Dr. Hui Zhao

Professor
Xi'an Institute of Optics and Precision Mechanics (XIOPM) of Chinese Academy of Sciences (CAS)
NO.17 Xinxi Road, Xi'an,Shaanxi, China, 710119
Mobile Phone: +086-15353546148
Email: zhaohui@opt.ac.cn
Research Field:
Computational imaging ( Wave-front Coding, Compressive Sensing, Fourier Ptychography)
Advanced optical imaging ( Low and Ultra-low Light Imaging, Super-resolution imaging, Laser Imaging)
Active/Adaptive optics (Variable Curvature Mirror technique, Wave-front Sensing and Control)
Image Restoration and Calibration for Astronomical Telescope

Biography:
Hui Zhao, male, Master’s supervisor, Professor, was born in Xi’an in 1981. He received his BS in information science and technology in 2004 and his PhD in optical engineering in 2009 from Zhejiang University. He has been working at Space Optics Lab in Xi’an Institute of Optics and Precision Mechanics of CAS since 2009 and he has taken up the post of the Deputy Director of Space Optics Lab since 2019. In 2013, Hui Zhao joined the Youth Innovation Promotion Association of CAS and in 2016 he was awarded as Young technology stars in Shaanxi Province. As Master’s supervisor, Dr. Hui Zhao has trained 7 postgraduates and another 7 Master’s degree candidates are doing researches under his guidance. In recent five years, Dr. Hui Zhao has published totally 24 papers (including 17 EI indexed papers and 7 SCI indexed papers in which one paper published in Applied Optics is selected as the Editor’s Pickup paper) as the first author. At the same time, Dr. Hui Zhao was granted 9 patents for invention and 6 utility model patents as the first inventor.

Representative Publications:
（1） Improvement of image deblurring for opto-electronic joint transform correlator under projective motion vector estimation, Optics Communications, 2014,
（2） Tunable wave-front coded imaging system based on detachable phase mask: mathematical analysis, optimization and underlying application, optics communications, 2014
（3） Bandwidth tunable wave-front coded imaging system, COSI held by OSA, 2014（4） CFRP variable curvature mirror used for realizing nonmoving element optical zoom imaging, IODC held by OSA, 2014
（5） An improved opto-digital joint transform correlator reducing the influence of defocus on image motion measurement, Photonics Asia, 2014（6） CFRP variable curvature mirror used for optical zoom imaging without introducing moving element: prototype design and experimental demonstration, Photonics Asia, 2014
（7） Design and experimental demonstration of variable curvature mirror having a large saggitus variation, Photonics Asia, 2014
（9） All-reflective optical bifocal zooming system without moving elements based on deformable mirror for space camera application, Applied Optics , 2013
（13） Analytical and experimental demonstration of depth of field extension for incoherent imaging system having a standard sinusoidal phase mask, Chinese Optics Letters, 2012.
（14） Prototype design of an all-reflective non-coaxial optical zooming system for space camera application without moving elements based on deformable mirror, Proc. of SPIE, Photonics 2012, 2012.
（15） Research on design of a cubic conjugate phase mask having the capability of controlling the bandwidth of wave-front coding system, Proc. of SPIE, Photonics Asia 2012, 2012.
（19） Influences of Sinusoidal Component on Typical Phase Masks Used to Realize Wave-front Coding Technique, International Conference on Electronics and Optoelectronics , 2011.
（20） Extending the depth of field of incoherent imaging system through wave-front coding by using composite phase masks, SPIE 7th International Symposium on Multi-spectral Image Processing and Pattern Recognition, 2011.
（21） High-precision Image Motion Measurement Applied for Space Camera Based on Hybrid Opto-digital Joint Transform Correlator, SPIE 7th International Symposium on Multi-spectral Image Processing and Pattern Recognition, 2011.
（24） Cubic sinusoidal phase mask: Another choice to extend the depth of field of incoherent imaging system, Optics and Laser Technology, 2010.
（25） Optimized sinusoidal phase mask to extend the depth of field of an incoherent imaging system, Optics Letters, 2010.
（26） Performance of an improved logarithmic phase mask with optimized parameters in a wave-front coding system, Applied Optics, 2010.
（27） Optimized logarithmic phase masks used to generate defocus invariant modulation transfer function for wavefront coding system, Optics Letters, 2010.
（28） Approximate analytical optical transfer function for a wave-front coded imaging system with two dimensional rectangularly separable phase masks, Optical Engineering, 2010.
（29） Improved digital processing method used for image motion measurement based on hybrid opto-digital joint transform correlator, Chinese Optics Letters, 2010.
（30） Experimental research on image motion measurement using optical joint transform correlator for space camera application, Proc. of SPIE, Photonics Asia 2010, 2010.
（31） Comprehensive performance analysis of popular odd-symmetric phase masks used for wave-front coded imaging system, Proc. of SPIE, Photonics Asia 2010, 2010.