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Kailiang Xu
Department: 
Department of Biomedical Engineering
Office: 
No. 2 Interdisciplinary Building B5025(Jiangwan Campus, Fudan University)
Title: 
Researcher
Number: 
021-31242521
Email: 
xukl@fudan.edu.cn

Education Background

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● 09/2007 ~ 06/2012 Fudan University Department of Electronic Engineering, biomedical engineering Tutor: Academician Weiqi Wang , Professor Dean Ta

● 09/2002 ~ 06/2006 Inner Mongolia University Department of Electronic Engineering, Electronic Information Science and Technology Bachelor's degree

Computer Science and Technology Bachelor's degree(minor)

Research Experience

● 09/2018 Fudan University Young Researcher

● 04/2017 ~ 08/2018 Researcher, Langevin Laboratory, France

● 04/2015 ~ 03/2017 Eu Marie Curie Scholar, Laboratoire d 'Imagerie Biomedicale, Universite De Paris Vi, France

● 04/2014 ~ 04/2015 Postdoc, Laboratoire d 'Imagerie Biomedicale, Universite De Paris Vi, France

● 05/2012 ~ 04/2014 Postdoctoral fellow, Department of Electronic Engineering, Fudan University, Electronic Science and Technology postdoctoral research station

● 09/2011 ~ 03/2012 Visiting Scholar, Department of Biomedical Engineering, Stony Brook University, USA

● 01/2011 ~ 02/2011 Visiting Scholar, Department of Physics, Jyvaskyla University, Finland

Research Direction

● Medical ultrasound, such as quantitative bone ultrasound determination, ultra-fast ultrasound, ultra-resolution ultrasound imaging, three-dimensional ultrasound imaging, shear wave elastic imaging, etc.

● Industrial ultrasound, such as ultrasonic resonance spectroscopy, ultrasonic guided wave fatigue detection, damage evaluation and imaging system development, etc.

● Acoustic numerical simulation, such as finite element (FEM), finite difference time domain (FDTD), boundary element (BEM), etc.

● Acoustic signal processing, spectral estimation, dispersive Radon transform, compressed sensing, time-frequency analysis, linear and nonlinear ultrasonic signal processing, etc.

● Acoustic inverse problem solving, such as Markov Chain Monte Carlo method and Prjump Markov Chain Monte Carlo method, and full waveform inversion, etc

Scientific Research Project

● Host, the eu Marie Curie fund project (Marie Sk ł odowska - Curie International Incoming Fellowship), "Finite element resonant ultrasound spectroscopy to characterize maturation of cortical ipads elastic properties"

● Presided over the National Natural Science Foundation youth Project, "Study on ultrasonic Vibration Guided Wave Method for Evaluating long bones";

Honors and Awards

● 2016 Outstanding achievement award in scientific research of institutions of higher learning, second prize of scientific and technological progress, ranking 4/10

● 2015 Marie Curie scholar (top 15%, over 8000 applicants)

● 2014 Excellent doctoral thesis in Shanghai

● 2013 25th Shanghai excellent invention competition, gold medal of excellent invention, ranking 5/6

● 2012 Outstanding graduate of Shanghai

● 2010 Academic scholarship, fudan university, first class

● 2010 Outstanding student, fudan university

● 2008 Outstanding Student, Fudan University

Concurrent Academic Posts

● Secretary of biomedical ultrasonic engineering branch of acoustical society of China

● Member of ultrasonic transducer and material professional committee

● Member of acoustical society of China

● IEEE member

● Long-term invitation to serve as the following journal reviewer

J. Acoust. Soc. Am.

Ultrasonics

Ultrasound in Med. & Biol.

IEEE T. Ultrason. Ferr. Freq. Control

IEEE T. Ind. Inf.

Comput. Biol. Med.

Sci. China Technol. Sc.

Mech. Syst. Signal Process.

Compos. Struct.

Struct. Health Monit.

NDT & E International

J. Biomechanics

Representative Papers

1.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[J].复旦学报(自然科学版),2023,62(04):409-418.

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

3.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.

4.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.

5.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.

6.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.

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

8.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.

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

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.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.

12.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.

13.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

14.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

15.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.

16.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

17.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

18.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

19.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

20.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

21.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

22.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

23.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.

24.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.

25.Yifang Li,Kailiang Xu*, Ying Li, Feng Xu, Dean Ta*, Deep learning analysis of ultrasonic guided waves for cortical bone characterization, IEEE T. Ultrason. Ferr. Freq. Control, 2020. (Accept)

26.Chen Jiang, Ying Li,Kailiang Xu*, Dean Ta*, Phase shift migration method for transcranial ultrasonic imaging, IEEE T. Ultrason. Ferr. Freq. Control, 2020. (Accept)

27.Sumayyah Naeem, Farah Naeem, Jing Zhang, Jawayria Mujtaba,Kailiang Xu, Gaoshan Huang, Alexander A Solovev, Yongfeng Mei, Parameters Optimization of Catalytic Tubular Nanomembrane-Based Oxygen Microbubble Generator, Micromachines, 11(7), 643, 2020.

28.Paul Muleki-Seya,Kailiang Xu, Mickael Tanter, Olivier Couture, Ultrafast Radial Modulation Imaging, IEEE T. Ultrason. Ferr. Freq. Control, 67(3), 598- 611, 2020.

29.Yunqing Li, Chen Jiang, Ying Li, Feng Xu,Kailiang Xu*, Dean Ta*, Lawrence H. Le, Multi-layer velocity model based synthetic aperture ultrasound imaging of cortical bone, Acta Phys. Sin., 68(18): 184302, 2019.

30.Zhenli Liu,Kailiang Xu*, Dan Li, Dean Ta*, Weiqi Wang, Automatic mode extraction of ultrasonic guided waves using synchrosqueezed Wavelet transform, Ultrasonics, 99, 105948, 2019.

31.Kailiang Xu*, Guillaume Marrelec, Simon Bernard, Quentin Grimal, Lorentzian-Model-Based Bayesian Analysis for Automated Estimation of Attenuated Resonance Spectrum, IEEE T. Signal Proces., 67(1): 4-16, 2019.

32.Laing Bai,Kailiang Xu*, Dan Li, Dean Ta*, Lawrence H. Le, Weiqi Wang, Fatigue evaluation of long cortical bone using ultrasonic guided waves. J. Biomehannics, 77, 83-90, 2018.

33.Kailiang Xu*, Pascal Laugier, Jean-Gabriel Minonzio, Dispersive Radon transform. J. Acoust. Soc. Am., 143(5), 2729-2743, 2018.

34.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 T. Ultrason. Ferr. Freq. Control, 63(10): 1514-1524, 2016. (IEEE IUS大会优秀论文,曾三次入选IEEE UFFC期刊重点推荐论文).

35.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., 140(3), 1758-1770, 2016.

36.Kailiang Xu*, Dean Ta*, Bo Hu, Pascal Laugier. Wideband dispersion reversal of Lamb waves, IEEE T. Ultrason. Ferr. Freq. Control, 61(6): 997-1005, 2014.

37.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 Med. & Biol., 40(4): 817-827, 2014.

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

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

40.Kailiang Xu, Dean Ta, Petro Moilanen, Weiqi Wang. Mode separation of Lamb waves based on dispersion compensation method. J. Acoust. Soc. Am., 131(4): 2714-2722, 2012.

41.Kailiang Xu, Dean Ta, Weiqi Wang, Multiridge-based analysis for separating individual modes from multimodal guided wave signals in long bones. IEEE T. Ultrason. Ferr. Freq. Control, 57(11): 2480-2490, 2010.

Note: * is corresponding author