颅脑与脊髓内微血管超快超声功能成像与血供障碍评价理论与方法研究
现在承担和参与的课题:
1. 2020.05 – 2022.05主持(1/9),“超声毛发理疗仪”,“复旦-自贸壹号医疗器械联合创新中心”科研项目,SGH2310020/005,40万元,在研
2. 2020.06 – 2023.05主持(1/12),“经颅超声聚焦与成像关键技术研究”,上海市青年科技启明星计划项目,20QC1400200,40万元,在研
3. 2020.01 – 2023.12主持(1/8),“脊髓超声功能成像方法研究”,国家自然科学基金面上项目,11974081,63万元,在研
4. 2019.06 - 2021.12主持(1/10),超快超声脑血管成像方法研究,上海市2019年度“科技创新行动计划”自然科学基金,19ZR1402700,20.0万元,在研
5. 2018.09 - 2021.08主持,多尺度超声弹性定征方法, 复旦大学引进人才项目, 150.0万元,在研
6. 2019.01 - 2023.12主持(1/5),跨尺度高分辨率的多模态超声骨成像仪器研制-超声成像算法研究及实现,基金委国家重大科研仪器研制项目(自由申请)项目子课题11827808,50.0万元,在研
7. 2015.04 - 2017.03主持(1/6),“Finite element resonant ultrasound spectroscopy to characterize maturation of cortical bone elastic properties”,欧盟Marie Skłodowska-Curie International Incoming Fellowship,H2020-MSCA-IF-2014 656712,17.8万欧元,结题
8. 2014.01 - 2016.12主持(1/7),“评价长骨的超声激发振动声导波方法研究”,国家自然科学基金青年,11304043,25万元,结题
申请专利情况
1. 许凯亮,凌非尧,陈琦,徐冬梅,杨春山,郑书航,他得安,李大为,王威琪.基于Radon变换的长骨相控超声信号定征与骨质评价系统[P].申请号:202110366930.9,申请日:2021-04-07
2. 许凯亮,臧佳琦,闫少渊,他得安,王威琪.超快超声多普勒脊髓微血流成像系统[P].申请号:2020107232683,申请日:2020-07-24
3. 许凯亮,闫少渊,他得安,王威琪.一种珠宝与首饰声共振谱仿伪方法[P].申请号:201911364291.1,申请日:2019-12-23
4. Jean-Gaberiel Minonzio (40%), Kailiang Xu (40%), Dean Ta (10%), Liang Bai (10%). Method and device for characterizing a waveguide. EP17306027.8, 2017-08-01.
5. 他得安,李云清,江晨,徐峰,许凯亮,一种基于多层介质声速模型的合成孔径超声成像方法,申请号:201910644216.4,申请日:2019.07.17
6. 他得安,许凯亮,江晨,李云清,一种基于射线理论相位修正的合成孔径波束形成方法[P].申请号:201911060860.3,申请日:2019-11-01
7. 他得安,许凯亮,王威琪.基于时域重排的超声导波频散补偿与多模式分离方法,申请号:201010502661,专利号:CN101982943
1. 2021年中组部第十六批青年海外高层次人才
2. 2020年复旦大学实践育人指导教师
3. 2020年上海市海外领军人才(青年)
4. 2019年复旦大学钟扬式科研团队称号
5. 2019年他得安,徐峰,李颖,李博艺,许凯亮,第五强强,刘成成,王威琪,骨超声诊疗仪,日内瓦国际发明展金奖排名5/8
6. 2018年他得安,王威琪,许凯亮,刘成成,宋小军,《超声评价骨骼的理论及方法研究》,上海市自然科学二等奖,排名3/5
7. 2016年他得安,王威琪,刘成成,许凯亮,徐峰,周国辉,李颖,韩海杰,王文斌,宋小军,《骨骼系统超声诊断的新方法、仪器及应用》,获教育部科技进步二等奖,排名4/10
8. 2015年欧盟玛丽居里学者
9. 2014年《超声导波评价长骨状况的研究》,上海市优秀博士论文
10. 2013年他得安,周国辉,韩海杰,王文斌,许凯亮,王威琪,《松质骨超声背散射诊断技术及系统》,第二十五届上海优秀发明选拔赛,优秀发明金奖,排名第5/6
11. 2012年上海市优秀毕业生
1. Jiaqi Zang, Kailiang Xu*, Qingjian Han, Qiyong Lu, Yongfeng Mei, Dean Ta, Non-Contrast-Enhanced Ultrafast Ultrasound Doppler Imaging of the Spinal Cord Micro-Vessels, Acta Phys. Sin., 2021.
2. Qi Chen, Kailiang Xu*, and Dean Ta*, High-resolution Lamb waves dispersion curve estimation and elastic property inversion in an isotropic plate, Ultrasonics, 115, 106427, 2021.
3. 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, 68(4), 935-951, 2021.
4. Chen Jiang, Ying Li, Kailiang Xu*, Dean Ta*, Phase shift migration method for transcranial ultrasonic imaging, IEEE T. Ultrason. Ferr. Freq. Control, 68(1): 72-83, 2020.
5. Paul Muleki-Seya, Kailiang Xu, Mickael Tanter, Olivier Couture, Ultrafast Radial Modulation Imaging, IEEE T. Ultrason. Ferr. Freq. Control, 67(3), 598- 611, 2020.
6. 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.
7. 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.
8. Wenfa Zhu, Haiyan Zhang, Fanjie Liu, Mengyun Xu, Guopeng Fan, Xiaodong Chai, Kailiang Xu, Lamb wave topological imaging of multiple blind defects in isotropic plates, Int. J. of Acoust. Vib., 24(2), 320-326, 2019.
9. 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.
10. 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.
11. Kailiang Xu*, Pascal Laugier, Jean-Gabriel Minonzio, Dispersive Radon transform. J. Acoust. Soc. Am., 143(5), 2729-2743, 2018.
12. Zhengli Liu, Lianghua Song, Liang Bai, Kailiang Xu*, Dean Ta*, Vibro-acoustic stimulating ultrasonic guided waves in long bone, Acta Phys. Sin., 66(15), 154303, 2017.
13. Kailiang Xu*, Jean-Gabriel Minonzio, Dean Ta et al., 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 (invited paper).
14. Kailiang Xu*, Dean Ta, Didier Cassereau et al., Multichannel processing for dispersion curves extraction of ultrasonic axial-transmission signals: Comparisons and case studies. J. Acoust. Soc. Am., 14(3), 1758-1770, 2016.
15. Kailiang Xu*, Dean Ta, Bo Hu et al. Wideband dispersion reversal of Lamb waves, IEEE T. Ultrason. Ferr. Freq. Control, 61(6): 997-1005, 2014.
16. Kailiang Xu, Dean Ta, Runxin He et al. 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.
17. Kailiang Xu, Dan Liu, Dean Ta et al. Quantification of guided mode propagation in fractured long bones. Ultrasonics, 54(5): 1210-1218, 2014.
18. Kailiang Xu, Dean Ta, Zhongqing Su et al. Transmission analysis of ultrasonic Lamb mode conversion in a plate with partial-thickness notch. Ultrasonics, 54(1): 395-401, 2014.
19. Kailiang Xu, Dean Ta, Petro Moilanen et al. Mode separation of Lamb waves based on dispersion compensation method. J. Acoust. Soc. Am., 131(4): 2714-2722, 2012.
20. 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.