Chongyang Wang
Beijing Information Science & Technology University
13 Papers
2 Citations
Chongyang Wang is an academic researcher from Beijing Information Science & Technology University. The author has contributed to research in topics: Optical coherence tomography & Elasticity (physics). The author has an hindex of 1, co-authored 3 publications.
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Papers
Optical coherence elastography and its applications for the biomechanical characterization of tissues.
Chongyang Wang,Jiang Zhu,Jiawei Ma,Xiao-Li Meng,Zongqing Ma,Fan Fan +5 more
TL;DR: The OCE methods for biomechanical characterization and current OCE applications in biomedicine are reviewed and the limitations and future development of OCE are discussed during its translation to the clinic.
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Characterizing Rayleigh wave and longitudinal shear wave propagation for measurements of elastic moduli using optical coherence elastography
TL;DR: In this article, a longitudinal shear wave and a Rayleigh wave were simultaneously visualized and analyzed, and the propagation characteristics of the elastic waves, including group speeds, frequency spectra, and frequency-dependent wave speeds.
3
Patent
Optical coherent elastic imaging method and device
Zhu Jiang,Fan Fan,Zhu Lianqing,Yang Qiang,Chongyang Wang +4 more
- 28 Jul 2020
TL;DR: In this paper, an optical coherent elastic imaging method using an ultrasonic sound beam to induce a sample to be tested to generate an elastic wave and a second elastic wave perpendicular to a vertical propagation direction is described.
1
Fast motion correction in optical coherence tomography with image feature matching
Xudong Chen,Zongqing Ma,Chongyang Wang,Jiang Zhu +3 more
- 29 Nov 2023
TL;DR: A fast motion correction method for OCT images based on image feature matching that can effectively correct motion artifacts of OCT images with a fast processing speed is proposed.
1
Optical coherence tomography angiography for mapping cerebral microvasculature based on normalized differentiation analysis
TL;DR: The measurements in a rat cerebral cortex show that the OCTA based on the normalized differentiation analysis can generate microvascular images with high quality and monitor spatiotemporal dynamics of blood flow with simple computation and fast processing before and after localized ischemia induced by arterial occlusion.
1