Achievement

Current Location: Home - Achievement - Thesis

2023

1.Qinzhen Shi, Tianhua Zhou, Lingwei Shi, Yuan Liu, Yucheng He, Yifang Li*, Dean Ta*. A 3-D Ultrasound Tomography Method for Bone Morphology Evaluation. IEEE Trans on Computational Imaging, 2023.

2.Qian Zheng, Mengyao Liu, Min He, Shuxin Sun, Chengcheng Liu, Ying Li, Lixin Jiang*, Dean Ta*. Low-Intensity Pulsed Ultrasound Promotes the Repair of Achilles Tendinopathy by Downregulating the JAK/STAT Signaling Pathway in Rabbits. IEEE Tran on UFFC, 2024; 71(1): 141-152.

3.Yifang Li*, Qinzhen Shi, Yunyun Zhang, Lexiu Xu, Wenyu Xing, Xiaojun Song, Boyi Li, Qiang Xie, Dean Ta*. Ultrasound Imaging of Bone Cortex Using Block-based Reconstruction. IEEE Trans on Computational Imaging, 2023; 9: 1176-1187.

4.Mengyao Liu#, Qian Zheng#, Yiwen Zheng#, Yijing Yao, Rui Wang, Lixin Jiang*, Dean Ta. Combined assessment of 2D ultrasound and real-time shear wave elastography of LIPUS therapy efficacy in Achilles tendinopathy. Ultrasound Med Biol, 2023

5.Yan Zheng, Chen Li, Chuanxin Zhang, Jiajie He, Xue Jiang*, Dean Ta*. Distinct thermal effect on biological tissues using subwavelength ultrasound metalens at megahertz. iScience. 2023; 26(10): 107929

6.Dongsheng Bi, Lingwei Shi, Boyi Li, Ying Li, Chengcheng Liu, Lawrence H Le, Jingchun Luo, Sijia Wang, Dean Ta. The Protocol of Ultrasonic Backscatter Measurements of Musculoskeletal Properties. Phenomics; 2023

7.Meng Wang, Yi Lin, Feifei Gu, Wenyu Xing, Boyi Li, Xue Jiang, Chengcheng Liu, Dan Li, Ying Li*, Yi Wu, Dean Ta. Diagnosis of cognitive and motor disorders levels in stroke patients through explainable machine learning based on MRI. Med Phys, 2023:16683.

8.Chuanxin Zhang, Jiajie He, Xue Jiang*, Dean Ta*.Inverse-Design Methodology for Generating Twisted Ultrasonic Motor in Free Space. Advanced Intelligent Systems. 2023, 5: 2300255. DOI: 10.1002/aisy. 202300255

9.Xin Liu, Boyi Li, Chengcheng Liu, Dean Ta*. Virtual Fluorescence Translation for Biological Tissue by Conditional Generative Adversarial Network. Phenomics; 2023, (3): 408-420

10.程双毅,郁钧瑾,付亚鹏,他得安,许凯亮.非线性造影超声成像数值仿真方法.物理学报,2023;72(15): 154302

11.张芸芸,李义方,石勤振,许乐修,戴菲,邢文宇,他得安.基于相位迁移的超声平面波多层皮质骨成像.物理学报,2023;72(15): 154303

12.Chen jiang, Boyi Li, Linru Xie, Chengcheng Liu, Kailiang Xu*, Yiqiang Zhan, Dean Ta*. Ray theory- based compounded plane wave ultrasound imaging for aberration corrected transcranial imaging: Phantom experiments and simulations. Ultrasonics, 2023; 135: 107124

13.Hong Zhu, Min He, Yong-Li Wang, Yuanxin Zhang, Jingsong Dong, Bo-Yan Chen, Yu-Lin Li, Lu-Jun Zhou, Lin-Juan Du, Yuan Liu, Wu-Chang Zhang, Dean Ta*, Sheng-Zhong Duan*. Low-intensity pulsed ultrasound alleviates doxorubicin-induced cardiotoxicity via inhibition of S100a8/a9-mediated cardiacrecruitment of neutrophils. Bioengineering & Translational Medicine. 2023; e10570. doi:10.1002/btm2.105

14.Chenchen Zhou, Kailiang Xu*, Dean Ta. Frequency-domain full-waveform inversion-based musculoskeletal ultrasound computed tomography. J. Acoust. Soc. Am. 2023; 154 (1): 279-294.

15.Weiyang Kong, Yuebin Wang, Dan Li*, Boyi Li, Kailiang Xu, Jian Qiu Zhang, Dean Ta. A Bayesian Filtering Approach to Multimode Separation and Retrieval of Ultrasonic Guided Waves. IEEE Trans UFFC, 2023; 70(7): 721-735

16.Ting Feng+,*, Yihan Zhu+, Xiaoxiang Gao, Weiya Xie, Haigang Ma, Liming Cheng, Dean Ta, Qian Cheng. Nakagami statistics-based photoacoustic spectroscopy used for label-free assessment of bone tissue, Optics Letters, 48(3), 2023.

17.Kehua Sun,Dan Li, Mingfang Zheng, Qinzhen Shi, Jianqiu Zhang,Dean Ta. A New Model of Ultrasonic Guided Wave Propagation in Blood Vessels and Its Propagation Characteristics. Applied Sciences, 2023; 13: 7159.

18.Tianyu Liu, Yingzhi Ye, Chengcheng Liu*, Jing Chen*, Yuehua Liu, Wenyu Xing, Dean Ta. Key-point based automated diagnosis for alveolar dehiscence in mandibular incisors using convolutional neural network. Biomedical Signal Processing and Control, 2023;85: 105082

19.Zijian Wang, Jingyi Xiao, Dan Li*, Boyi Li*, JianQiu Zhang, Dean Ta. Full Waveform Inversion Guided Wave Tomography with a Recurrent Neural Network. Ultrasonics, 2023; 133: 107043.

20.Feiyao Ling, Honglei Chen, Yanfeng Lang, Zhibo Yang, Kailiang Xu*, Dean Ta. Lamb wave tomography for defect localization using wideband dispersion reversal method. Measurement. 2023; 216: 112965.

21.Xingyi Guo, Dean Ta, Kailiang Xu*. Frame Rate Effects and Their Compensation on Super-Resolution Microvessel Imaging Using Ultrasound Localization Microscopy. Ultrasonics, 2023; 132: 107009

22.Yuefu Chen#, Shuxin Sun#, Xinyan Zhou, Min He, Ying Li*, Chengcheng Liu*, Dean Ta.Low-intensity pulsed ultrasound and parathyroid hormone improve muscle atrophy in estrogen deficiency mice. Ultrasonics, 2023; 132: 106984

23.Xinyan Zhou#, Shuxin Sun#, Yuefu Chen, Chengcheng Liu, Dan Li, Qun Cheng, Min He, Ying Li*, Kailiang Xu*, Dean Ta*.Pulsed Frequency Modulated Ultrasound Promotes Therapeutic Effects of Osteoporosis Induced by Ovarian Failure in Mice. Ultrasonics, 2023; 132: 106973

24.Dongsheng Bi, Chengcheng Liu*, Zhongquan Dai, Zhili Li, Ying Li, Boyi Li*, Dan Li, Linjie Wang, Lina Qu, Yinghui Li, Dean Ta. Human Bone Loss Assessed by High‑Resolution Peripheral Quantitative Computed Tomography and Ultrasonic Transmission Techniques. Microgravity Science and Technology, 2023, 35:12

25.Wenting Gu, Boyi Li, Jianwen Luo, Zhuangzhi Yan*, Dean Ta, Xin Liu*. Ultrafast Ultrasound Localization Microscopy by Conditional Generative Adversarial Network, IEEE Trans UFFC, 2023;70(1): 25-40.

26.Chuanxin Zhang, Xue Jiang*, Jiajie He, Ying Li, Dean Ta*. Spatiotemporal Acoustic Communication by a Single Sensor via Rotational Doppler Effect. Advanced Science, 2023; 10(10): 2206619

27.Honglei Chen, Feiyao Ling, Wujun Zhu, Di Sun, Xiaoyu Liu, Ying Li*, Dan Li, Kailiang Xu*, Zenghua Liu, Dean Ta. Waveform inversion for wavenumber extraction and waveguide characterization using ultrasonic Lamb waves. Measurement, 2023: 207: 112360

28.Dongsheng Bi, Lingwei Shi, Chengcheng Liu, Boyi Li, Ying Li, Lawrence H.Le, Jingchun Luo, Sijia Wang, Dean Ta*. Ultrasonic through-transmission measurements of human musculoskeletal and fat properties. Ultrasound Med Biol, 2023; 49(1): 347-355

29.Wenyu Xing, Guannan Li, Chao He, Qiming Huang, Xulei Cui, Qingli Li, Wenfang Li, Jiangang Chen*, Dean Ta*. Automatic detection of A-line in lung ultrasound imagesusing deep learning and image processing. Med Phys, 2023; 50: 330-343.

30.封婷†,解维娅†,徐文逸,高雅,刘腾,他得安,钱梦騄,程茜*.光声骨检测研究进展.科学通报(拓扑声学与多相孔隙介质声学专题), 2023, 68(26): 3437-3454.

31.贾琰,陈玥甫,江晨,孙舒心,刘成成*,他得安.动态监测骨质疏松性微结构退化的超声全波反演方法研究.声学学报,2023. 48(6).

32.M.Lu, W. Shi, Z. Jiang, B. Li, D. Ta, and X. Liu*. Deep learning method for cell count from transmitted-light microscope. J. Innov. Opt. Heal. Sci., 2350004, 2023.

33.Y. Song, M. Lu, Y. Xie, G. Sun, J. Chen, H. Zhang, X. Liu,* F. Zhang, and L. Sun*, Deep Learning Fluorescence Imaging of Visible to NIR-II Based on Modulated Multimode Emissions Lanthanide Nanocrystals. Advanced Functional Materials, 2206802, 2022.

34.闫少渊,许凯亮,他得安.多倾角发射分组互相关降噪的超快超声脑功能成像方法研究.复旦学报(自然科学版). 2023,62(04):409-418.

35.Kailiang Xu, Shaoyuan Yan, Jianping Song*. Ultrafast Doppler Imaging of Brain Arteriovenous Malformation. World Neurosurgery, 177, 3-4, 2023.

36.Shaoyuan Yan, Jiajun Shou, Junjin Yu, Jianping Song*, Ying Mao and Kailiang Xu*. Ultrafast Ultrasound Vector Doppler for Small Vasculature Imaging. IEEE T. Ultrason. Ferr. Freq. Control, 70(7), 613-624, 2023.

37.Yan, Shaoyuan, Yapeng Fu, and Kailiang Xu. High-Intensity Focused Ultrasound Ablation Monitoring Using Ultrafast Doppler Imaging: A Preliminary Study. 2023 IEEE International Ultrasonics Symposium (IUS). IEEE, 2023.

38.Junjin Yu, Haoru Dong, Dean Ta, Rong Xie*, Kailiang Xu*. Super-Resolution Ultrasound Microvascular Angiography for Spinal Cord Penumbra Imaging. Ultrasound in Med. & Biol., 49 (9), 2140-2151, 2023.

39.Junjin Yu, Xingyi Guo, Shaoyuan Yan, Qiumin Le, Vincent Hingot, Dean Ta, Olivier Couture, and Kailiang Xu*. Randomized Channel Subsampling Method for Efficient Ultrafast Ultrasound Imaging, Measurement Science and Technology. 34 (8), 084005, 2023.

40.Yu, Junjin, et al. Spinal Cord Penumbra Restoration Monitoring during Chronic Phase Using Ultrasound Localization Microscopy. 2023 IEEE International Ultrasonics Symposium (IUS). IEEE, 2023.

41.付亚鹏,孙乾东,李博艺等.基于RCA阵列三维超快超声血流成像方法仿真研究.物理学报,2023,72(07):252-261.

42.Shaoyuan Yan*, Kailiang Xu# ,Hadamard Coded Multiplane Wave based Ultrafast Doppler for Rat Brain Imaging. ICU, 2023.

2022

1.Ying Li, Yi Lin, Boyi Li, Chengcheng Liu, Yi Wu, Dean Ta, Weiqi Wang. Experimental Study on Bone Phantom Imaging Using Ultrasound Velocity Inversion and Reverse Time Migration, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

2.Junjin Yu, Xingyi Guo, Yihui Sui, Jiajun Shou, Dean Ta, Rong Xie, Kailiang Xu. Ultrasound Localization Microscopy for Compression-Induced Spinal Cord Injury Evaluation, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

3.Shaoyuan Yan, Junjin Yu, Xingyi Guo, Yapeng Fu, Dean Ta, Kailiang Xu. Ultrasound Cerebral Vasculature Velocimetry: A Comparative Study between Ultrafast Vector Doppler and Ultrasound Localization Microscropy,2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

4.Jieshu Li, Ting Feng, Weiya Xie, Liming Cheng, Dean Ta, Qian Cheng. Hilbert-Huang Transform Based Photoacoustic Signal Analysis for Bone Assessment, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

5.Feiyao Ling, Honglei Chen, Dean Ta, Kailiang Xu. Wideband Dispersion Reversal Based Corrosion Inspection Using A0 Lamb Waves, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

6.Shuangyi Cheng, Junjin Yu, Xingyi Guo, Dean Ta, Kailiang Xu. Nonlinear Simulation of Amplitude Modulation Pulse Sequencing for Contrast-Enhanced Ultrasound (CEUS) Imaging, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

7.Shuhang Zheng, Feiyao Ling, Jean-Gabriel Minonzio, Dean Ta, Kailiang Xu. Orthogonal Matching Pursuit Based Sparse Dispersive Radon Transform for Ultrasonic Guided Mode Extraction, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

8.Yihui Sui, Xingyi Guo, Junjin Yu, Dean Ta, Kailiang Xu. Generative Adversarial Nets for Ultrafast Ultrasound Localization Microscopy Reconstruction, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

9.Wenting Gu, Zhuangzhi Yan, Boyi Li, Chengcheng Liu, Dean Ta, Dean Ta. GAN-based ultrasound localization microscopy, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

10.Boyi Li, Tianhua Zhou, Xin Liu, Chengcheng Liu, Tho N.H.T. Tran, Ying Li, Dan Li, Yifang Li, Dongsheng Bi, Dean Ta. A Photoacoustic Spectrum Feature Extraction Method to Characterize the Hydroxyapatite Degradation Process in Cortical Bone,2022 IEEEInternational Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

11.Qing Li, Tho N.H.T. Tran, Jialin Guo, Kailiang Xu, Boyi Li, Lawrence H. Le, Dean Ta. AI-Powered Measurement of Ultrasonic axial-Transmission Velocity for Pediatric Skeletal Development Evaluation, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

12.Gaobo Zhang, Yaoting Yue, Xin Liu*, Dean Ta*. Transformer for Ultrafast Ultrasound Localization Microscopy, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

13.Fei Dai, Xin Liu, Wenyu Xing, Dean Ta. An Automatic Ultrasonic Segmentation Method by Two-stage Semi-supervised Learning Strategy, 2022 IEEE International Ultrasonics Symposium (IUS), Venice, Italy, October 10-13, 2022

14.Chuanxin Zhang#, Xue Jiang#*, Shuai Han, Jiajie He, Yan Zheng, Boyi Li, Dean Ta*. Converged wireless infrastructure with acoustic holographic array. Appl Phys Rev, 2022: 9, 041413

15.Qinzhen Shi, Tianhua Zhou, Yifang Li*, Chengcheng Liu*, Dean Ta*. Deep Learning for TOF Extraction in Bone Ultrasound Tomography. IEEE Trans Computational Imaging. 2022; 8: 1063-1073.

16.Yaoting Yue, Nan Li, Gaobo Zhang, Zhibin Zhu, Xin Liu, Shaoli Song, Dean Ta*. Automatic segmentation of esophageal gross tumor volume in 18F-FDG PET/CT images via GloD-LoATUNet. Computer Methods and Programs in Biomedicine, 2022, 107266.

17.Weiya Xie+, Ting Feng+, Dong Yu, Dean Ta, Liming Cheng*, and Qian Cheng*. Photoacoustic characterization of bone physico-chemical information. Biomedical Optics Express, 13(5): 2668-2681, 2022.

18.Boyi Li, Chengcheng Liu, Xin Liu, Tho N H T Tran, Ying Li, Dan Li, Dongsheng Bi, Duwei Liu, Dean Ta*. Amplitude modulation excitation for cancellous bone evaluation using a portable ultrasonic backscatter instrumentation. Chin Phys B. 2022; 31 (11): 114303

19.Tho N H T Tran, Lawrence H Le*, Dean Ta*. Ultrasonic guided waves in bone: a decade of advancement in review. IEEE Trans UFFC, 2022; 69(10): 2875-2895.

20.Xiaojun Song, Tiandi Fan, Jundong Zeng, Qin-Zhen Shi, Qiong Huang, Meilin Gu, Petro Moilanen3, Yifang Li*, Dean Ta*. Nonlinear inversion of ultrasonic guided waves for in vivo evaluation of cortical bone properties. Chin. Phys. B, 2022; 31: 074301.

21.Lingwei Shi#, Dongsheng Bi#, Jingchun Luo, Wei Chen, Cuiwei Yang, Yan Zheng, Ju Hao, Ke Chang, Boyi Li*, Chengcheng Liu*, Dean Ta. Associations between electrocardiogram and carotid ultrasound parameters a healthy chinese group study. Front Physiol, 2022; 13:976254

22.Yihui Sui, Shaoyuan Yan, Junjin Yu, Jianping Song, Dean Ta, Weiqi Wang, Kailiang Xu*. Randomized spatial downsampling-based cauchy-RPCA clutter filtering for high-resolution ultrafast ultrasound microvasculature imaging and functional imaging. IEEE Trans UFFC, 2022; 69(8): 2425-2436.

23.Honglei Chen, Kailiang Xu*, Zenghua Liu, Dean Ta*. Ellipse of uncertainty based algorithm for quantitative evaluation of defect localization using Lamb waves. Ultrasonics, 2022; 125: 106802

24.Honglei Chen, Kailiang Xu*, Xiaoyu Liu, Ying Li, Zenghua Liu, Dean Ta*. Influence of optical transmissivity on signal characteristics of photoacoustic guided waves in long cortical bone. Ultrasonics, 2022; 126: 106816

25.Wenyu Xing#, Zhibin Zhu#, Dongni Hou*, Yaoting Yue, Fei Dai, Yifang Li, Lin Tong, Yuanlin Song,Dean Ta*. CM-SegNet: A deep learning-based automatic segmentation approach for medical images by combining convolution and multilayer perceptron. Computers Biology & Medicine. 2022; 147: 105797

26.Husnain Shahid,Adnan Khalid,Yaoting Yue,Xin Liu*,Dean Ta*. Feasibility of a Generative Adversarial Network for Artifact Removal in Experimental Photoacoustic Imaging. Ultrasound Med & Biol, 2022;48(8): 1628-1643

27.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; 69(6): 2010-2027.

28.郁钧瑾,郭星奕,隋怡晖,宋剑平,他得安,梅永丰,许凯亮*.超分辨率超快超声脊髓微血管成像方法研究.物理学报, 2022;71(17): 174302.

29.Boyi Li#, Mengyang Lu#, Chengcheng Liu, Xin Liu*, Dean Ta. Acoustic hologram reconstruction with unsupervised neural network. Frontiers in Materials, 2022; 9: 916527.

30.Yuxuan Liu, Kehua Sun, Tingxuan Yang, Jianqiu Zhang, Dean Ta, Dan Li*. A Robust Lamb Wave Imaging Approach to Plate-Like Structural Health Monitoring of Materials With Transducer Array Position Errors. IEEE Trans UFFC, 2022; 69(6): 2160-2177

31.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; 44(2-3): 59-76.

32.Xin Liu#*, Boyi Li#, Bo Pang, Chengcheng Liu, Yuexia Shu, Kailiang Xu, Jianwen Luo, Dean Ta*. Improved ultrasound imaging performance with complex cumulant analysis. IEEE Trans Biomedical Engineering, 2022; 69(3): 1281-1289.

33.Wenyu Xing#, Wen He#, Xiaoling Li, Jiangang Chen, Yun Cao, Wenhao Zhou, Quanli Shen, Xiaobo Zhang*, Dean Ta*. Early severity prediction of BPD for premature infants from chest X-ray images using deep learning: A study at the 28th day of oxygen inhalation. Computer Methods & Programs in Biomedicine. 2022; 221: 106869.

34.Wenyu Xing#, Chao He#, Jiawei Li, Wei Qin, Minglei Yang, Guannan Li, Qingli Li, Dean Ta, Gaofeng Wei*, Wenfang Li*, Jiangang Chen*. Automated lung ultrasound scoring for evaluation of coronavirus disease 2019 pneumonia using two-stage cascaded deep learning model. Biomedical Signal Processing and Control, 2022; 75: 103561

35.Yaoting Yue#, Nan Li#, Husnain Shahid, Dongsheng Bi, Xin Liu*, Shaoli Song*, Dean Ta. Gross tumor volume definition and comparative assessment for esophageal squamous cell carcinoma from 3D18F-FDG PET/CT by deep learning-based method. Frontiers in Oncology, 2022;12: 799207

36.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; 69(5): 1582-1595.

37.Jiajie He#, Zhiling Zhou#, Chuanxin Zhang, Yan Zheng, Ying Li, Yong Li*, Xue Jiang*, Dean Ta*. Ultrasparse and omnidirectional acoustic ventilated meta-barrier. Appl Phys Lett, 2022; 120: 191701.

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

39.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.

40.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.

41.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

42.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

43.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

44.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

45.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

46.Tran Tho, Li Boyi, Li Ying, Le Lawrence H, Ta Dean. Estimating dispersion relations of ultrasonic guided waves in bone using a modified matrix pencil algorithm. The Journal of the Acoustical Society of America, 2022, 152(4): A239-A239.

47.隋怡晖,郭星奕,郁钧瑾等.生成对抗网络加速超分辨率超声定位显微成像方法研究.物理学报,2022,71(22):149-160.

2021

1. Chen Jiang, Ying Li, Kailiang Xu, Dean Ta. Full-matrix phase shift migration method for transcranial ultrasonic imaging. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2021, 68(1): 72-83.

2. Duwei Liu, Boyi Li, Dongsheng Bi, Tho N. H. T. Tran, Yifang Li, Dan Liu, Ying Li and Dean Ta. Assessment of cortical bone fatigue using coded nonlinear ultrasound. Chinese Physics B. 2021, 30(9): 094301.

3. Xue Jiang, Hualiang Zhao, Chuanxin Zhang, Jiajie He, Ying Li, Boyi Li, Dean Ta. Nondestructive evaluation of special defects based on ultrasound metasurface. Frontiers in Materials, section Metamaterials. 2021.

4. 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.

5. Sijia Lou, Zhenli Liu, Kailiang Xu, Tho N.H.T. Tran, Chang Zhou, Lawrence H. Le, Dean Ta. Multimodal separation for ultrasonic Lamb wave using independent component analysis in the time-frequency domain. Chinese Journal of Acoustics. 2021, 40(4).

6. 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).

7. Junyi Zou, Feiyao Ling, Xiang Shi, Kailiang Xu, Huiyang Wu, Peining Chen, Bo Zhang, Dean Ta, Huisheng Peng. An electromagnetic fiber acoustic transducer with dual modes of loudspeaker and microphone. SMALL. 2021, 17(45): 2102052.

8. Jiajie He, Xue Jiang, Hualiang Zhao, Chuanxin Zhang, Yan Zheng, Chengcheng Liu, and Dean Ta. Broadband three-dimensional focusing for an ultrasound scalpel at megahertz frequencies. Physical Review Applied. 2021, 16(2): 024006.

9. Jiajie He, Xue Jiang, Hualiang Zhao, Dean Ta, and Weiqi Wang. Frequency distillation with dispersive reflector for multitone ultrasound perception. Applied Physics Letters. 2021, 119: 144102.

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. (Accepted).

11. 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.

12. 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.

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

14. 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 Medicine and Biology. 2021, 47(8): 2404-2415.

15. 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.

16. Yifang Li, Kailiang Xu, Ying Li, Feng Xu, Dean Ta, Weiqi Wang. Deep learning analysis of ultrasonic guided waves for cortical bone characterization. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2021, 68(4), 935-951.

17. 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 Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2021, 68(8): 2619-2634.

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

19. 臧佳琦, 许凯亮, 韩清见, 陆起涌, 梅永丰, 他得安. 无造影剂增强的超快超声脊髓微血管成像方法. 物理学报. 2021, 70(11): 114304.

20. Tho N.H.T. Tran, Lawrence H. Le, Mauricio D. Sacchi, Dean Ta. Broadband estimation of ultrasonic dispersion energy in cortical bones by regularized Radon transform with continuity enhancement. 2021 IEEE International Ultrasonics Symposium (IUS).

21. Boyi Li, Chengcheng Liu, Ying Li, Tho N.H.T. Tran, Dean Ta. An amplitude modulation ultrasonic backscatter method for estimation characterization of cancellous bones. 2021 IEEE International Ultrasonics Symposium (IUS).

22. Feiyao Ling, Dongmei Xu, Kailiang Xu, Qi Chen, Tho N.H.T. Tran, Petro Moilanen, Jean-Gabriel Minonzio, Dean Ta. Extraction of the first-arriving-signal and fundamental flexural guided wave using a radon transform based approach applied to ultrasonic characterization of cortical bone. 2021 IEEE International Ultrasonics Symposium (IUS).

23. Yihui Sui, Shaoyuan Yan, Jiaqi Zang, Xin Liu, Dean Ta, Weiqi Wang, Kailiang Xu. Randomized Spatial Downsampling based robust PCA clutter filtering for ultrafast ultrasound imaging. 2021 IEEE International Ultrasonics Symposium (IUS).

24. Kailiang Xu, Xingyi Guo, Yihui Sui, Vincent Hingot, Olivier Couture, Dean Ta, Weiqi Wang. Robust PCA-based clutter filtering method for super-resolution ultrasound localization microscopy. 2021 IEEE International Ultrasonics Symposium (IUS).

25. Shaoyuan Yan, Jinrun Liu, Xingyi Guo, Dean Ta, Gaoshan Huang, Alexander A. Solovev, Yongfeng Mei, Kailiang Xu. Ultrafast ultrasound imaging for micro-nanomotors: a phantom study. 2021 IEEE International Ultrasonics Symposium (IUS).

26. Qian Zheng, Shuxin Sun, Lixin Jiang, Dean Ta. Simulation of LIPUS topography and the thermal properties of the achilles tendon. 2021 IEEE International Ultrasonics Symposium(IUS).

27. Fei Dai, Yifang Li, Qinzhen Shi, Xiaojun Song, Xin Liu, Dean Ta. Deep learning based real-time segmentation in ultrasonic imaging following the doctor's voice guide. 2021 IEEE International Ultrasonics Symposium (IUS).

28. Qinzhen Shi, Yifang Li, Lingwei Shi, Meilin Gu, Yuan Liu, Xin Liu, Dean Ta. Cortical bone ultrasonic imaging based on accurate delay Times. 2021 IEEE International Ultrasonics Symposium (IUS).

29. Yifang Li, Qinzhen Shi, Yuan Liu, Lingwei Shi, Meilin Gu, Xiaojun Song, Chengcheng Liu, Dean Ta. Ex-vivo ultrasonic tomography imaging of cortical bone based on velocity model prediction. 2021 IEEE International Ultrasonics Symposium (IUS).

30. Yifang Li, Qinzhen Shi, Yuan Liu, Lingwei Shi, Meilin Gu, Xiaojun Song, Chengcheng Liu, Dean Ta. Wavenumber-domain ultrasonic imaging of the bone cortex based on velocity distribution estimation. 2021 IEEE International Ultrasonics Symposium (IUS).

2018

1. 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.

2. 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.

3. 第五强强, 李博艺, 李颖, 徐峰, 刘成成, 他得安. 空间频率域超声背散射参量用于骨质状况的评价. 应用声学. 2018, 37(1): 145-151.

4. 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.

2017

1. Hang Lu, Feng Xu, Chengcheng Liu, Huilin Zhang, Dean Ta. Coded Excitation of Guided Ultrasonic Waves in Long Bone for Assessment of Fracture Depth. In: Vo Van T., Nguyen Le T., Nguyen Duc T. (eds) 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6). BME 2017:53-56.

2. 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.

3. Chengcheng Liu, Ying Li, Feng Xu, Dean Ta, Bo Hu, Weiqi Wang. Ability of Ultrasonic Apparent Backscatter to Reflect Cancellous Bone Densities. 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6). 2017:69-72. .

4. Kailiang Xu, Dean Ta, Jean Gabriel Minonzio, Pascal Laugier, Weiqi Wang. Long Cortical Bone Fracture Evaluation Using Ultrasonic Guided Waves: A Tubular Phantom Study. 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6). 5. 2017:133-136.

5. YingLi, Chengcheng Liu, Feng Xu, Dean Ta. Microstructure Characterization of Cancellous Bone Based on Ultrasonic C-Scan Imaging.6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6). 2017:1-5.

6. Feng Xu, Chengcheng Liu, Dean Ta. M-Sequence Excitation of Ultrasonic Backscatter Signals for Cancellous Bone Evaluation. 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6). 2017:37-43.

7. Xiaojun Song, Dean Ta, Petro Moilanen. Diagnosis of osteoporosis based on multi-scale wavelet parameters of ultrasonic guided waves. Chinese Journal of Acoustics. 2017, 36(4): 429-438.

8. 蒋文杰, 孙舒心, 徐峥, 他得安. 有限元法仿真LIPUS照射骨细胞的局部声场分布. 声学技术, 2017, 36(6): 549-555.

9. 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.

10. Li Ying, Xu Feng, Liu Chengcheng, Xu Kailiang, Ta Dean. Wang Weiqi. Estimating mean trabecular bone spacing based on the combination of Hilbert transform and fundamental frequency estimation. Science Foundation in China. 2017, 25(3): 57-71.

11. 宋小军, 他得安, Petro Moilanen. 采用超声导波特征参量的骨质疏松识别方法. 声学学报. 2017, 42(5): 571-576.

12. 刘珍黎,宋亮华,白亮,许凯亮,他得安.长骨中振动声激发超声导波的方法研究, 物理学报. 2017, 66(15): 154303.

13. 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 Medicine & Biology. 2017, 43(7): 1411-1420.

14. 许凯亮, 张正罡, 刘丹,他得安, 胡波. 高分辨率超声Lamb波频散曲线测量与板厚估计. 数据采集与处理. 2017, 32(2): 286-292.

15. 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, 2017:308314.

16. Feng Xu, Yiwen Xu, Chengcheng Liu, Dean Ta, Jianzhong Guo. The spectrum entropy estimation method for ultrasonic backscattering signal in cancellous bones. Chinese Journal of Acoustics. 2017, 36(3): 337-346.

2016

1. 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 Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2016, 63(10): 1514-1524.

2. 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. Journal of the Acoustical Society of America . 2016, 140(3): 1758-1770.

3. 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.

4. 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.

5. Tao Tang, Chengcheng Liu, Feng Xu, Dean Ta. Correlation between the combination of apparent integrated backscatter and spectral centroid shift and bone mineral density. J of Medical Ultrasonics. 2016, 43(2): 167-173.

2015

1. HY Zhang, J Xu, SW Ma, DA Ta. The High-frequency scattering of the S0 Lamb mode by a circular blind hole in a plate. Physics Procedia. 2015, 70: 455-458.

2. Chengcheng Liu, Rong Zhang, Ying Li, Feng Xu, Dean Ta, Weiqi Wang. An ultrasonic backscatter instrument for cancellous bone evaluation in neonates. Engineering. 2015, 1(3): 336-343.

3. Chengcheng Liu, Tao Tang, Feng Xu, Dean Ta, Mami Matsukawa, Bo Hu, Weiqi Wang. Study onthe signal of interest selection standard for ultrasonic backscatter in cancellous bone evaluation.Ultrasound in Medicine & Biology . 2015, 41(10): 2714-2721.

4. Kailiang Xu, Minonzio J.-G., Dean Ta, Bo Hu, Weiqi Wang, Laugier P.Sparse inversion SVD method for dispersion extraction of ultrasonic guided waves in cortical bone. Ultrasonic Characterization of Bone (ESUCB), 2015 6th European Symposium on. 2015.

5. Chengcheng Liu, Tao Tang, Dean Ta, Weiqi Wang, Bo Hu. Influence of signal selection on ultrasonic backscatter and in cancellous bone assessment. Ultrasonic Characterization of Bone (ESUCB), 2015 6th European Symposium on. 2015.

6. Zhenggang Zhang, Feng Xu, Chengcheng Liu, Kailiang Xu, Dean Ta. Effect of elastic modulus on the nonlinear ultrasonic Lamb waves in cortical bone: A numerical study. Ultrasonic Characterization of Bone (ESUCB), 2015 6th European Symposium on. 2015,7169920.

7. 刘丹, 许凯亮, 他得安. 长骨裂纹宽度和角度对低阶超声导波的影响. 声学学报. 2015, 40(4): 555-562.

8. 张正罡, 刘丹, 他得安. 多通道超声兰姆波检测板状结构中的裂纹. 应用声学. 2015, 34(3): 189-194.

9. 侯黎, 许怿文, 舒啸, 吴广力, 刘成成, 许凯亮, 他得安. 二次变换法估计骨小梁间距的研究. 声学学报. 2015, 40(3): 422-428.

10. 他得安,李颖,刘成成. 基于希氏变换的超声基频算法估计骨小梁间距. 数据采集与处理. 2015, 30(2): 319-327.

11. Xu Yiwen, Hou Li, Shu Xiao, Wu Guangli, Liu Chengcheng, Xu Kailiang, Ta Dean. Trabecular Spacing Estimation Based on Quadratic Transformation Method. Chinese Journal of Acoustics. 2015, 34(2): 177-185.

12. Liu Dan, Xu Kailiang, Ta Dean. Impact of the fracture on low-order guided waves in long bone. Chinese Journal of Acoustics. 2015, 34(2): 166-176.

13. Ziqiang Chen, Bing Wu, Xiao Zhai, Yushu Bai, Xiaodong Zhu, Beier Luo, Xiao Chen, Chao Li, Mingyuan Yang, Kailiang Xu, Chengcheng Liu, Chuanfeng Wang, Yingchuan Zhao, Xianzhao Wei, Kai Chen, Wu Yang, Dean Ta, Ming Li. Basic study for ultrasound-based navigation for pedicle screw insertion using transmission and backscattered methods. PLoS ONE. 2015, 10(4): 0122392.

14. 胡时晓, 许凯亮, 他得安. 超声导波评价长骨骨折的仿体实验研究. 应用声学. 2015, 34(2): 95-101.

2014

1. 宋小军,他得安, Petro Moilanen. 基础序列调制的Golay码研究长骨中的超声导波. 仪器仪表学报. 2014, 35(7): 1564-1570.

2. Chengcheng Liu, Dean Ta, Bo Hu, Lawrence H Le, Weiqi Wang. The analysis and compensation of cortical thickness effect on ultrasonic backscatter signals in cancellous bone. Journal of Applied Physics. 2014, 116(12): 124903.

3. 刘丹,许凯亮, 李大为, 他得安,王威琪. 超声导波定量评价长骨骨折状况. 中国科学G: 物理学力学天文学. 2014, 44(7): 682-690.

4. Zhenggang Zhang, Dan Liu, Mingxi Deng, Dean Ta, Weiqi Wang. Experimental observation of cumulative second-harmonic generation of Lamb waves propagating in long bones. Ultrasound in Medicine & Biology. 2014, 40(7): 1660-1670.

5. Kailiang Xu, Dean Ta, Bo Hu, Pascal Laugier, Weiqi Wang. Wideband dispersion reversal of Lamb waves. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2014, 61(6): 997-1005.

6. Zhang Huilin, Song Xiaojun, Ta Dean. Detection of long bones based on Barker code excited ultrasonic guided waves. Chinese J of Acoustics, 2014, 33(2): 136-146.

7. Yun-qi Jiang, Cheng-cheng Liu, Ruo-yu Li, Wen-Ping Wang, Hong Ding, Qing Qi, Dean Ta, Jian Dong, Wei-qi Wang. Analysis of apparent integrated backscatter coefficient and backscattered spectral centroid shift in calcaneus in vivo for the ultrasonic evaluation of osteoporosis. Ultrasound in Medicine & Biology . 2014, 40(6): 1307-1317.

8. Huilin Zhang, Shengju Wu, Dean Ta, Kailiang Xu,Weiqi Wang. Coded excitation of ultrasonic guided waves in long bone fracture assessment. Ultrasonics. 2014, 54(5): 1203-1209. /font>

9. Kailiang Xu, Dan Liu, Dean Ta, Bo Hu, Weiqi Wang. 8Quantification of guided mode propagation in fractured long bones. Ultrasonics. 2014, 54(5): 1210-1218.

10. 张慧琳,宋小军, 他得安. Barker码激励超声导波在长骨检测中的应用. 声学学报. 2014, 39(2): 257-263.

11. Kailiang Xu, Dean Ta, Runxin He, Yi-Xian Qin, Weiqi Wang. Axial transmission method for long bone fracture evaluation by ultrasonic guided waves: Simulation, phantom and in-vitro experiment. Ultrasound in Medicine & Biology . 2014, 40(4): 817-827.

12. Chengcheng Liu, Dean Ta, Fuminori Fujita, Takuma Hachiken, Mami Matsukawa, Katsunori Mizuno, Weiqi Wang. The relationship between ultrasonic backscatter and trabecular anisotropic microstructure in cancellous bone. Journal of Applied Physics. 2014, 115:064906.

13. Chengcheng Liu, Dean Ta, Weiqi Wang. Effect of trabecular bone material properties on ultrasonic backscattering signals. Chinese Journal of Acoustics. 2014, 33(1): 73-82.

14. 许凯亮, 谈钊, 他得安, 王威琪. 超声导波的频散补偿与模式分离算法研究.声学学报. 2014, 39(1): 99-103.

15. Kailiang Xu, Dean Ta, Zhongqing Su, Weiqi Wang. Transmission analysis of ultrasonic Lamb mode conversion in a plate with partial-thickness notch. Ultrasonics. 2014, 54(1): 395-401.

2013

1. Jiangang Chen, Zhongqing Su, Li Cheng, Dean Ta. Exploring local curvature effect of cortical bone for quantitative ultrasound(QUS). Structural Engineering and Mechanics. 2013, 48(4): 501-518.

2. Rong Zhang, Dean Ta, ChengchengLiu, Chao Chen. Feasibility of bone assessment with ultrasonic backscatter signals in neonates. Ultrasound in Medicine & Biology. 2013, 39(10): 1751-1759.

3. Kailiang Xu, Chengcheng Liu, Dean Ta. Ultrasonic guided waves dispersion reversal for long bone thickness evaluation: A simulation study. 35th Annual International Conference of the IEEE EMBS Osaka. 2013, 1930-1933.

4. Zhenggang Zhang, Kailiang Xu, Dean Ta, Weiqi Wang. Joint spectrogram segmentation and ridge-extraction method for separating multimodal guided waves in long bones. SCIENCE CHINA Physics, Mechanics & Astronomy. 2013, 56(7): 1317-1323.

5. Chengcheng Liu, Haijie Han,Dean Ta, Weiqi Wang. Effect of selected signals of interest on ultrasonic backscattering measurement in cancellous bones. SCIENCE CHINA Physics, Mechanics & Astronomy. 2013, 56(7): 1310-1316.

6. Vantte Kilappa, Kailiang Xu, Petro Moilanen, Erkki Heikkola, Dean Ta, Jussi Timonen. Assessment of the fundamental flexural guided wave in cortical bone by an ultrasonic axial-transmission array transducer. Ultrasound in Med & Biol. 2013, 39(7): 1223-1232.

7. 张蓉, 刘成成, 他得安, 陈超. 跟骨超声背散射系数与新生儿相关参数的相关性. 声学技术. 2013, 32(3): 212-216.

8. 他得安,王威琪.超声背散射法评价松质骨状况的研究. 应用声学. 2013, 32(3): 199-204.

9. 刘成成,他得安,王威琪. 骨小梁材料特性对超声背散射信号的影响. 声学学报. 2013, 38(3): 382-388.

10. 韩海杰, 王文斌,许凯亮,他得安,王威琪. 超声表观积分背散射系数与骨矿密度的相关性分析. 声学技术. 2013, 32(1): 29-32.

11. 侯黎,乔亮,他得安. 超声背散射信号评价皮肤烧伤程度的可行性研究. 声学技术. 2013, 32(1): 33-36.

2012

1. 张正罡, 他得安. 时域有限差分法研究长骨中的超声导波.医用生物力学. 2012, 27(6): 624-629.

2. Xiaojun Song, Dean Ta, Weiqi Wang. A base sequence modulated Golay code improves the excitation and measurement of ultrasonic guided waves in long bones. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2012,59(11): 2580-2583.

3. 张正罡, 他得安. 基于弹性模量检测骨疲劳的超声导波方法研究. 物理学报. 2012, 61 (13): 134304.

4. Kailiang Xu, Dean Ta, Petro Moilanen, Weiqi Wang. Mode Separation of Lamb Waves Based on Dispersion Compensation Method. Journal of the Acoustical Society of America. 2012, 131(4): 2714-2722.

5. 宋小军,他得安,王威琪. 利用Golay码测量长骨中传播的超声导波. 仪器仪表学报. 2012, 33(3): 529-538.

6. 王文斌, 郭佳林, 他得安, 左汉锋. 超声表观积分背散射系数评价新生儿骨状况的可行性研究. 声学学报. 2012, 37(2): 177-180.

2011

1. Xiaojun Song, Dean Ta, Weiqi Wang. Analysis of superimposed ultrasonic guided waves in long bones by the joint approximate diagonalization of eigen-matrices algorithm. Ultrasound in Medicine & Biology. 2011, 37(10): 1704-1713.

2. 宋小军,他得安,王威琪. 基于时频分布的盲信号分离方法研究长骨中的多模式导波信号.声学学报. 2011, 36(3): 318-324.

3. Chan Zhang, Lawrence Le, Rui Zheng, Dean Ta, Edmond Lou. Measurements of ultrasonic phase velocities and attenuation of slow waves in cellular aluminum foams as cancellous bone-mimicking phantoms. Journal of the Acoustical Society of America. 2011, 129(5): 3317-3326.

4. Yang Baiding, Ta Dean, Wang Weiqi. Study on the Mean trabecular bone spacing based on fundamental frequency estimation method. Chinese Journal of Acoustics. 2011, 30(3): 241-252.

5. Luo Chungou, Ta Dean, Li Wei, Wang Weiqi. Analysis of ultrasonic guided waves propagating in long bones and cortical thickness based on time-frequency methods. Chinese Journal of Acoustics. 2011, 30(2): 171-180.

6. 杨白丁,他得安,王威琪. 基频估计算法研究平均骨小梁间距. 声学学报. 2011, 36(2): 172-178.

2010

1. Kailiang Xu, Dean Ta, Weiqi Wang. Multiridge-based analysis for separating lndividual modes from multimodal guided wave signals in long bones. IEEE Trans UFFC. 2010, 57(11): 2480-2490.

2. L De Marchi, E Baravelli, K Xu, D Ta, N Speciale, A Marzani, E ViolaE. Warped frequency transform analysis of ultrasonic guided waves in long bones. Proceedings of SPIE – The International Society for Optical Engineering, v 7650, n PART 1, 2010, Health Monitoring of Structural and Biological Systems 2010. 2010.

3. Xu Kailiang, Ta Dean, Wang Weiqi. Reflection and transmission characteristics of ultrasonic guided waves in fractured long bone. Chinese Journal of Acoustics. 2010, 29(3): 220-229.

4. 许凯亮,他得安,王威琪.长骨中超声导波信号的时频特征分析. 中国生物医学工程学报. 2010, 29(1): 66-70.

5. Lawrence H. Le, Chan Zhang, Dean Ta, Edmond Lou. Measurement of tortuosity in aluminum foams using airborne ultrasound. Ultrasonics. 2010, 50(1): 1-5.

2009

1. Dean Ta, Kai Huang, Weiqi Wang. Correlations between signal spectrum of ultrasonic backscatter and cancellous bone microstructure. 2009 IEEE Ultrasonics Symposium. 2009, 1922-1925.

2. Dean Ta, Kailiang Xu, Petro Moilanen, Sulin Cheng, Weiqi Wang. Ultrasonic guided wave propagation in long bones with varying cortical thickness. 2009 IEEE Ultrasonics Symposium. Rome. 2009, 1914-1917.

3. Luca De Marchi, Kailiang Xu, Dean Ta, Alessandro Marzani, Cristina Gentilini, Salvatore Caporale, NicoloSpeciale.Warped Signal Dictionaries for the Analysis of Ultrasonic Guided Waves in Long Bones.2009 IEEE Ultrasonics Symposium. 2009, 1930-1933.

4. Baiding Yang, Dean Ta, Kai Huang, Weiqi Wang. Characterization of Cancellous Bone Microstructure by Using Ultrasonic Apparent Backscatter Imaging. Proceedings of the 2009 2nd International Conference on Biomedical Engineering and Informatics. 2009:153-157.

5. 黄凯, 他得安, 王威琪. 超声表观背散射参数成像定征松质骨结构的可行性研究. 仪器仪表学报. 2009, 30(11): 2455-2460.

6. 罗春苟, 他得安,李维, 王威琪. 时频方法分析长骨中的超声导波及皮质骨厚度.声学学报. 2009, 34(5): 416-422.

7. 许凯亮,他得安,王威琪. 骨折长骨中超声导波传播特性的仿真研究.声学学报. 2009, 34(5): 423-429.

8. 黄凯, 他得安, 王威琪. 骨小梁中超声背散射信号的频率分析及其微结构的估计. 应用声学. 2009, 28(4): 308-313.

9. 他得安, 王威琪, 汪源源. 超声轴向传播技术评价长骨的研究. 应用声学. 2009, 28(3): 161-165.

10. 他得安, 黄凯, 王威琪. 评价骨质状况及骨质疏松症的超声方法. 中国医疗器械信息. 2009, 15(3): 1-6.

11. Dean Ta,Weiqi Wang, Yuanyuan Wang, Lawrence H. Le, Yuqing Zhou. Measurement of the dispersion and attenuation of cylindrical ultrasonic guided waves in long bone. Ultrasound in Medicine & Biology. 2009, 35(4): 641-652.

2008

1. Kailiang Xu, Dean Ta, Weiqi Wang, Petro Moilanen. Simulation of Propagation Characteristics of Ultrasonic Guided Waves in Fractured Long Bone. 2008 IEEE Ultrasonics Symposium. 2. :233-236.

2. Dean Ta, Weiqi Wang, Kai Huang, Yuanyuan Wang, Lawrence H. Le. Analysis of frequency dependence of ultrasonic backscatter coefficient in cancellous bone. The Journal of the Acoustical Society of America. 2008, 124(6): 4083-4090.

3. 项延训, 他得安. 充粘液管材超声检测中导波模式及频厚积的选择. 无损检测. 2008, 30(10): 707-710.

4. 罗春苟, 他得安,王威琪. 基于希尔伯特-黄变换测量超声导波的群速度及材料厚度. 声学技术. 2008, 27(5):674-679.

5. 黄凯, 他得安, 王威琪, Lawrence H. Le.准规则生物组织超声背散射信号的仿真. 仪器仪表学报. 2008, 29(9): 1898-1902.

6. 他得安, 王威琪, 汪源源, 余建国. 超声评价松质骨状况的研究进展. 程建春, 田静主编. 现代声学科学与技术丛书《创新与和谐—中国声学进展》, 科学出版社, 2008: 509-520.

7. Kai Huang, Dean Ta, Weiqi Wang, Lawrence H. Le. Simplified inverse filter tracking algorithm for estimating the mean trabecular bone spacing. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 2008, 55(7): 1453-1464.

8. 罗春苟, 他得安,黄凯,王威琪. 松质骨组织的若干超声参量成像方法.声学技术. 2008, 27(2): 197-200.

9. 黄凯,他得安,王威琪, Lawrence H. Le. 基于简易反向滤波跟踪算法分析松质骨的微结构特征. 中国生物医学工程学报. 2008, 27(2): 218-223.

10. Dean Ta, Weiqi Wang, Yuanyuan Wang, Lawrence H Le. Dispersion of guided waves in viscous liquid-filled pipes. Insight. 2008, 50(1): 14-18.

2007

1. 罗怡珊,汪源源,徐峰,俞承芳,他得安,王威琪. 时域有限差分法研究骨传导超声特性. 声学技术. 2007,26(5): 877-881.

2. 黄凯,他得安,王威琪, Lawrence H. Le. 基于反向滤波器的倒谱法估计平均骨小梁间距. 航天医学与医学工程. 2007, 20(6): 451-454.

3. 罗怡珊,汪源源,徐峰,俞承芳,他得安,王威琪. 骨传导超声与骨传导音频的特性比较. 生命科学仪器. 2007,5(7): 51-53.

4. Rui Zheng, Lawrence H Le, Mauricio D Sacchi, Dean Ta, Edmond Lou. Spectral ratio method to estimate broadband ultrasound attenuation of cortical bones in vitro using multiple reflections. Phys Med Biol, 2007,52(19): 5855-5869.

5. 他得安, 王威琪,汪源源,余建国. 基于超声背散射信号分析松质骨中的声阻抗. 中国生物医学工程学报. 2007, 26(4): 487-492.

6. 他得安,王威琪,汪源源,余建国. 评价松质骨状况的一种背散射频谱方法. 声学技术, 2007,26(3): 406-410.

7. 陈一骄, 汪源源, 他得安, 王威琪. 几种超声NDT信号降噪方法的性能比较. 声学技术, 2007,26(2): 217-222.

8. 黄凯, 他得安, 王威琪. 估计骨小梁间距的信号处理方法. 国际生物医学工程杂志.2007,30(1): 10-14.

9. 周国辉, 他得安, 汪源源, 王威琪. 超声溶栓. 应用声学, 2007,26(1): 55-59.

10. 他得安, 王威琪, 汪源源, 余建国. 基于自回归倒谱法估计骨小梁间距. 仪器仪表学报. 2007, 28(1): 17-22.

2006

1. 王威琪, 周国辉, 汪源源, 他得安, 余建国. 关于人体信号和医学超声信号. 现代临床医学生物工程学杂志. 2006, 12(5): 383-388.

2. 他得安. 充粘性液体管材中超声导波的应力分析. 声学技术. 2006, 25(5): 419-425.

3. Dean Ta,Weiqi Wang,Lawrence Le. Axial power flow distribution of ultrasonic guided waves in composite pipes. 2006 IEEE Ultrasonics Symposium. 2006: 1817-1820.

4. Haiyan Zhang, Shixuan Fan, Zhenqin Liu, Donghui Lu, Dean Ta. The effect of fiber orientation on Lamb wave propagation in layered anisotropic composite plates. 2006 IEEE Ultrasonics Symposium. 2006: 1821-1823.

5. Haiyan Zhang, Shixuan Fan, Quan Zhou, Donghui Lu, Dean Ta. Diffraction ultrasonic Lamb wave tomography using nonuniform FFT. 2006 IEEE Ultrasonics Symposium, 3-6 Oct., 2006, Vancouver, Canada. Vols. 1-5: 914-917.

6. Dean Ta, Zhenqing Liu, Xiao Liu. Combined spectral estimator for phase velocity of multimode Lamb waves in multilayer plates. Ultrasonics, 2006, 44: e1145 -1150.

7. Dean Ta, Kai Huang, Weiqi Wang, Yuanyuan Wang. Identification and analysis of multimode guided waves in tibia cortical bone. Ultrasonics, 2006, 44: e279-284.

2005

1. 他得安,王威琪,汪源源,余建国.基于声速微扰的松质骨超声参数分析和计算.中国生物医学工程学报. 2005,24(6): 788-792.

2. 他得安, 王威琪, 汪源源, 余建国. 超声背散射系数评价松质骨状况的可行性研究. 航天医学与医学工程. 2005,18(5): 365-369.

3. Dean Ta, Guo-hui Zhou, Wei-qi Wang, Jian-guo Yu. Measurement of spectral maximum shift of ultrasonic backscatter signals in cancellous bone. Proceedings of the 27th Annual International Conference of the IEEE-EMBS, 2005,2703-2706.

4. Dean Ta, Kai Huang, Wei-qi Wang, Yuan-yuan Wang. Predict ultrasonic backscatter coefficient in cancellous bone by theory and experiment. Proceedings of the 27th Annual International Conference of the IEEE-EMBS. 2005,1131-1134.

5. 他得安, 刘镇清. 充粘液管材中超声纵向轴对称导波的频散特性分析.声学学报. 2005, 30(3): 193-200.

6. 他得安,王威琪,余建国. 松质骨中两种纵波的传播特性分析.中国生物医学工程学报. 2005,24(1): 16-20.

7. 他得安,王威琪,汪源源,余建国,刘镇清.管道导波检测中激发频率的选择及灵敏度分析.无损检测. 2005, 27(2): 83-86.