Gong C, Shao X, Wu T, et al. Total variation optimization for imaging through turbid media with transmission matrix[J]. Optical Engineering, 2016, 55(12): 121703-121703.
Gong R, Wang Q, Shao X, et al. A color calibration method between different digital cameras[J]. Optik-International Journal for Light and Electron Optics, 2016, 127(6): 3281-3285.
Liu, Fei; Shao, Xiaopeng; Gao, Ying. Polarization characteristics of objects in long-wave infrared range. Journal of Optical Society of America A, 2016, 33(2): 237-243
Liu F, Cao L, Shao X, et al. Polarimetric dehazing utilizing spatial frequency segregation of images[J]. Applied Optics, 2015, 54(27): 8116-8122.
Fei L, Xiao-Peng S, Bin X, et al. Effects of Finite Surface on Polarization State of Thermal EmissionSupported by the Fundamental Research Funds for the Central Universities under Grant No NSIY021402[J]. Chinese Physics Letters, 2015, 32(11): 114203.
Wu T, Shao X, Gong C, et al. Imaging through a highly scattering medium with structural similarity and genetic algorithm[J]. Optical Engineering, 2014, 53(10): 103101-103101.
Liu F, Shao X, Han P, et al. Detection of infrared stealth aircraft through their multispectral signatures[J]. Optical Engineering, 2014, 53(9): 094101-094101.
Shao X, Wu T, Gong C. Simulation on light refocusing through a highly scattering turbid medium using circular Gaussian distribution model[J]. Optical Engineering, 2013, 52(11): 113104-113104.
Shao X, Fan H, Lu G, et al. An improved infrared dim and small target detection algorithm based on the contrast mechanism of human visual system[J]. Infrared Physics & Technology, 2012, 55(5): 403-408.
EI检索:
Ligen Peng,Weijia Dai,Xiaopeng Shao. Particle swarm optimization for focusing by phase modulation through scattering media[C]. Proc. SPIE9124, 2014, 14647932.
Weijia Dai,Ligen Peng,Xiaopeng Shao. Focusing through a turbid medium by amplitude modulation with genetic algorithm[C]. Proc. SPIE9124, 2014, 14647931.
Qiuhua Luo,Lin Wang,Hong Yang,Shaohui Zhang,Xiaopeng Shao. MTF compensation method utilizing the curved edge for high-resolution satellite image recovery[C]. Proc. SPIE9124, 2014, 14647909.
Pingli Han,Fei Liu,Xiaopeng Shao. Pixel-level image reconstruction method of polarization images acquired by multi-aperture imaging systems[C]. Proc. SPIE9124, 2014, 20143518105790.
Lin Wang,Xu Wang,Xiaopeng Shao. No-reference remote sensing image quality assessment using a comprehensive evaluation factor[C]. Proc. SPIE9124, 2014, 14647946.
Qinghui Li,Xiaopeng Shao. Spherical aberration and modulation transfer function[C]. Proc. SPIE9124, 2014, 14647930.
Fei Liu,Xiaopeng Shao,Pingli Han. A novel IR polarization imaging system designed by a four-camera array[C]. Proc. SPIE9124, 2014, 14647949.
Xiaopeng Shao, Xiaoming Zhao,Jun Xu, Jianqi Zhang. Infrared texture modelling based on Gaussian-Markov random fields, International Journal of Infrared and Millimeter Waves, 2004.11.
Qinghui Li,Xiaopeng Shao. Imaging characteristics of ball lens[C]. Proc. SPIE9124, 2014, 20143518105786.
Shaohui Zhang,Lin Wang,Xueyan Shi,Xu Wang,Xiaopeng Shao. High-resolution remote sensing image restoration based on double-knife-edge method[C]. Proc. SPIE9124, 2014, 14647939.
Shao X, Wu T, Gong C. Imaging quality comparison of two typical methods forimaging through turbid media[C]//SPIE Defense+ Security. International Society for Optics and Photonics, 2014: 908331-908331-9.
Shao X, Du J, Wang L. A compressed coded aperture imaging warning system[C]//SPIE Sensing Technology+ Applications. International Society for Optics and Photonics, 2014: 91240F-91240F-8.
Shao X, Du J, Wang Y. Design of measurement system for low illuminance CCD’s key performance parameters[C]//ISPDI 2013-Fifth International Symposium on Photoelectronic Detection and Imaging. International Society for Optics and Photonics, 2013: 89121I-89121I-10.
Changmei Gong,Xiaopeng Shao,Tengfei Wu. Exploiting adaptive total variation model for image reconstruction from speckle patterns[C]. Proc. SPIE8911, 2013: 891107, 20141317516463.
Changmei Gong,Xiaopeng Shao,Tengfei Wu. An adaptive total variation image reconstruction method for speckles through disordered media[C]. Proc. SPIE8877, 2013:88770C, 20134817032051.
Juan Du,Xiaopeng Shao,Cheng Zhong. Multi-shot encoded compressive imaging method for super-resolution[C]. Proc. SPIE8910,2013, 20141317516409.
Fei Liu,Xiaopeng Shao,Pingli Han. A normal laser warning system model based on Hadamard Transform[C]. Proc. SPIE8871, 2013, 13939162.
Xiaopeng Shao,Hong Yang,Shaohui Zhang,Zhenhua Jin,Juan Du. High-resolution satellite image recovery by modulation transfer function (MTF)[C]. Proc. SPIE 8871, 2013, 52(11).
Xiaopeng Shao,Hong Yang,Shaohui Zhang,Zhenhua Jin,Juan Du. High-resolution satellite image recovery by modulation transfer function (MTF) compensation method using phase congruency[C]. Proc. SPIE 8871, 2013.
Xiaopeng Shao,Cheng Zhong, Phase congruency assesses hyperspectral image quality. Proc. SPIE 8514, Satellite Data Compression, Communications, and Processing VIII, 851408 (October 19, 2012); doi:10.1117/12.929183.
Xiaopeng Shao,Changmei Gong,Jun Xu. Infrared texture simulation using non-parameteric random field model. Proc. SPIE, Vol. 6787, 67871C, 2007. ISIP:000252431100047.