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上海交通大学 约翰·霍普克罗夫特计算机科学中心导师教师师资介绍简介-YuyeLing

本站小编 Free考研考试/2021-01-02

Assistant Professor
yuye dot ling at sjtu dot edu dot cn
http://www.yuyeling.com
Room 1106-2, No.1 Software Building



Yuye Ling


About

I am currently a tenure-track Assistant Professor in John Hopcroft Center for Computer Science at Shanghai Jiao Tong University (SJTU).
Prior to joining SJTU, I was a postdoctoral research scientist at Columbia University. I received my Ph.D. degree from the same institution under the supervision of Prof. Christine P. Hendon.

Research Interests

Optical coherence tomography
Biomedical image processing and analysis
Optical system development
Nonlinear and coherence optics

Selected Publications

Journals:Y. Ling, M. Wang, X. Yao, Y. Gan, L. Schmetterer, C. Zhou and Y. Su. “The effect of spectral leakage on the image formation of Fourier-domain optical coherence tomography,”Optics Letters, vol. 45, no. 22 (2020).
Y. Ling, M. Wang, Y. Gan, X. Yao, L. Schmetterer, C. Zhou and Y. Su. “Beyond Fourier transform: super-resolving optical coherence tomography,”arXiv:2001.03129v2(2020).
S. An, Q. Zhu, J. Li,Y. Ling, and Y. Su. “112-Gb/s SSB 16-QAM signal transmission over 120-km SMF with direct detection using a MIMO-ANN nonlinear equalizer,”Optics Express, vol. 27, no. 9, 12794-12805 (2019).
Y. Ling, W.Meiniel, R. Singh-Moon, E. Angelini, J.-C.Olivo-Marin, C. P. Hendon. “Compressed sensing-enabled phase-sensitive swept-source optical coherence tomography,”Optics Express,vol. 27, no. 2, 855-871 (2019).
X. Yao, Y. Gan,Y. Ling, C. C. Marboe, C. P. Hendon. “Multi-contrast Endomyocardial Imaging By Single-channel High Resolution Cross-polarization Optical Coherence Tomography,”Journal of Biophotonics, vol. 14, no. 4, e (2018).
J. P. McLean,Y. Ling, C. P. Hendon. “Frequency-constrained robust principal component analysis: a sparse representation approach to segmentation of dynamic features in optical coherence tomography imaging,”Optics Express, vol. 25, no. 21, 25819-25830 (2017).
Y. Ling, X. Yao, C. P. Hendon. “Highly phase-stable 200 kHz swept-source optical coherence tomography based on KTN electro-optic deflector,”Biomedical Optics Express, vol. 8, no. 8, 3687-3699 (2017).
Y. Ling, Y. Gan, X. Yao, C. P. Hendon. “Phase noise analysis of swept-source optical coherence tomography system,”Optics Letters, vol. 42, no. 7, 1333-1336 (2017).
Y. Ling, X. Yao, U. A. Gamm, E. Arteaga-Solis, C. W. Emala, M. A. Choma, C. P. Hendon. “Ex vivovisualization of human ciliated epithelium and quantitative analysis of induced flow dynamics by using optical coherence tomography,”Lasers in Surgery and Medicine, vol. 49, no. 3, 270-279 (2017).Editor’s Choice.
Z. Gorocs,Y. Ling, M. D. Yu, D. Karahalios, K. Mogharabi, K. Lu, Q. Wei, A. Ozcan. “Giga-pixel fluorescent imaging over an ultra-large field-of-view using a flatbed scanner,”Lab on a Chip13, 4460-4466 (2013).
Z. He, Z. Ye, Q. Cui, J. Zhu, H. Gao,Y. Ling, H. Cui, J. Lu, X. Guo, Y. Su. “Reflection chromaticity of cholesteric liquid crystals with sandwiched periodical isotropic defect layers,”Optics Communications, vol. 284, no. 16-17, 4022-4027 (2011).
Conferences:
M. Wang,Y. Ling*, Y. Su, “An iterative algorithm for artifacts removal in Fourier-domain optical coherence tomography,” in Photonics West 2021, accepted.
J. Li,Y. Ling*, J. He*, P. Jin, J. Zhu, H. Zou, X. Xu, Y. Gan, Y. Su, “A GCN-Assisted Deep Learning Method for Peripapillary Retinal Layer Segmentation in OCT Images,” in Photonics West 2021, accepted.
Y. Ling, M. Wang, Y. Gan, X. Yao, L. Schmetterer, C. Zhou, and Y. Su, “Modelling The Shift-Variance in Fourier-Domain Optical Coherence Tomography,” in Photonics West 2021, accepted.
Y. Ling, M. Wang, Y. Gan, X. Yao, L. Schmetterer, C. Zhou, and Y. Su, “A Mixed-Signal Framework for Modelling Fourier-Domain Optical Coherence Tomography,” in ACP/IOPC 2020, Accepted.
S. Cao, X. Yao, N. Koirala, B. Brott, S. Litovsky,Y. Ling, and Y. Gan, “Super-resolution technology to simultaneously improve optical & digital resolution of optical coherence tomography via deep learning,” in 2020 42th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), Montreal, QC, Canada, 2020, pp. 1879-1882.
Q. Zhu, S. An, R. Cao,Y. Ling, and Y. Su. “Fast and Wide-Range Wavelength Locking Based on a Two-Layer Neural Network in a Silicon Microring Switch,” inProc. OFC 2019, W1E.1.
Y. Ling, J. P. McLean, C. P. Hendon. “Data Compression of Time-lapse Optical Coherence Tomography Images Based On Low-rank Plus Sparse Reconstruction,” inOSA Biophotonics Congress 2018, JW3A.35.
J. P. McLean,Y. Ling, C. P. Hendon. “A temporal-frequency variant on robust-principle component analysis for segmentation of motile cilia in optical coherence tomography images(Oral Presentation),” inProc. SPIE 10574, Medical Imaging 2018, 105741C.
X. Yao, Y. Gan,Y. Ling, C. C. Marboe, C. P. Hendon. “Functional endomyocardial imaging by single-channel high resolution cross-polarization OCT(Oral Presentation),” inProc. SPIE 10471 (Photonics West 2018), 104710K.
Y. Ling, W. Meiniel, J.-C. Olivo-Marin, E. D. Angelini, C. P. Hendon, “Implementation and demonstration of compressed sensing enabled phase-resolved swept-source optical coherence tomography(Poster Presentation),” inPhotonics West2018, Paper 10483-90.
Y. Ling, C. P. Hednon, “Investigating mechanically induced phase response of the tissue by using high-speed phase-resolved optical coherence tomography(Oral Presentation),” inProc. SPIE 10067 (Photonics West 2017), 100670Q.
Y. Ling, X. Yao, U. A. Gamm, E. Arteaga-Solis, C. W. Emala, M. A. Choma, C. P. Hendon. “Visualization of ex vivo human ciliated epithelium and induced flow using optical coherence tomography(Oral Presentation),”Proc. SPIE 10041 (Photonics West 2017), **.
Y. Ling, C. P. Hednon, “Ultrahigh phase-stable swept-source optical coherence tomography as a cardiac imaging platform(Oral Presentation),” inProc. SPIE 9689 (Photonics West 2016), 968937.
Z. Gorocs,Y. Ling, M. D. Yu, D. Karahalios, K. Mogharabi, K. Lu, Q. Wei, A. Ozcan. “Fluorescent imaging over an ultra-large field-of-view of 532 cm2 using a flatbed scanner,” inProc. SPIE 8951 (Photonics West 2014), 89510D.
Y. Ling, W. Gao, S. Ouyang, G. Liang, Y. Su, H.‐P. D Shieh, “71.3: Flat‐Panel‐Display System Based on Interference Modulation for Both Intensity and Color,” inSID 2011, 42: 1049-1051.




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