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豆嘉真 DOU JIAZHEN 副教授 所属团队:先进光子技术团队 导师类别:硕导 研究方向:智能光信息处理,计算光学成像 招生学科:0810信息与通信工程、0803光学工程、085401新一代电子信息技术、085402通信工程 Email: jiazhendou@gdut.edu.cn 办公室:工学一号馆700 |
个人简述:
豆嘉真,副教授,广东工业大学“青年百人计划”引进人才。主持国自然科学基金青年项目、中国博士后科学基金项目及国防单位委托课题等项目多项,作为项目骨干参与国家自然科学基金重大科研仪器研制项目、面上项目、国防课题等项目多项。在国内外学术期刊发表SCI/EI论文40余篇,获授权发明专利14项,相关研究成果获得中国光学学会科技创新技术发明一等奖。
主要研究方向:
(1)智能光学信息处理;
(2)计算光学成像及其应用;
(3)基于数字全息术的干涉测量和显微成像。
欢迎对以上研究方向感兴趣的同学积极报考硕士研究生。
学科领域:
科学学位:信息与通信工程(0810)、光学工程(0803)
专业学位:新一代电子信息技术(085401)、通信工程(085402)
教育背景:
2016.09-2022.12,西北工业大学,物理科学与技术学院,光学工程,博士
2012.09-2016.07,西北工业大学,理学院,应用物理学,学士
工作经历:
2025.05-至今,广东工业大学,信息工程学院,副教授
2023.04-2025.04,广东工业大学,信息工程学院,博士后
学术兼职:
1.担任Photonics Research, Optics and Lasers Technology, Optics Letters, Optics Express等学术期刊审稿人。
2.OPTICA、SPIE、中国仪器仪表学会 会员,中国光学学会 高级会员。
主要荣誉:
1. 2025年中国光学学会科技创新技术发明一等奖(排名第六)
2. 2023年广东省人工智能产业协会科学技术奖技术发明二等奖(排名第三)
主要论文:
1.Y. Mai, J, Tang, T, Shi, J. Dou*, J. Di, and Y. Qin, " Single-Shot 3D Phase Recovery through Scattering Media via Complex-Valued Neural Network," Optics & Laser Technology, Accepted. (2026).
2.欧卓林,刘晓松,唐雎,豆嘉真*,钟丽云,邸江磊,秦玉文,“结合小波域特征关联及边界检测的同轴全息图数值重建方法,”光学学报46(16), 01(2026).
3.J. Dou, Y. Mai, W. Jiang, K. Wang, L. Zhong, J. Di, and Y. Qin, "Vector modulation of fully-polarized phase conjugate light field through scattering media," Optics & Laser Technology. 181, 111987 (2025).
4.J. Dou, J. Fang, W. Jiang, J. Di, and Y. Qin, "High-precision 3D reconstruction of terahertz computed tomography under extremely sparse view," Opt. Lasers Eng 186, 108783 (2025).
5.Q. An, X. Liu, G. Men, J. Dou*, and J. Di, "Frequency-domain learning-driven lightweight phase recovery method for in-line holography," Opt. Express 33, 5890-5899 (2025).
6.J. Dou, Q. An, X. Liu, Y. Mai, L. Zhong, J. Di, and Y. Qin, "Enhanced phase recovery in in-line holography with self-supervised complex-valued neural networks," Opt. Lasers Eng 184, 108685 (2025).
7.X. Liu, H. Qiu, Z. Ou, J. Dou*, J. Di, and Y. Qin, "Enhanced visible light detail and infrared thermal radiation for dual-mode imaging system via multi-information interaction," Journal of Visual Communication and Image Representation, 104583 (2025).
8.H. Qiu, X. Liu, K. Wang, J. Dou*, J. Di, and Y. Qin, "Real-time phase measurement of optical vortex via digital holography," Frontiers in Physics. 11, 1190616 (2023).
9.J. Dou, C. Ma, K. Wang, J. Di, J. Zhang, and J. Zhao, "Light-field focusing and modulation through scattering media based on dual-polarization-encoded digital optical phase conjugation," Opt. Lett 47, 2738-2741 (2022).
10.J. Dou, C. Dong, S. Dai, J. Mi, X. Luo, J. Di, J. Zhang, and J. Zhao, "High-resolution surface plasmon resonance holographic microscopy based on symmetrical excitation," Opt. Lasers Eng 153, 107000 (2022).
11.J. Dou, S. Dai, C. Dong, J. Zhang, J. Di, and J. Zhao, "Dual-channel illumination surface plasmon resonance holographic microscopy for resolution improvement," Opt. Lett 46, 1604-1607 (2021)
12.J. Dou, T. Xi, C. Ma, J. Di, and J. Zhao, "Measurement of full polarization states with hybrid holography based on geometric phase," Opt. Express 27, 7968-7978 (2019).
13.G. Tan, W. Jiang, J. Gao, J. Dou, L. Zhong, J. Di, and Y. Qin, "Phase-locked control of the coherent beam combining system using dual-stream network and reinforcement learning," Opt. Lasers Eng 186, 108830 (2025).
14.T. Huang, L. Yang, W. Zhang, J. Dou, J. Di, J. Wu, J. Rosen, and L. Zhong, "Unsupervised cross talk suppression for self-interference digital holography," Opt. Lett 50, 1261-1264 (2025).
15.J. Zhang, S. Wang, W. Li, X. Luo, L. Wang, J. Mi, J. Dou, S. Dai, F. Lu, and P. Li, "Azimuthal scanning excitation surface plasmon resonance holographic microscopy," Laser & Photonics Reviews. 18, 2301013 (2024).
16.K. Wang, L. Song, C. Wang, Z. Ren, G. Zhao, J. Dou, J. Di, G. Barbastathis, R. Zhou, J. Zhao, and E. Y. Lam, "On the use of deep learning for phase recovery," Light. Sci. Appl 13, 4 (2024).
17.J. Qi, W. Zheng, W. Jiang, J. Dou, L. Zhong, J. Di, and Y. Qin, "Efficient distributed architecture and optimized subarray control strategy to facilitate large-scale coherent beam combination," Opt. Express 32, 32703-32717 (2024).
18.J. Lin, J. Li, J. Dou, L. Zhong, J. Di, and Y. Qin, "DdeNet: A dual-domain end-to-end network combining Pale-Transformer and Laplacian convolution for sparse view CT reconstruction," Biomedical Signal Processing and Control. 96, 106593 (2024).
19.W. Jiang, J. Gao, G. Tan, M. Zhang, J. Dou, J. Di, and Y. Qin, "High environmentally adaptable phase control with reinforcement learning for coherent beam combination," Opt. Lasers Eng 183, 108534 (2024).
20.J. Xie, J. Dou, L. Zhong, J. Di, and Y. Qin, "A dual-mode intensity and polarized imaging system for assisting autonomous driving," IEEE Transactions on Instrumentation and Measurement. 73, 1-13 (2024).
21.郑文慧,祁家琴,江文隽,谭贵元,胡奇琪,高怀恩,豆嘉真,邸江磊,秦玉文, "激光相干合成系统中SPGD算法的分阶段自适应优化," 红外与激光工程 53, 20240257 -20240257 (2024).
22.刘耿焕,曾祥津,豆嘉真,任振波,钟丽云,邸江磊,秦玉文, "基于深度学习的小目标检测技术研究进展(特邀)," 红外与激光工程 53, 20240253-20240253 (2024).
23.曾祥津,刘耿焕,陈建明,豆嘉真,任振波,邸江磊,秦玉文, "基于多尺度分层残差网络的光学遥感图像微小目标检测," 光子学报 53, 0810001-0810013 (2024).
24.J. Zhang, J. Tang, J. Zuo, J. Wu, K. Li, J. Zhang, Z. Ren, J. Dou, J. Di, and J. Zhao, "Rapid quantitative measurement of internal ultrasonic field in acousto-optic modulator via off-axis digital holography," Opt. Lasers Eng. 171, 107793 (2023).
25.S. Dai, J. Mi, J. Dou, W. Shi, J. Zhang, and J. Zhao, "Label-free and dynamic monitoring of cell evolutions using wavelength-multiplexing surface plasmon resonance holographic microscopy," Biomed. Opt. Express 14, 2028-2039 (2023).
26.M. Zhang, J. Liu, J. Dou, J. Zhang, L. Zhang, J. Di, and J. Zhao, "Simultaneous measurement of near-water-film air temperature and humidity fields based on dual-wavelength digital holographic interferometry," Opt. Express 30, 17278-17289 (2022).
27.J. Tang, J. Zhang, J. Dou, J. Zhang, J. Di, and J. Zhao, "Comparison of common-path off-axis digital holography and transport of intensity equation in quantitative phase measurement," Opt. Lasers Eng. 157, 107126 (2022).
28.S. Dai, J. Mi, J. Dou, T. Yu, M. Zhang, J. Di, J. Zhang, and J. Zhao, "Dual-wavelength surface plasmon resonance holographic microscopy for simultaneous measurements of cell-substrate distance and cytoplasm refractive index," Opt. Lett. 47, 2306-2309 (2022).
29.S. Dai, J. Mi, J. Dou, H. Lu, C. Dong, L. Ren, R. Zhao, W. Shi, N. Zhang, Y. Zhou, J. Zhang, J. Di, and J. Zhao, "Optical tweezers integrated surface plasmon resonance holographic microscopy for characterizing cell-substrate interactions under noninvasive optical force stimuli," Biosens Bioelectron. 206, 114131 (2022).
30.齐淑霞,刘圣,李鹏,魏冰妍,张蒙蒙,豆嘉真,张继巍,赵建林, "光场偏振分布测量方法及其应用 (特邀)," 光子学报 51, 0851502-0851502 (2022).
31.戴思清, 豆嘉真, 张继巍, 邸江磊, 赵建林, "基于数字全息术的近场成像与应用," 光学学报 40, 0111008 (2020).
32.K. Wang, J. Dou, Q. Kemao, J. Di, and J. Zhao, "Y-Net: a one-to-two deep learning framework for digital holographic reconstruction," Opt. Lett. 44, 4765-4768 (2019).
33.S. Dai, H. Lu, J. Zhang, Y. Shi, J. Dou, J. Di, and J. Zhao, "Complex refractive index measurement for atomic-layer materials via surface plasmon resonance holographic microscopy," Opt. Lett. 44, 2982-2985 (2019).
知识产权:
1.豆嘉真,江文隽,麦宇健,邸江磊,秦玉文,一种透过散射介质实现光场矢量调控的方法及装置,公开号:CN117406463A;
2.豆嘉真,安起明,邸江磊,钟丽云,秦玉文,一种基于双复值神经网络迭代的同轴全息重建方法,公开号:CN118864720A;
3.豆嘉真,安起明,邸江磊,钟丽云,秦玉文,一种基于物理约束下复值UNet的复振幅重建方法,公开号:CN118732459A;
4.豆嘉真,安起明,邸江磊,钟丽云,秦玉文,一种基于频域自监督复值神经网络的复振幅重建方法,专利号:ZL 202411218262.5;
5.邸江磊,豆嘉真,王凯强,赵建林,一种基于渥拉斯顿棱镜的测量样品偏振态的方法与系统,专利号:ZL201711154680.2;
6.赵建林,豆嘉真,张继巍,邸江磊,一种改善表面等离子体共振全息显微术成像像质的方法,专利号:ZL 202111356780.X;
7.邸江磊,方炯燊,豆嘉真,唐雎,钟丽云,秦玉文,一种基于双域联合模式的多阶段处理神经网络的极稀疏角度CT重建方法,专利号:ZL 202510034111.2;
8.邸江磊,方炯燊,豆嘉真,钟丽云,秦玉文,一种基于多域多尺度特征融合神经网络的极端稀疏角度THz-CT重建方法,专利号:ZL 202411499409.2;
9.邸江磊,欧卓林,豆嘉真,唐雎,钟丽云,秦玉文,一种基于小波域特征关联复值神经网络的全息重建方法,专利号:ZL 202511023972.7;
10.赵建林,戴思清,豆嘉真,张继巍,邸江磊,一种测量光力刺激下细胞�基底相互作用的显微成像方法,专利号:ZL 202111096752.9;
11.邸江磊,王凯强,豆嘉真,赵建林,一种基于偏振分光棱镜的测量样品偏振态的方法与系统,专利号:ZL 201711154502.X;
12.邸江磊,朱武胜,高浚哲,豆嘉真,钟丽云,秦玉文,一种基于FPGA的多路激光相干合成SPGD算法验证平台,专利号:ZL 202411499070.6;
13.赵建林,米婧宇,张继巍,豆嘉真,一种测量双层纳米金属薄膜厚度二维分布的方法,专利号:ZL 202211232389.3;
14.张继巍,李鹏,罗祥元,豆嘉真,王舒琪,赵建林,一种基于多向激发的高分辨率表面等离子体共振全息显微成像方法,专利号:ZL 202211087487.2;
15.邸江磊,王凯强,李颖,豆嘉真,戴思清,赵建林,一种基于深度学习的全息重建算法,专利号:ZL 201910000496.5;
16.邸江磊,王凯强,李颖,豆嘉真,戴思清,席特立,赵建林,一种基于深度学习的相位显微成像方法,专利号:ZL 201910000530.9;
17.邸江磊,祁家琴,郑文慧,江文隽,豆嘉真,钟丽云,秦玉文,一种基于改进SPGD算法的分布式激光相干合成系统及方法,ZL 202310354398.8。
主要科研项目:
1.国自然科学基金青年项目,基于多光束稀疏共轭的动态散射介质中矢量光场实时调控方法研究,2024-2026,30万,主持;
2.中国博士后科学基金特别资助,透过动态散射介质的自监督复值神经网络成像方法研究,2024-2025,主持;
3.中国博士后科学基金面上资助,基于复值神经网络的全息复振幅重构方法研究,2024-2025,主持;
4.中国工程物理研究院流体物理研究所,目标智能识别一体化组件,2025-2026,主持;
5.华为技术有限公司,光波导折射率分布测试,2024-2025,主持;
6.中山大学,传感器安装位置偏差测量校准技术服务,2024-2025,主持;
7.中国人民解放军XXX部队,XXX研制,2024-2025,参与;
8.国家自然科学基金国家重大科研仪器研制项目,面向多参量动态测量的宽场无标记表面等离子体共振全息显微镜,2020-2024,参与;
9.中国载人航天工程空间站实验舱流体物理实验柜项目,空间数字全息干涉仪,2014-2022,参与。
教学活动:
研究生课程<高等光学>
本科生课程<光学信息处理>
我的团队:
隶属于先进光子技术研究院,团队依托广东省信息光子技术重点实验室、通感融合光子技术教育部重点实验室等平台,专注于新一代光纤通信与传感、光子芯片与器件、智能光学信息处理等方面的研究工作。
