期刊论文
14.S. Chen*, G. Wang, X. Cui and Q. Liu*, Stepwise method based on Wiener estimation for spectral reconstruction in spectroscopic Raman imaging, Optics Express 25(2), 1005-1018, 2017 (SCI, Q1, IF = 3.1)
13.X. Cui, H. Fan, H. Chen, S. Chen, Y. Zhao and K. Lim, Epipolar geometry for prism based single-lens stereovision, Machine Vision and Applications 28(3), 313-326, 2017 (SCI, Q2, IF = 1.3)
12.S. Chen, C. Zhu, C. H.-K. Chui, G. Sheoran, B.-K. Tan and Q. Liu*, Spectral diffuse reflectance and autofluorescence imaging can perform early prediction of blood vessel occlusion in skin flaps, Journal of Biophotonics, 2017 (In Press, SCI, Q1, IF = 3.8)
11. D. Wei, S. Chen, Y. Ong and Q. Liu*, Fast wide-field Raman spectroscopic imaging based on simultaneous multi-channel image acquisition and Wiener estimation, Optics Letters 41(12), 2783-2786, 2016(SCI, Q1, IF = 3.3)
10.S. Chen, Y. H. Ong and Q. Liu, "A Method to Create a Universal Calibration Dataset for Raman Reconstruction Based on Wiener Estimation," Selected Topics in Quantum Electronics, IEEE Journal of 22(3), 164-170, 2016 (SCI, Q1, IF = 3.5)
9.C. Zhu, S. Chen, C. H.-K. Chui, B.-K. Tan and Q. Liu, "Early detection and differentiation of venous and arterial occlusion in skin flaps using visible diffuse reflectance spectroscopy and autofluorescence spectroscopy," Biomedical Optics Express 7(2), 570-580, 2016 (SCI, Q1, IF = 3.6)
8. S. Chen, Y. Ong, X. Lin and Q. Liu*, Optimization of advanced Wiener estimation methods for Raman reconstruction from narrow-band measurements in the presence of fluorescence background, Biomedical Optics Express, 6(7), 2633-2648, 2015 (SCI, Q1, IF = 3.6)
7. D. Wei, S. Chen and Q. Liu*, Review of Fluorescence Suppression Techniques in Raman Spectroscopy, Applied Spectroscopy Reviews, 50(5), 387-406, 2015 (SCI, Q1, IF = 4.3)
6. S. Chen, X. Lin, C. Zhu and Q. Liu*, Sequential weighted Wiener estimation for estimation of key tissue parameters in color imaging: a phantom study, Journal of Biomedical Optics 19(12), 127001, 2014 (SCI, Q1, IF = 2.9)
5. S. Chen, X. Lin, C. Yuen, S. Padmanabhan, R. Beuerman and Q. Liu*, Recovery of Raman spectra with low signal-to-noise ratio using Wiener estimation, Optics Express, 20(10), 12102-12114, 2014 (SCI, Q1, IF = 3.5)
4. C. Zhu, S. Chen, C. H. Chui and Q. Liu*, Early prediction of skin viability using visible diffuse reflectance spectroscopy and autofluorescence spectroscopy, Plastic and Reconstructive Surgery, 134(2), 240e-247e, 2014 (SCI, Q1, IF = 3.0)
3. S. Chen, Y. H. Ong, and Q. Liu*, Fast reconstruction of Raman spectra from narrow-band measurements based on Wiener estimation, Journal of Raman Spectroscopy, 44(6), 875-881, 2013 (SCI, Q1, IF = 2.7)
2. S. Chen and Q. Liu*, Modified Wiener estimation of diffuse reflectance spectra from RGB values by the synthesis of new colors for tissue measurements, Journal of Biomedical Optics, 17(3), 030501, 2012 (SCI, Q1, IF = 2.9)
1. S. Chen, X. Feng, Y. Li, C. Zhou, P. Xi* and Q. Ren*, Software Controlling Algorithms for the System Performance Optimization of Confocal Laser Scanning Microscope, Biomedical Signal Processing and Control, 5(3), 223-228, 2010 (SCI, Q2, IF = 1.4)
专利
3. US Provisional Patent Application No., 15/111,091, Jul. 12, 2016, "Device for determining a condition of an organ and method of operation the same", Quan Liu - Singapore, Roger Beuerman - Sigapore, Shuo Chen - Singapore.
2. Singapore Provisional Patent Application No. 10201407068U, Oct. 29, 2014, "Sequential Weighted Wiener Estimation For Estimation Of Key Issue Parameters In Color Imaging", Quan Liu - Singapore and Shuo Chen - Singapore.
1. US Provisional Patent Application No., 61/682,903, Aug. 14, 2012, "Modified Wiener estimation of diffuse reflectance spectra from RGB values by the synthesis of new colors for tissue measurements", Quan Liu - Singapore and Shuo Chen - Singapore.
国际会议
17. S. Chen and Q. Liu, A stepwise spectral reconstruction method for spectroscopic Raman imaging, Proc. SPIE 10054, Advanced Biomedical and Clinical Diagnostic and Surgical Guidance Systems XV (Jan. 29, 2017, oral)
16. S. Chen and Q. Liu, A programmable Raman spectroscopic imaging technique, Proc. SPIE 9720, High-Speed Biomedical Imaging and Spectroscopy: Toward Big Data Instrumentation and Management (Feb. 14, 2016, poster)
15. D. Wei, S. Chen, Y. H. Ong, Q. Liu, Fast wide-field Raman imaging system based on and multi-channel detection and Wiener estimation, Proc. SPIE 9720, High-Speed Biomedical Imaging and Spectroscopy: Toward Big Data Instrumentation and Management (Feb. 13, 2016, oral)
14. S. Chen, Q. Liu, A method to create a universal calibration data set for Raman reconstruction based on Wiener estimation, Proc. SPIE 9537, Clinical and Biomedical Spectroscopy and Imaging IV (June 24, 2015, oral)
13. S. Chen, X. Lin, C. Yuen, S. Padmanabhan, R. Beuerman, Q. Liu, Noise removal of Raman spectra with extremely low signal to noise ratio, Proc. SPIE 9318, Optical Biopsy XIII (February 11, 2015, oral)
12. C. Zhu, S. Chen, C. H. Chui, B. Tan, Q Liu, Assessment of venous and arterial occlusion in skin flaps using visible diffuse reflectance spectroscopy and autofluorescence spectroscopy in a rodent model, Proc. SPIE 9303, Photonics in Dermatology and Plastic Surgery (February 7, 2015, oral)
11. S. Chen, X. Lin, Q. Liu, Fast reconstruction of Raman spectra from wide-band measurements of Raman signals with fluorescence background. Proc. SPIE 8940, Optical Biopsy XII (February 4, 2014, oral)
10. S. Chen, X. Lin, C. Zhu, Q. Liu, Rapid estimation of key tissue parameters from wide-band diffuse reflectance measurements based on sequential weighted Wiener estimation. Proc. SPIE 8935, Advanced Biomedical and Clinical Diagnostic and Surgical Guidance Systems XII (February 2, 2014, poster)
9. C. Zhu, S. Chen, C. H. Chui, B. Tan, Q Liu, Early prediction of skin flap viability using visible diffuse feflectance spectroscopy and autofluorescence spectroscopy. Proc. SPIE 8935, Advanced Biomedical and Clinical Diagnostic and Surgical Guidance Systems XII (February 2, 2014, oral)
8. S. Chen, Y. H. Ong, and Q. Liu, Fast reconstruction of Raman spectra from narrow-band measurements based on Wiener estimation. Proc. SPIE 8553, Optics in Health Care and Biomedical Optics V, 85531R (December 11, 2012, oral)
7. C. Zhu, S. Chen, C. H. Chui and Q. Liu, Assessment of skin flap viability using visible diffuse reflectance spectroscopy and auto-fluorescence spectroscopy. Proc. SPIE 8553, Optics in Health Care and Biomedical Optics V, 85531T (December 11, 2012, oral)
6. S. Chen and Q. Liu, Estimation of diffuse reflectance spectrum from RGB values by the synthesis of new colors for tissue measurements. Proc. SPIE 8214, Advanced Biomedical and Clinical Diagnostic Systems X, 821406 (February 9, 2012, oral)
5. M. Gao, D. Wei, S. Chen, Fully Automatic Segmentation of Brain Tumor in CT Images, (Session Number: SU-E-J-50). AAPM Annual Meeting, Medical Physics, 2011, vol.38, No. 6, pp. 3453 (poster)
4. S. Chen, D. Wei, M. Gao, Extraction of Blood Flow Patterns and Calculation of Heart Function Parameters in Dual Source CT Angiography, (Session Number: SU-E-I-11). AAPM Annual Meeting, Medical Physics, 2011, vol.38, No. 6, pp. 3398 (poster)
3. M. Gao, S. Chen, 2100 POSTER Fully Automatic Segmentation of Brain Tumour in CT Images, European Journal of Cancer, Volume 47, Supplement 1, September 2011, Page S209 (poster)
2. M. Gao, S. Chen, D. Wei. Extraction of Blood Flow Patterns from Coronary Angiographic Data, (Session Number: SU-GG-I-185). AAPM Annual Meeting, Medical Physics, 2010, vol.37, No.6, pp.3144 (poster)
1. X. Feng, B. Gao, P. Xi, C. Zhou, Y. Li, S. Chen, Q. Ren, Multimodality confocal imaging and its application in revealing biomedical histopathology, Focus On Microscopy 2009, Krakow, Poland (oral)