Sun Cuiru
School
School of Mechanical Engineering
Professional Title
Associate professor
Discipline
Mechanical Engineering
Contact Information
carry_sun@tju.edu.cn
Brief Introduction
Equipped with strong interdisciplinary knowledge, I seek to make a difference in optical metrology and biomedicine. My team undertake research in both fundamental theories of experimental mechanics, biomechanics, imaging and application focused instrumentation. I collaborate with people from various disciplines, to develop a vigorous laboratory for world-class research and students training.
Education Background
- Bachelor’s Degree| Hebei University of Technology| Mechatronics Engineering| 2000
- Master’s Degree| Tianjin University| Mechanics| 2005
- Doctoral degree| Ryerson University| Mechanical Engineering| 2009
Research Interests
- Experimental mechanics
• Three dimensional surface and inner deformation measurement
• Composite material experimental mechanics - Biomedical Imaging and Biomechanics
• Technical development and applications of optical coherence tomography (OCT) and intravascular OCT (IVOCT)
• Optical elastography for biomechanical property characterization
• Vascular mechanics and imaging
• Surgical guidance imaging probes
Positions & Employments
-
2012.8-2013.7
Department of Medicine | University of Toronto | Postdoctoral Research Fellow -
2010.1-2015.4
Department of Electrical and Computer Engineering | Ryerson University | Postdoctoral Research Fellow -
2010.1-2015.4
Division of Neurosurgery | Sunnybrook Health Sciences Centre | Visiting Scientist -
2015.4-2015.5
Sulon Technologies Inc. (Toronto, Canada) | Senior Optical Scientist -
2015.7-2019.12
Mechanical Engineering | Tianjin University | Associate Professor
Academic Achievements
- Papers
- [1] Digital image correlation-based optical coherence elastography
- [2] Preliminary study of digital image correlation based optical coherence elastography
-
- [3] ‘Wavelet domain compounding for speckle reduction in optical coherence tomography’
- [4] ‘Cadaveric In-Situ Testing of Optical Coherence Tomography System Based Skull Base Surgery Guidance'
- [5] ‘Vascular wall stress during intravascular optical coherence tomography imaging'
- [6] ‘Residual stress measurement via digital image correlation and sharp indentation testing,’