[1]Zhou Xinyan, Sun Shuxin, Chen Yuefu, Liu Chengcheng, Li Dan, Cheng Qun, He Min, Li Ying, Xu Kailiang, Ta Dean. Pulsed frequency modulated ultrasound promotes therapeutic effects of osteoporosis induced by ovarian failure in mice [J]. Ultrasonics, 2023, 132: 106973.
[2]Zhang Chuanxin, Jiang Xue, He Jiajie, Li Ying, Ta Dean. Spatiotemporal Acoustic Communication by a Single Sensor via Rotational Doppler Effect [J]. Advanced Science, 2023, 10(10): 2206619.
[3]Wang Meng, Lin Yi, Gu Feifei, Xing Wenyu, Li Boyi, Jiang Xue, Liu Chengcheng, Li Dan, Li Ying, Wu Yi. Diagnosis of cognitive and motor disorders levels in stroke patients through explainable machine learning based on MRI [J]. Medical Physics, 2023.
[4]Chen Yuefu, Sun Shuxin, Zhou Xinyan, He Min, Li Ying, Liu Chengcheng, Ta Dean. Low-intensity pulsed ultrasound and parathyroid hormone improve muscle atrophy in estrogen deficiency mice [J]. Ultrasonics, 2023, 132: 106984.
[5]Chen Honglei, Ling Feiyao, Zhu Wujun, Sun Di, Liu Xiaoyu, Li Ying, Li Dan, Xu Kailiang, Liu Zenghua, Ta Dean. Waveform inversion for wavenumber extraction and waveguide characterization using ultrasonic Lamb waves [J]. Measurement, 2023, 207: 112360.
[6]Bi Dongsheng, Shi Lingwei, Liu Chengcheng, Li Boyi, Li Ying, Le Lawrence H, Luo Jingchun, Wang Sijia, Ta Dean. Ultrasonic through-transmission measurements of human musculoskeletal and fat properties [J]. Ultrasound in Medicine & Biology, 2023, 49(1): 347-355.
[7]Bi Dongsheng, Shi Lingwei, Li Boyi, Li Ying, Liu Chengcheng, Le Lawrence H, Luo Jingchun, Wang Sijia, Ta Dean. The Protocol of Ultrasonic Backscatter Measurements of Musculoskeletal Properties [J]. Phenomics, 2023: 1-9.
[8]Bi Dongsheng, Liu Chengcheng, Dai Zhongquan, Li Zhili, Li Ying, Li Boyi, Li Dan, Wang Linjie, Qu Lina, Li Yinghui. Human Bone Loss Assessed by High-Resolution Peripheral Quantitative Computed Tomography and Ultrasonic Transmission Techniques [J]. Microgravity Science and Technology, 2023, 35(2): 12.
[9]Zhao Hualiang, Zhang Chuanxin, He Jiajie, Li Ying, Li Boyi, Jiang Xue, Ta Dean. Nondestructive evaluation of special defects based on ultrasound metasurface [J]. Frontiers in Materials, 2022, 8: 802001.
[10]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 [J]. The Journal of the Acoustical Society of America, 2022, 152(4): A239-A239.
[11]Li Ying, Lin Yi, Li Boyi, Liu Chengcheng, Li Dan, Wu Yi, Ta Dean, Wang Weiqi. Experimental study on bone phantom imaging using ultrasound velocity inversion and reverse time migration; proceedings of the 2022 IEEE International Ultrasonics Symposium (IUS), F, 2022 [C]. IEEE.
[12]Li Boyi, Zhou Tianhua, Liu Xin, Liu Chengcheng, Tran Tho NHT, Li Ying, Li Dan, Li Yifang, Bi Dongsheng, Ta Dean. A Photoacoustic Spectrum Feature Extraction Method to Characterize the Hydroxyapatite Degradation Process in Cortical Bone; proceedings of the 2022 IEEE International Ultrasonics Symposium (IUS), F, 2022 [C]. IEEE.
[13]Li Boyi, Liu Chengcheng, Liu Xin, Tran Tho NHT, Li Ying, Li Dan, Bi Dongsheng, Liu Duwei, Ta Dean. Amplitude modulation excitation for cancellous bone evaluation using a portable ultrasonic backscatter instrumentation [J]. Chinese Physics B, 2022, 31(11): 114303.
[14]He Jiajie, Zhou Zhiling, Zhang Chuanxin, Zheng Yan, Li Ying, Li Yong, Jiang Xue, Ta Dean. Ultrasparse and omnidirectional acoustic ventilated meta-barrier [J]. Applied Physics Letters, 2022, 120(19).
[15]Chen Honglei, Xu Kailiang, Liu Xiaoyu, Li Ying, Liu Zenghua, Ta Dean. Influence of optical transmissivity on signal characteristics of photoacoustic guided waves in long cortical bone [J]. Ultrasonics, 2022, 126: 106816.
[16]Sun Shuxin, Tang Liang, Zhao Tingting, Kang Yiting, Sun Lijun, Liu Chengcheng, Li Ying, Xu Feng, Qin Yi-Xian, Ta Dean. Longitudinal effects of low-intensity pulsed ultrasound on osteoporosis and osteoporotic bone defect in ovariectomized rats [J]. Ultrasonics, 2021, 113: 106360.
[17]Liu Duwei, Li Boyi, Bi Dongsheng, Tran Tho NHT, Li Yifang, Liu Dan, Li Ying, Ta Dean. Assessment of cortical bone fatigue using coded nonlinear ultrasound [J]. Chinese Physics B, 2021, 30(9): 094301.
[18]Li Yifang, Shi Qinzhen, Li Ying, Song Xiaojun, Liu Chengcheng, Ta Dean, Wang Weiqi. High-resolution bone microstructure imaging based on ultrasonic frequency-domain full-waveform inversion [J]. Chinese Physics B, 2021, 30(1): 014302.
[19]Li Boyi, Liu Chengcheng, Li Ying, Tran Tho NHT, Ta Dean. An Amplitude Modulation Ultrasonic Backscatter Method for Estimation Characterization of Cancellous Bones; proceedings of the 2021 IEEE International Ultrasonics Symposium (IUS), F, 2021 [C]. IEEE.
[20]Bi Dongsheng, Dai Zhongquan, Liu Duwei, Wu Feng, Liu Chengcheng, Li Ying, Li Boyi, Li Zhili, Li Yinghui, Ta Dean. Ultrasonic backscatter measurements of human cortical and trabecular bone densities in a head-down bed-rest study [J]. Ultrasound in Medicine & Biology, 2021, 47(8): 2404-2415.
[21]Liu Chengcheng, Li Boyi, Li Ying, Mao Weiying, Chen Chao, Zhang Rong, Ta Dean. Ultrasonic backscatter difference measurement of bone health in preterm and term newborns [J]. Ultrasound in Medicine & Biology, 2020, 46(2): 305-314.
[22]Li Yifang, Xu Kailiang, Li Ying, Xu Feng, Ta Dean, Wang Weiqi. Deep learning analysis of ultrasonic guided waves for cortical bone characterization [J]. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2020, 68(4): 935-951.
[23]Jiang Chen, Li Ying, Xu Kailiang, Ta Dean. Full-matrix phase shift migration method for transcranial ultrasonic imaging [J]. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2020, 68(1): 72-83.
[24]Jiang Chen, Li Dan, Xu Feng, Li Ying, Liu Chengcheng, Ta Dean. Numerical evaluation of the influence of skull heterogeneity on transcranial ultrasonic focusing [J]. Frontiers in Neuroscience, 2020, 14: 317.
[25]Liu Chengcheng, Dong Rui, Li Boyi, Li Ying, Xu Feng, Ta Dean, Wang Weiqi. Ultrasonic backscatter characterization of cancellous bone using a general Nakagami statistical model [J]. Chinese Physics B, 2019, 28(2): 024302.
[26]Li Yifang, Xu Kailiang, Li Ying, Hu Bo, Zhang Jianqiu, Le Lawrence H, Ta Dean. Multichannel crossed convolutional neural network for combined estimation of cortical thickness and bulk velocities using ultrasonic guided waves: A simulation study; proceedings of the 2019 IEEE International Ultrasonics Symposium (IUS), F, 2019 [C]. IEEE.
[27]Li Yunqing, Xu Kailiang, Jiang Chen, Li Ying, Liu Chengcheng, Zhang Jianqiu, Hu Bo, Ta Dean. Cortical bone fracture imaging using velocity model based multistatic synthetic aperture ultrasound; proceedings of the 2019 IEEE International Ultrasonics Symposium (IUS), F, 2019 [C]. IEEE.
[28]Li Ying, Li Boyi, Li Yifang, Liu Chengcheng, Xu Feng, Zhang Rong, Ta Dean, Wang Weiqi. The ability of ultrasonic backscatter parametric imaging to characterize bovine trabecular bone [J]. Ultrasonic imaging, 2019, 41(5): 271-289.
[29]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 [J]. 物理学报, 2019, 68(18): 184302-184302.
[30]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 [J]. 声学学报, 2019, (5): 818-825.
[31]Ta Dean, Li Ying, Li Boyi, Zheng Rui, Le Lawrence H. Cancellous bone characterization using ultrasonic backscatter parametric imaging [J]. The Journal of the Acoustical Society of America, 2018, 144(3): 1822-1822.
[32]Liu Chengcheng, Li Ying, Xu Feng, Ta Dean, Hu Bo, Wang Weiqi. Ability of Ultrasonic Apparent Backscatter to Reflect Cancellous Bone Densities; proceedings of the 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6) 6, F, 2018 [C]. Springer Singapore.
[33]Liu Chengcheng, Li Boyi, Diwu Qiangqiang, Li Ying, Zhang Rong, Ta Dean, Wang Weiqi. Relationships of ultrasonic backscatter with bone densities and microstructure in bovine cancellous bone [J]. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2018, 65(12): 2311-2321.
[34]Li Ying, Liu Chengcheng, Xu Feng, Ta Dean. Microstructure characterization of cancellous bone based on ultrasonic C-scan imaging; proceedings of the 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6) 6, F, 2018 [C]. Springer Singapore.
[35]Li Ying, Li Boyi, Xu Feng, Liu Chengcheng, Ta Dean, Wang Weiqi. Ultrasonic backscatter measurements at the calcaneus: An in vivo study [J]. Measurement, 2018, 122: 128-134.
[36]Li Ying, Li Boyi, Jiang Chen, Diwu Qiangqiang, Liu Chengcheng, Ta Dean. Trabecular bone characterization using ultrasonic backscatter parametric imaging; proceedings of the Proceedings of Symposium on Ultrasonic Electronics, F, 2018 [C].
[37]Li Boyi, Li Ying, Liu Chengcheng, Xu Feng, Le Lawrence H, Ta Dean. Application of Dynamic Time Warping Technique to Evaluate Microstructures of Cancellous Bones; proceedings of the 2018 IEEE International Ultrasonics Symposium (IUS), F, 2018 [C]. IEEE.
[38]Jiang Chen, Li Dan, Li Ying, Xu Feng, Liu Chengcheng, Ta Dean. Enhanced transcranial imaging using longitudinal-shearlongitudinal mode conversion with Barker code excitation; proceedings of the Proceedings of Symposium on Ultrasonic Electronics, F, 2018 [C].
[39]Diwu Qiangqiang, Li Boyi, Liu Ying Li1 Feng Xu1 Chengcheng, Ta Dean. Low-complexity ultrasonic backscattering measurement in cancellous bone evaluation; proceedings of the Proceedings of Symposium on Ultrasonic Electronics, F, 2018 [C].
[40]Chou Xingxing, Xu Feng, Li Ying, Liu Chengcheng, Ta Dean, Le Lawrence H. Variability in ultrasound backscatter induced by trabecular microstructure deterioration in cancellous bone [J]. BioMed Research International, 2018, 2018.
[41] 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 [J]. 应用声学, 2018, 37(1): 145-151.
[42]Li Ying, Liu Dan, Xu Kailiang, Ta Dean, Le Lawrence H, Wang Weiqi. Transverse and oblique long bone fracture evaluation by low order ultrasonic guided waves: a simulation study [J]. BioMed Research International, 2017, 2017.
[43]李颖, 徐峰, 刘成成, 许凯亮, 他得安, 王威琪. Estimating mean trabecular bone spacing based on the combination of Hilbert transform and fundamental frequency estimation [J]. 中国科学基金: 英文版, 2017, (3): 57-71.
[44]Liu Chengcheng, Zhang Rong, Li Ying, Xu Feng, Ta Dean, Wang Weiqi. An ultrasonic backscatter instrument for cancellous bone evaluation in neonates [J]. Engineering, 2015, 1(3): 336-343.
[45]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 [J]. 数据采集与处理, 2015, 30(2): 319-327.