科研成果
2026(持续更新中)
· Zhang Tianpei, Zhu Yiming, Zhao Jufeng, Cui Guangmang and Zheng Yuchen, Exploring State Space Model in Wavelet Domain: An Infrared and Visible Image Fusion Network via Wavelet Transform and State Space Model[C]//2025 IEEE International Conference on Multimedia and Expo (ICME). IEEE, 2025: 1-6.
· Jing Y, Zheng Y, Zhao Jufeng, et al. Make both ends meet: A synergistic optimization infrared small target detection with streamlined computational overhead[J]. Optics & Laser Technology, 2026, 196: 114661.
2025
· Weize Cui, Cui Guangmang, Fu Liao, Zhanhong Liu, Jufeng Zhao. Noise-Resilient speckle imaging under illumination interference via row–column separated variational mode decomposition and principal singular value extraction[J]. Optics & Laser Technology, 2025, 192: 113918.
· Xiong X, Jufeng Zhao, Cui Guangmang, et al. MatSpecRCNN: A Multispectral Mask R-CNN for Joint Object Detection and Material Recognition[C]//Proceedings of the 2025 8th International Conference on Computer Information Science and Artificial Intelligence. 2025: 451–456.
· Weng Y, Jufeng Zhao, Damianou C, et al. Adaptive Phase Image Denoising to Improve MRgFUS Thermometry with a Thermal-Response Gaussian Model[C]//Proceedings of the 2025 8th International Conference on Computer Information Science and Artificial Intelligence. 2025: 738-743.
· Liu H, Guangmang Cui, Zhao Jufeng, et al. ICTD: integrating CNN and transformer with diffusion models for robust image deblurring and denoising[J]. The Visual Computer, 2025, 41(13): 11275-11294.
· Weng Y, Jufeng Zhao, Damianou C, et al. NLMap-ATVR: A novel combination of nonlinear mapping network and adaptive total variation regularization for MRI denoising[J]. Magnetic Resonance Imaging, 2025: 110608.
· Tianpei Zhang, Jufeng Zhao, Yiming Zhu, Guangmang Cui and Yuhan Lyu. FSATFusion: Frequency-Spatial Attention Transformer for infrared and visible image fusion[J]. Computer Vision and Image Understanding, 2025.
· Zheng Y, Jing Y, Zhao Jufeng, et al. LAM-YOLO: Drones-based small object detection on lighting-occlusion attention mechanism YOLO[J]. Computer Vision and Image Understanding, 2025: 104489.
· Tianpei Zhang, Yiming Zhu , Jufeng Zhao , Guangmang Cui and Yuchen Zheng. Exploring state space model in wavelet domain: An infrared and visible image fusion network via wavelet transform and state space model[J]. arXiv preprint arXiv:2503.18378, 2025.
· Xiaojie Wei, Jufeng Zhao, Guangmang Cui, Jichen Wang and Changlun Hou. LED array position error correction in lensless optical microscopy through adaptive genetic strategy[J]. Journal of Optics, 2025, 27(5): 055301.
· Liao F, Guangmang Cui, Weize Cui, Yang Liu,Shigong Shi,Jufeng Zhao and Houchang Lun. Robust speckle reconstruction based on cascade transfer learning and speckle correlation imaging[J]. Optics Communications, 2025, 583: 131743.
· ZiyiChen, Guangmang Cui, Jufeng Zhao and Jiahao Nie. CDRM: Controllable diffusion restoration model for realistic image deblurring[J]. Expert Systems with Applications, 2025, 275: 127009.
· Yuhan Lyu, Christakis Damianou, Jufeng Zhao\, Guangmang Cui, Heqing Yi, Tianpei Zhang, and Elena Kontolemi, “DDPM-EMF: a denoising diffusion probabilistic model-based feature-enhancement fusion network for medical image fusion,” J. Opt. Soc. Am. A, 2025, 42: 549-562.
· Liu Yang, Cui Guangmang\, ShiShigong, CuiWeize, Liao Fu, Zhao Jufeng. Toward a fast and non-darkroom solution for speckle correlation based scattering imaging[J]. Optics Communications, 2025, 575: 131274.
2024:
· Qu Xiaorui, Zhao Jufeng\, Cheng Yanhui, Tian Haijun, Cui Guangmang. Compressed hyperspectral imaging based on residual-spectral attention mechanism and similar image prior[J]. Optics and Lasers in Engineering, 2024, 180: 108330.
· Qu Xiaorui, Zhao Jufeng\, Tian Haijun, Cui Guangmang. Compressed hyperspectral imaging based on image reflection intensity and differential fusion filtering[J]. Applied Optics, 2024, 63(27): 7188-7199.
· Shi Shigong, Cui Guangmang\, Liu Yang, Xiang Qinlei, Zhao Jufeng, Liao Fu Cui Weize. Speckle autocorrelation separation method based on frequency intensity for tracking moving object beyond optical memory effect[J]. Journal of Optics, 2024, 26(11): 115605.
· Ma Qiong, Zhao Jufeng\, and Cui Guangmang, “Optimization of the FPM iterative process based on bright-field spectral overlap rate analysis,” Opt. Lett. 49(2024) :5244-5247.
· Liu Yang, Cui Guangmang\, Shi Shigong, Liao Fu, Cui Weize, Zhao Jufeng. Improving the performance of speckle correlation imaging by using a speckle refinement method with self-calibrated homomorphic filtering. Optics and Laser Technology, 2024, 179:111328.
· Xiang Qinlei, Cui Guangmang\, Liao Fu, Shi Shigong, Cui Weize, Zhao Jufeng. Non-invasive accelerated imaging through a scattering medium via multi-stage complexity guidance. JOSA A, 2024, 41(6): 1070-1081.
· Li Zihan, Cui Guangmang\, Liu Haoyu, Chen Ziyi, Zhao Jufeng. A novel dynamic scene deblurring framework based on hybrid activation and edge-assisted dual-branch residuals. The Visual Computer, 2024, 40:3849–3869.
· Chen Ziyi, Cui Guangmang\, Li Zihan, Zhao Jufeng. Lightweight Patch-Wise Casformer for dynamic scene deblurring. Journal of Visual Communication and Image Representation, 2024, 100:104112.
· Cheng, Yanhui, Zhao Jufeng\, Xiaorui Qu, Peiwei Zhang, and Guangmang Cui. Wavelength-multiplexing high-spectral resolution imaging based on Fourier ptychographic microscopy. Journal of Modern Optics 70, no. 12 (2023): 764-779.
· Ma, Qiong, Zhao Jufeng\, and Guangmang Cui. LED-based temporal variant noise model for Fourier ptychographic microscopy. Optics Express 32.8 (2024): 14620-14644.
· Qu Xiaorui, Zhao Jufeng\*, Tian Haijun, Zhu Junjie, Cui Guangmang. Compressive hyperspectral imaging Based on images structure similarity and deep image prior[J]. Optics Communications, 2024, 552: 130095.
2023:
· Cui Guangmang\, He Bintao, Shi Shigong, Zhao Jufeng, Xiang Qinlei. Improving the stability of phase retrieval algorithm in speckle autocorrelation imaging by Huber penalty sparsity constraint[J]. Optics Communications, 2023, 549: 129882.
· Liu Yang, Cui Guangmang\, Shi Shigong, Xiang Qinlei, Zhao Jufeng, Hou changlun. Super-resolution imaging through scattering media based on improved triple correlation recursion and deterministic iterative estimation[J]. Applied Optics, 2023, 62(32): 8642-8653.
· Cui Guangmang, Ma Qiong, Zhao Jufeng\, et al. Image dehazing algorithm based on optimized dark channel and haze-line priors of adaptive sky segmentation[J]. JOSA A, 2023, 40(6): 1165-1182.
· Tang Xuanji, Zhao Jufeng\, Cui Guangmang, Tian Haijun, Shi Zhen, Hou Changlun. MFAGAN: A multiscale feature-attention generative adversarial network for infrared and visible image fusion[J]. Infrared Physics & Technology, 2023: 104796.
· Tian Haijun, Zhao Jufeng\, Zhu Junjie, Tang Xuanji, Cui Guangmang, Hou Changlun. Dual-camera compressive hyperspectral imaging based on deep image prior and a guided filter[J]. Applied Optics, 2023, 62(14): 3649-3659.
· Xiang Qinlei, Cui Guangmang, Cao Chaowei, He Bintao, Zhao Jufeng, Li Zihan. Fast non-invasive imaging through scattering medium via subsection optimization phase-retrieval algorithm[J]. Optics Communications, 2023, 538: 129473.
· Jichen Wang, Jufeng Zhao\, Binbin Lin, Peiwei Zhang, Guangmang Cui, and Changlun Hou, “Multi-angle lensless ptychographic imaging via adaptive correction and the Nesterov method,” Applied Optics,2023, 62, 2617-2628.
· 朱骏捷, 赵巨峰*, 田海军, 崔光茫, 石振. 基于非局部自相似性的双相机压缩光谱图像重建算法[J]. 光子学报, 2023, 52(1):0111003.
2022:
· Zhang Jitong, Cui Guangmang\, Zhao Jufeng, Chen Ying. High-frequency attention residual GAN network for blind motion deblurring[J]. IEEE Access, 2022, 10: 81390-81405.
· Li Zihan, Cui Guangmang\, Zhao Jufeng, Xiang Qinlei, He Bintao. Joint strong edge and multi-stream adaptive fusion network for non-uniform image deblurring[J]. Journal of Visual Communication and Image Representation, 2022, 89: 103663.
· Zhu Junjie, Zhao Jufeng\, Yu Jiakai, Cui Guangmang. Adaptive local sparse representation for compressive hyperspectral imaging[J]. Optics and Laser Technology, 2022, 156: 108467.
· Cao Chaowei, Cui Guangmang\, Zhao Jufeng, He Bintao, Zhy Liyao. Scatter imaging with super-memory effect based on adaptive β-parameter hybrid input-output algorithm-assisted estimation of point spread function[J]. Journal of Optics2022, 24 :105603
· Wu Xiaohui , Zhao Jufeng\, Cui Guangmang, Mao Haifeng. A lensless LED matrix-based ptychographic microscopy imaging method using loss correction and adaptive step size[J]. Optics and Lasers in Engineering, 2022, 152:106980.
· Yu Jiakai, Zhao Jufeng\, Zhu Junjie, Cui Guangmang. High Spectral Resolution Imaging Based on Dual-Camera System With Filter Wheel[J]. IEEE Access, 2022, 10: 40119-40129.
· Lin Binbin, Zhao Jufeng\, Cui Guangmang, Zhang Peiwei, Wu Xiaohui. Efficient multiplexed illumination and imaging approach for Fourier ptychographic microscopy[J]. JOSA A, 2022, 39(5): 883-896.
· Zhang Peiwei, Zhao Jufeng\, Lin Binbin, Wu Xiaohui, Cui Guangmang. Hyperspectral microscopy imaging based on Fourier ptychographic microscopy[J]. Journal of Optics, 2022, 24(5): 055301.
· He Bintao,Cui Guangmang,Cao Chaowei,Zhao Jufeng. Imaging Through Scattering Layers by Exploiting the Sum of Gradient Amplitude Guided Phase Retrieval[J].Optics Communications,2022,514:128134.
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2021:
· Li Tong, Zhao Jufeng\, et al. Infrared imaging enhancement through local window‐based saliency extraction with spatial weight[J]. IET Image Processing, 2021, 15(12): 2910-2925.
· Yang Shunjie, Cui Guangmang, Zhao Jufeng\. Remote sensing image uneven haze removal based on correction of saturation map[J]. Journal of Electronic Imaging, 2021, 30(6): 063033.
· Wu Xiaohui, Zhao Jufeng\, Haifeng Mao and Guangmang Cui. Infrared and visible-image fusion using multiscale visual saliency extraction based on spatial weight matrix[J]. Journal of Electronic Imaging, 2021, 30(2): 023029.
· Chen Yin, Cui Guangmang\, Zhang Jitong and Zhao Jufeng . A Deep Motion Deblurring Network Using Channel Adaptive Residual Module[J]. IEEE Access, 2021 (9): 65638-65649. (SCI)
· 郁嘉恺, 赵巨峰,崔光茫,吴超,朱骏捷. 基于滤光轮双相机系统的高光谱分辨率成像[J].仪器仪表学报, 2021, 42(2):275-284.(EI)
· 毛海锋, 赵巨峰,崔光茫,吴小辉. 基于傅里叶叠层显微成像的LED阵列位置校正方法[J].光学学报,2021,41(04):103-113.(EI)
· Cui Guangmang,Ye Xiaojie , Zhao Jufeng,Zhu Liyao , Chen Ying, Zhang Yu. An effective coded exposure photography framework using optimal fluttering pattern generation[J]. Optics and Lasers in Engineering, 2021, 139:106489.(SCI)
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2020:
· Haifeng Mao, Xiaohui Wu, Zhao Jufeng\, Guangmang Cui, Jinxing Hu, An efficient Fourier ptychographic microscopy method based on optimized pattern of LED angle illumination[J]. Micron, 2020, 138: 102920
· Guangmang Cui, Xiaojie Ye, Zhao Jufeng\, Liyao Zhu, Ying Chen. Multi-frame motion deblurring using coded exposure imaging with complementary fluttering sequences[J]. Optics and Laser Technology, 2020, 126, 106119
· 李通, 赵巨峰*, 毛海锋 ,崔光茫, 胡金星. 基于角度照明优化的傅里叶叠层显微成像方法[J]. 激光与光电子学进展, 2020, 57(8): 081106 (核心,本科生一作论文)
· 叶晓杰,崔光茫,于快快,赵巨峰,朱礼尧. 结合编码曝光和运动先验信息的局部模糊图像复原[J].浙江大学学报(工学版),2020(02):1-11.(EI)
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2019:
· Cui Guangmang , Zhao Jufeng , Zhu Liyao , et al. Glass bottle cap gap width detection combined with transmission lighting system design based on machine vision[C].Fifth Symposium on Novel Optoelectronic Detection Technology and Application. 2019.
· 崔光茫, 于快快, 叶晓杰, 赵巨峰, 朱礼尧. 基于Memetic算法的编码曝光最优码字序列搜索方法[J]. 光学学报, 2019(3):10.
· 李通, 赵巨峰, 毛海锋, 崔光茫, 胡金星. 基于角度照明优化的傅里叶叠层显微成像方法[J].激光与光电子学进展,2020,57(08):276-285.
· 赵巨峰, 崔光茫. 计算成像——全光视觉信息的设计获取[J].航天返回与遥感,2019,40(05):1-14.
· Zhao Jufeng, Wu Chao, et al. Microscopic imaging quality improvement through L0 gradient constraint model based on multi-fields of view analysis - ScienceDirect[J]. Micron, 124:102709-102709.
· Qi Li, Guangmang Cui, Jufeng Zhao\*, Yu Zhang. Infrared enhancement for water surface imaging based on theory of radiative transfer and edge weight analysis[J]. IEEE Access, 2019, 7: 175051-175061.
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2018:
· Hua Weiping , Zhao Jufeng\, Cui Guangmang , et al. Stripe nonuniformity correction for infrared imaging system based on single image optimization[J]. Infrared Physics & Technology, 2018, 91:250-262.
· Cui Guangmang , Hua Weiping , Zhao Jufeng , et al. A motion deblurring method with long/short exposure image pairs[C]. Proc. SPIE 10620, 2017 International Conference on Optical Instruments and Technology: Optoelectronic Imaging/Spectroscopy and Signal Processing Technology, 106201O.(EI)
· 华玮平, 赵巨峰, 崔光茫,等. 微分约束法红外条纹非均匀校正[J]. 激光与红外, 2018, 48(7):7.
· 叶晓杰, 赵巨峰, 公晓丽,等. 基于边缘权重分析的水面弱目标红外增强[J]. 激光与红外, 2018, 48(1):5.
· 欧阳志恒, 崔光茫, 赵巨峰, 等. 基于分层级各向异性滤波的图像景深渲染算法[J]. 光学技术, 2018, 044(004):469-475.
· Wei-ping Hua, Zhao Jufeng\, Guang-mang Cui, Peng Ge, Jiang Zhang. Microscopic imaging improvement combining gradient constraint model and multi-fields of view analysis[C]. Proc. SPIE 10832, Fifth Conference on Frontiers in Optical Imaging Technology and Applications, 1083218 (7 November 2018); doi: 10.1117/12.2511343(EI 会议)
· 崔光茫, 张克奇, 徐之海, 冯华君, 赵巨峰. 基于仿射重建和噪声散点直方图的图像噪声水平估计[J]. 红外与激光工程, 2018, 47(A01):7.
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2017:
· 黄奕龙, 赵巨峰, 张克奇,等. 结合物镜测试的梯度约束显微成像质量提升方法[J]. 激光与光电子学进展, 2017, 54(11):9.
· Hua Weping, Zhao Jufeng\, Cui Guangmang, Gong Xiaoli, Zhu Liyao. (2017). Local Saliency Extraction for Fusion of Visible and Infrared Images. In: , et al. Computer Vision. CCCV 2017. Communications in Computer and Information Science, vol 772. Springer, Singapore.
· 崔光茫, 赵巨峰, 辛青. 基于工业生产设备表面缺陷检测的实验设计[J]. 实验室研究与探索, 2017, 36(4):4.
· Cui Guangmang\* , Zhao Jufeng, Gao Xiumin , et al. High quality image-pair-based deblurring method using edge mask and improved residual deconvolution[J]. Optical Review, 2017, 24(2):128-138.
· Zhao Jufeng\* , Cui Guangmang , Gong Xiaoli , et al. Fusion of visible and infrared images using global entropy and gradient constrained regularization[J]. Infrared Physics & Technology, 2017, 81:201-209.
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2016:
· 赵巨峰,毛磊,刘承,冯华君,高秀敏. 基于局部窗口与极值的显微图像细节增强[J].光学仪器,2016,38(05):407-411
· Lin Guang, Zhao Jufeng, Feng Huajun. et al. Fast full resolution saliency detection based on incoherent imaging system. Opt Rev 23, 601–613 (2016).
· 赵巨峰,高秀敏,崔光茫. 结合生产线的视觉检测实验系统设计[J].实验室研究与探索,2016,35(04):59-62.
· 华玮平,赵巨峰,李梦,崔光茫. 基于分块与噪声散点统计的单图噪声估计[J].激光与光电子学进展,2016,53(04):103-109.
· 华玮平,赵巨峰,李梦,高秀敏. 基于视觉显著性的红外与可见光图像融合[J].光学仪器,2016,38(04):303-307.
· Zhao Jufeng\* , Gao Xiumin , Chen Yueting , et al. Multi-window visual saliency extraction for fusion of visible and infrared images[J]. Infrared Physics & Technology, 2016, 76:295-302.
· Zhao Jufeng\* , Gao Xiumin, Lin Guang , et al. An optical information processing-based idea for visual attention analysis[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(7):3556-3559.
· 陈锦伟,赵巨峰. 双相机系统的高分辨率重建[J].北京理工大学学报,2016,36(02):175-180.
· Zang Yue, Gao Xiumin,XinmiaoLu, QingXin, JunLin, JufengZhao. Improved performance of polymer solar cells using PBDTT-F-TT: PC71BM blend film as active layer[J]. Applied Surface Science, 2016, 376: 138-144.
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2015:
· 赵巨峰, 毛磊, 刘承,等. 视觉注意机制与边缘展宽衡量相结合的显微成像清晰度评价[J]. 光子学报, 2015, 44(7):132-138.
· Zhao Jufeng\, Xiumin Gao, Yueting Chen, Huajun Feng. Optical imaging system-based real- saliency extraction method[J]. Optical Engineering 54(4)2015: 043101.
· 李梦, 华玮平, 赵巨峰. 使用多尺度视觉注意提取的双波段图像融合[J]. 激光与光电子学进展, 2015(12):87-92.
· Zhao Jufeng\,et al. Ringingreduced iterative deconvolution for astronomical optical image using gradient constraint regularization[J].Optink-International Journal for Light and Electron Optics,2015,126(9):1986-1989.
· Zhao Jufeng\*, Gao Xiumin, Imagevisibility enhancement based on atmospheric transmission theory and weightanalysis under bad weather condition[J], Optik-International Journal for Light andElectron Optics, 2015, 126(24): 5620-5623.
· Shi Zaifeng, Xu Jiangtao, zhang Yu, Zhao Jufeng *, Xin Qing. Fusion for visible and infrared images using visual weight analysis and bilateral filter-based multi scale decomposition[J],Infrared Physics & Technology 71(2015) 263-369.
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2014:
· 周强,赵巨峰,冯华君,等,基于偏振成像的红外图像增强研究[J],红外与激光工程, 2014, 43(1):39-47.
· 崔光茫,赵巨峰,冯华君,徐之海,李奇,陈跃庭. 非均匀介质退化图像快速仿真模型的建立[J], 浙大学报工学版, 2014,48(2):303-311.
· Zhao Jufeng\, Feng Huajun,Xu Zhihai ,Li Qi. Infrared image enhancement through saliency feature analysis based on multi-scale decomposition, Infrared Physics & Technology, 2014, 62:86–93.
· Zhao Jufeng\, Gao X, Chen Y, et al. Fastiterative adaptive nonuniformity correction with gradient minimization forinfrared focal plane arrays[J]. Infrared Physics & Technology,2014, 65: 87-93.
· Zhao Jufeng\*,Chen Y,Feng H,et al. Fast image enhancement using multi-scale saliencyextraction in infrared imagery[J].Optik-International Journal for Light and Electron Optics,125(15)2014:4039-4042.
2013年(含)以前论文
· Jufeng Zhao, Qiang Zhou, Huajun Feng, Zhihai Xu, Qi Li, Fusion of visible and infrared images using saliency analysis and detail preserving based imagedecomposition, Infrared Physics &Technology, 2013, 56: 93-99.
· Jufeng Zhao, Jinwei Chen, Yueting Chen, Huajun Feng, Zhihai Xu, Qi Li, Sparse-representation-based automatic target detection in infrared imagery, Infrared Physics & Technology, 2013,56: 85-92.
· Jufeng Zhao, *Huajun Feng, Zhihai Xu, Qi Li, Xiaoping Tao, Automatic blur regions egmentation approach using Image matting, Signal, image and video processing, 2013, 7(6): 1173-1181.
· Jufeng Zhao, *Huajun Feng, Zhihai Xu, Qi Li, Hai Peng, Real-time automatic smallt arget detection using saliency extraction and morphological theory, Opticsand Laser Technology, 2013, 47: 268-277.
· Jufeng Zhao, Qiang Zhou, Yueting Chen, *Huajun Feng, Zhihai Xu, Qi Li, Single imagestripe nonuniformity correction with gradient-constrained optimization modelfor infrared focal plane arrays[J], Optics Communications, 2013, 296: 47-52
· Jufeng Zhao, *Huajun Feng, Zhihai Xu, Qi Li, Tao Liu, Detail enhanced multi-sourcefusion using visual weight map extraction based on multi scale edge preservingdecomposition, Optics Communications,2013, 287: 45-52.
· Jufeng Zhao, *Huajun Feng, Zhihai Xu, Qi Li, An improved image restoration approachusing adaptive local constraint, Optik- International Journal for Light and Electron Optics, 2012, 123(11):982-985.
· Jufeng Zhao, *Huajun Feng, Zhihai Xu, Qi Li, An improved image deconvolutionapproach using local constraint, Optics and Laser Technology, 2012,44(2): 421–427.
· Jufeng Zhao, *Huajun Feng, Zhihai Xu, Qi Li, An image quality assessment based onregional weight, Optik- International Journalfor Light and Electron Optics, 2012, 123(6): 494-497. 代码下载(Code Download) Link
· 戴朝约,冯华君,赵巨峰,徐之海,李奇, 基于边缘信息的稳健的运动模糊图像盲复原[J], 光电子激光, 2011, 22(10):1588-1592.
· 彭海,赵巨峰,冯华君,徐之海,李奇,陈跃庭,基于区域显著性的双波段图像融合方法[J], 浙大学报工学版,2012, 46 (11):2109-2115.
· Hai Peng, *Huajun Feng, Jufeng Zhao, Zhihai Xu, Qi Li, YuetingChen, Multi-frame image fusion method combining spatial-temporal saliencydetection and NSCT, Advanced Materials Research, MEMS, NANO and Smart Systems, v403-408, p 1927-1932, 2012.
· *Huajun Feng, Jufeng Zhao, Zhihai Xu and Qi Li, Fast Target Enhancement inThermal Infrared Imagery, IRMMW-THZ 2012, DOI: 10.1109/IRMMW-THz.2012. 6380187.
· Tao Liu, Jufeng Zhao, *Huajun Feng, Zhihai Xu, Huifang Chen, Image noiseremoval using Kalman-filter on dark frame, Proc. SPIE 8194, 81943L (2011).
· Jufeng Zhao,Huajun Feng, Zhihai Xu, Qi Li, Remove impulsive noise for infrared image withdifference images and adaptive filter, Proc of SPIE, vol. 8193 (2) (2011)
· Jufeng Zhao,Huajun Feng, Zhihai Xu, Qi Li, Iterative blind image restoration with ringingreduction, Proc. SPIE 7658, 76585N (2010).
· Xiaoping Tao, Jufeng Zhao, *Huajun Feng, Qi Li, ZhihaiXu, Yueting Chen, Analysis of theselection of overlapping region of sectioned restoration for images withspace-variant point spread function, Proc of SPIE, v 7798, 2010.
· 赵巨峰,冯华君,徐之海,李奇, 基于模糊度和噪声水平的图像质量评价方法[J], 光电子激光, 2010, 21(7):1062-1066.
· 赵巨峰,陶小平,冯华君,徐之海,李奇, 基于梯度的波纹图像质量评价[J], 浙大学报工学版, 2010, 44(5):870-874.
· 陶小平,冯华君,赵巨峰等,结合基于梯度的振铃评价算法的总变分最小化图像分块复原法[J],《光学学报》,2009, 29(11) 3025-3030.
· *冯华君,陶小平,赵巨峰等,空间变化PSF图像复原技术的研究现状与展望[J],《光电工程》,2009.01.