Mathematical Methods in Medicine. 2020, 3187268, doi.org/10.1155 /2020/3187268

[37] Chen Jiang, Dan Li, Feng Xu, Ying Li, Chengcheng Liu,Dean Ta*. Numerical evaluation of the influence of skull heterogeneity on transcranial ultrasonic focusing. Frontiers in Neuroscience. 2020, 14: 317. doi: 10.3389/fnins.2020.00317.

[38] Liang Tang, Yiting Kang, Shuxin Sun, Tingting Zhao, Wenxin Cao, Xiushan Fan, Jianzhong Guo, Lijun Sun*,Dean Ta*. Inhibition of MSTN signal pathway may participate in LIPUS preventing bone loss in ovariectomized rats. J of Bone and Mineral Metabolism. 2020; 38: 14-26.

[39] Chengcheng Liu, Boyi Li, Ying Li, Weiying Mao, Chao Chen, Rong Zhang*,Dean Ta. Ultrasonic backscatter difference measurement of bone health in preterm and term newborn infants. Ultrasound in Med & Biol, 2020, 46(2): 305-314.

[40] Shuxin Sun, Lijun Sun, Yiting Kang, Liang Tang, Yi-Xian Qin,Dean Ta*. Therapeutic effects of low-intensity pulsed ultrasound with intensity sensitive on osteoporosis in rats. Ultrasound in Med & Biol, 2020, 46(1): 108-121.

[41] Tho Tran, Mauricio D. Sacchi,Dean Ta, Vu-Hieu Nguyen, Edmond Lou, Lawrence H. Le*. Nonlinear inversion of ultrasonic dispersion curves for cortical bone thickness and elastic velocities. Annals of Biomedical Engineering, 2019; 47(11): 2178-2187.

[42] Chen Jiang, Yunqing Li, Boyi Li, Chengcheng Liu, Kailiang Xu,Dean Ta. Ray theory based transcranial phase correction for intracranial imaging: A phantom study. IEEE Access, 2019; 7：1630313-1630321

[43] Weiying Mao, Yang Du, Chengcheng Liu, Boyi Li,Dean Ta, Chao Chen, Rong Zhang*. Ultrasonic backscatter technique for assessing and monitoring neonatal cancellous bone status in vivo. IEEE Access, 2019; 7: 157417-157426

[44] 李云清, 江晨,李颖, 徐峰, 许凯亮*,他得安*, 黎仲勋. 基于多层声速模型的合成孔径超声皮质骨成像. 物理学报，2019; 68(18): 184302

[45] 东蕊, 刘成成*, 蔡勋兵, 邵留磊, 李博艺,他得安*. 超声背散射骨质评价中的频散衰减测量与补偿. 物理学报. 2019, 68 (18): 184301

[46] Lijun Sun, Shuxin Sun, Xinjuan Zhao, Jing Zhang, Jianzhong Guo, Liang Tang*,Dean Ta*. Inhibition of myostatin signal pathway may be involved in low-intensity pulsed ultrasound promoting bone healing. Journal of Medical Ultrasonics, 2019; 46(4): 377-388.

[47] Ying Li, Boyi Li, Yifang Li, Chengcheng Liu*, Feng Xu, Rong Zhang，Dean Ta*, Weiqi Wang. The ability of ultrasonic backscatter parametric imaging to characterize bovine trabecular bone, Ultrasonic Imaging, 2019; 41(5): 271-289

[48] 第五强强, 李博艺, 李颖, 徐峰, 刘成成,他得安*.有监督学习的超声背散射方法在骨质评价中的应用. 声学学报，2019; 44(5): 818-825.

[49] Zhenli Liu; Kailiang Xu*, Dan Li,Dean Ta*, Weiqi Wang. Automatic mode extraction of ultrasonic guided waves using synchrosqueezed wavelet transform. Ultrasonics, 2019; 99: 105948.

[50] Boyi Li, Feng Xu*, Chengcheng Liu, Dan Li, Lawrence H. Le,Dean Ta*, Weiqi Wang. Effect of spectral estimation on ultrasonic backscatter parameters in measurements of cancellous bones. IEEE Access, 2019; 7: 83034-83045.

[51] Dan Li, Xu Yan, Zheng Xu*,Dean Ta*. Long-distance shift of ultrasonic beam using a thin plate with periodic gratings. Ultrasonics, 2019; 95: 32-36.

[52] Chengcheng Liu, Rui Dong, Boyi Li, Ying Li, Feng Xu,Dean Ta*, Weiqi Wang. Ultrasonic backscatter characterization of cancellous bone using a general Nakagami statistical model. Chinese Physics B, 2019; 28(2): 024302.

[53] Chengcheng Liu, Boyi Li, Qiangqiang Diwu, Ying Li, Rong Zhang,Dean Ta*, Weiqi Wang. Relationships of ultrasonic backscatter with bone densities and microstructure in bovine cancellous bone. IEEE Tran UFFC, 2018, 65(12): 2311-2321.

[54] Dan Li, Ming Shi, Feng Xu, Chengcheng Liu, Jianqiu Zhang*,Dean Ta. A new approach to guided wave ray tomography for temperature-robust damage detection using piezoelectric sensors. Sensors, 2018;18, 3518; doi:10.3390/s18103518.

[55] Liang Bai, Kailiang Xu*, Dan Li,Dean Ta*, Lawrence H Le, Weiqi Wang. Fatigue evaluation of long cortical bone using ultrasonic guided waves. J of Biomechanics, 2018,77: 83-90

[56] Jiangang Chen, Jiawei Li, Xin Ding, Cai Chang, Xiaoting Wang,Dean Ta*. Automated identification and localization of the inferior vena cava using ultrasound: an animal study. Ultrasonic Imaging, 2018; 40(4): 232-244.

[57] Ying Li, Boyi Li, Feng Xu*, Chengcheng Liu,Dean Ta*, Weiqi Wang. Ultrasonic backscatter measurements at the calcaneus: an in vivo study. Measurement, 2018; 122: 128-134.

[58] Xingxing Chou, Feng Xu, Ying Li, Chengcheng Liu*,Dean Ta*, Lawrence Le. Variability in ultrasound backscatter induced by trabecular microstructure deterioration in cancellous bone. BioMed Res Int, 2018：4786329.

[59] Liang Tang, Nan Li, Wenqi Jian, Yiting Kang, Bo Yin, Shuxin Sun, Jianzhong Guo, Lijun Sun*,Dean Ta*. Low-intensity pulsed ultrasound prevents muscle atrophy induced by type 1 diabetes in rats. Skeletal Muscle, 2017, 7:29, DOI 10.1186/s13395-017-0145-7.

[60] Dan Li, Hao Yu, Feng Xu, Dapeng Liu, Jianqiu Zhang,Dean Ta. An lp -norm approach to robust probabilistic inspection of plate-like structure defects with guided waves. Smart Materials and Structures, 2017; 26(10): 104003.

[61]Liang Tang, Jing Zhang, Xinjuan Zhao, Nan Li, Wenqi Jian, Jianzhong Guo, Lijun Sun,Dean Ta. Low-intensity pulsed ultrasound promotes exercise-induced muscle hypertrophy. Ultrasound in Med & Biol, 2017, 43(7): 1411-1420.

[62] Ying Li, Dan Liu, Kailiang Xu,Dean Ta, Lawrence H Le, Weiqi Wang. Transverse and oblique long bone fracture evaluation by low order ultrasonic guided waves: a simulation study. BioMed Research International, 2017：3083141. (Doi: 10.1155/2017/3083141).

[63] Kailiang Xu, Jean-Gabriel Minonzio,Dean Ta, Bo Hu, Weiqi Wang, Pascal Laugier. Sparse SVD method for high-resolution extraction of the dispersion curves of ultrasonic guided waves. IEEE Tran UFFC, 2016, 63(10): 1514-1524.

[64] Kailiang Xu,Dean Ta, Didier Cassereau, Bo Hu, Weiqi Wang, Pascal Laugier, Jean-Gabriel Minonzio. Multichannel processing for dispersion curves extraction of ultrasonic axial- transmission signals: Comparisons and case studies. J. Acoust. Soc. Am., 2016; 140(3): 1758-1770.

[65] Chengcheng Liu, Feng Xu,Dean Ta, Tao Tang, Yunqi Jiang, Jian Dong, Wenping Wang, Xindang Liu, Yi Wang, Weiqi Wang. Measurement of human calcaneus in vivo using ultrasonic backscatter spectral centroid shift. Journal of Ultrasound in Medicine, 2016; 35(10): 2197-2208.

[66] Xiaojun Song, Petro Moilanen, Zuomin Zhao,Dean Ta*, Jalmari Pirhonen, Ari Salmi, Edward Hæeggström, Risto Myllylä, Jussi Timonen, Weiqi Wang. Coded excitation speeds up the detection of the fundamental flexural guided wave in coated tubes. AIP Advances, 2016; 6(9): 095001

注：*为通讯作者