联系电话:
电子邮件:lixiaobo@tju.edu.cn
通讯地址:天津市南开区卫津路92号天津大学第八教学楼225室
博士、硕士:海洋技术、光学工程
2016.09 - 2020.07 天津大学 光学工程 博士
2014.09 - 2020.07 天津大学 概率论与数理统计(硕博连读) 硕士
2010.09 - 2014.07 天津大学 数学与应用数学 本科
2019.08 - 2019.12 法国 巴黎萨克雷大学 光学工程(联合培养)
2022.07 - 至今 天津大学 海洋科学与技术学院 副教授
2023.01 - 至今 浙江大学 生物系统工程与食品科学学院 客座研究员
2020.12 - 2022.06 香港中文大学 机械与自动化工程系/CPII中心 博士后研究员/副研究员
海洋光学、水下光学成像
[1] 国家自然科学基金青年项目,62205243,基于模型引导深度学习的低照度散射复合环境偏振成像研究,2023/01-2025/12,主持
[2] 天津市应用基础研究项目,面向海洋牧场智能养殖的新体制光学成像系统及增强算法研究,2023/10-2025/09,主持
[3] 天津市科技局天开高教科创园研发专项,智能海洋监测浮标平台的研制,2024/01-2025/12,主持
[4] 天津大学自主创新基金,2023XQM-0029,基于多维光信息的水下一体化成像系统及智能算法,2023/06-2025/05,主持
[5] 红外物理国家重点实验室开放课题, SITP-NLIST-YB-2023-07, 面向暗弱小目标智能探测识别的红外偏振成像技术研究,2023/07-2025/06,主持
[6] 智能光电教育部重点实验室开放课题(重点项目),ZNGD20231001,面向复杂气象场景的智能偏振去雾成像技术,2023/10-2025/09,主持
[7] 农业农村部设施农业装备与信息化重点实验室开放基金,2011NYZD2201,面向智能水产养殖的超浑浊水下光学成像系统与算法研究,2023/01-2024/12,主持
[8] 国家自然科学基金面上项目,基于物理内蕴深度神经网络的微光偏振成像技术研究,参与
[9] 国家自然科学基金面上项目,偏振成像技术在强散射环境下的多参量图像表征方法研究,参与
[10] 国家自然科学基金青年项目,基于中红外光子集成芯片的表面增强气体吸收光谱的研究,参与
主要代表学术论文(*通讯作者,†共同一作):
2024年:
[1] Zhu, Z., Li, X.*, Zhai, J., Hu,. H.*, (2024). PODB: A learning-based polarimetric object detection benchmark for road scenes in adverse weather conditions, Information Fusion, 108, 102385. ( IF=18.6,计算机科学一区ToP期刊)
[2] Shi, H., Zhao, H., ..., Li, X.*, (2024). Enhanced dual-comb underwater ranging via an improved VMD algorithm, IEEE Journal of Oceanic Engineering, (Accepted, 海洋学一区 Top)
[3] Zhao, H., Shi, H, ..., Li, X.*, (2024). Enhanced underwater LiDAR via dual-comb interferometer and pulse coding, IEEE Transactions on Geoscience and Remote Sensing, (Accepted, 一区)
[4] Li, X.*, Liu, F., Liang, J., (2024). Advanced Polarimetry and Polarimetric Imaging, Photonics, 11(4): 317. (Invited Editorial) https://www.mdpi.com/2304-6732/11/4/317
[5] Li, X., Goudail, F., (2024). Vortex retarder-based Stokes polarimeters: optimal data processing and autocalibration capability, Optics Letters, 49(7): 1696-1699. (Editors' Pick, 光学类ToP)
https://opg.optica.org/ol/viewmedia.cfm?uri=ol-49-7-1696
[6] Chen X, Liu C, Li X*, et al. (2024). Link prediction in bipartite networks via effective integration of explicit and implicit relations, Neurocomputing, 566: 127016. (计算机科学类 ToP)
[7] 胡浩丰, 黄一钊, 朱震,马千文,翟京生, 李校博* (2024). 基于深度学习复杂环境的偏振成像技术研究进展(Invited Review), 红外与激光工程, 53(3), 20240057.
https://mp.weixin.qq.com/s/oJUkck0fKs3IqJkoIVRGig
[8] 胡浩丰, 孙鑫, 翟京生, 李校博* (2024). 基于区域细节强化的偏振去散射方法, 激光与光电子学进展 61: 0211017.
2023年:
[9] Liu, X., Zhang, L., Zhai, X., Li, L., Zhou, Q., Chen, X., & Li, X. * (2023). Polarization Lidar: Principles and Applications. Photonics 10 (10), 1118. (Editor’s Pick, Feature Paper, 2021级本科生一作) https://www.mdpi.com/2304-6732/10/10/1118
[10] Zhang, W.†, Li, X.†, Xu, S., et al. (2023). Underwater Image Restoration Via Adaptive Color Correction and Contrast Enhancement Fusion. Remote Sensing, 15(19): 4699.
[11] Hu, H., Xu, S., …Li, X.* (2023). Enhancing Underwater Image via Color-Cast Correction and Luminance Fusion. IEEE Journal of Oceanic Engineering.
[12] Zhao, H., Shi, H., … Li, X.*, Xue, B.*, (2023). Direct measurement of underwater sound velocity via dual-comb system and matched filtering algorithm. IEEE Transactions on Instrumentation and Measurement, 72: 1007210.
[13] Li, X., Yan, L., Qi, P., et al., (2023) “Polarimetric Imaging via Deep Learning: A Review” Remote Sensing, 15, 1540. (ESI 高被引,首次同时涵盖光学偏振和极化遥感应用的综述性文章,Milestone!)
https://www.mdpi.com/2072-4292/15/6/1540
[14] Hu, H, Yang, S, Li, X.*, et al., (2023) “Polarized image super-resolution via a deep convolutional neural network,” Optics Express, 31, 8535-8547.
[15] 胡浩丰, 金慧烽, 李校博*, 等. (2023) 基于无监督学习的偏振图像去噪方法. 光学学报, 43(4): 0410001.
2022年:
[16] 胡浩丰,刘铁根,李校博 《偏振信息测量及其成像处理技术》科学出版社,2022.
[17] Hu, H., Huang, Y., Li, X.*, et al, (2022) “UCRNet: Underwater color image restoration via a polarization-guided convolutional neural network” Frontiers in Marine Science,1, 1-10.
[18] Li, X., Zhang, L., Qi, P., et al., (2022) “Are Indices of Polarimetric Purity Excellent Metrics for Object Identification in Scattering Media?” Remote Sensing, 14, 4148.
[19] Li, X., Liu, W., Goudail, F., & Chen, S., (2022) “Optimal nonlinear Stokes-Mueller polarimetry for multi-photon processes,” Optics Letters, 47, 3287-3290. (Milestone! 偏振光学优化技术首次应用于非线性多光子领域)
https://opg.optica.org/ol/abstract.cfm?uri=ol-47-13-3287
[20] Qi, P.†, Li, X.†, Zhang, L, et al., (2022) “U2R-pGAN: unpaired underwater-image recovery with polarimetric generative adversarial network”. Optics and Lasers in Engineering, 157, 107112.
[21] Li, X., Xu, J., Zhang, L., et al., (2022) “Underwater image restoration via Stokes decomposition,” Optics Letters, 47(11), 2854-2857.
[22] Li, X., Lu, W., Xu, X., Wang, Y., & Chen, S., (2022) “Advanced Optical Methods and Materials for Fabricating 3D Tissue Scaffolds,” Light: Advanced Manufacturing, 3:26. (Invited Review)
https://mp.weixin.qq.com/s/J5LGO4nznUptCRYls6cS6w
[23] Li, X., Han Y., Wang H., Liu, T., Chen, S. & Hu H., (2022) “Polarimetric imaging through scattering media: A review,” Frontiers in Physics, 153.
[24] Li, X., Goudail, F., & Chen, S., (2022) “Self-calibration for Mueller polarimeters based on DoFP polarization imagers,” Optics Letters, 47(6), 1415-1418.
[25] Liu, X., Li, X.*, & Chen, S.*, (2022) “Enhanced Polarization Demosaicking Network via a Precise AoP Loss Calculation Method,” Optics Letters, 47(5), 1065-1069.
2022年以前:
[26] Hu, H., Qi, P., Li, X.*, Cheng, Z., & Liu, T. (2021). Underwater imaging enhancement based on a polarization filter and histogram attenuation prior. Journal of Physics D: Applied Physics, 54(17), 175102.(编辑优选)
https://iopscience.iop.org/article/10.1088/1361-6463/abdc93
[27] Li, X., Goudail, F., Qi, P., Liu, T., & Hu, H. (2021). Integration time optimization and starting angle autocalibration of full Stokes imagers based on a rotating retarder. Optics Express, 29(6), 9494-9512.
[28] Hu, H., Lin, Y., Li, X.*, Qi, P., & Liu, T. IPLNet: a neural network for intensity-polarization imaging in low light. Optics Letters, 45(22), 6162, 2020.
[29] Li, X., Li, H., Lin, Y., Guo J., Yang, J., Yue, H., Li, K., Li, C., Cheng, Z., Hu, H., and Liu, T. Learning-based denoising for polarimetric images. Optics Express, 28(11), 16309-16321, 2020.
[30] Li, X., Le Teurnier, B., Boffety, M., Liu, T., Hu, H., & Goudail, F. Theory of autocalibration feasibility and precision in full Stokes imaging polarimeters. Optics Express, 28(10), 15268-15283, 2020.
[31] Li, X., Hu, H., Boffety, M., Roussel, S., Liu, T & Goudail, F. Optimal tradeoff between precision and sampling rate in DoFP imaging polarimeters. Optics Letters. 44(24), 5900-5903, 2019.
[32] Li, X.., Hu, H., Goudail, F. & Liu, T. Fundamental precision limits of full Stokes polarimeters based on DoFP polarization cameras for an arbitrary number of acquisitions. Optics Express, 27(22), 31261-31272, 2019.
[33] Goudail, F., Li, X., Boffety, M., Roussel, S., Liu, T., and Hu, H. Autocalibration precision of full-Stokes division-of-focal-plane imaging polarimeters. Optics Letters, 44(22), 5410-5413, 2019.
[34] Li, X., Hu, H., Wu, L., Yu. Y., & Liu, T. Impact of intensity integration time distribution strategy on Mueller polarimetry. Journal of Quantitative Spectroscopy & Radiative Transfer, 231,22-27, 2019.
[35] Li, X., Hu, H., Wu, L., & Liu, T. Optimal Measurement Matrix of Partial Polarimeter for Measuring Ellipsometric Parameters with Eight Intensity Measurements. IEEE Access, 7, 31494-31500, 2019.
[36] Li, X., Hu, H., Zhao, L., Wang, H., Han, Q., Cheng, Z., & Liu, T. Pseudo-polarimetric method for dense haze removal. IEEE Photonics Journal, 11(1), 6900611, 2019.
[37] Li, X., Wang, H., Hu, H., and Liu, T. Polarimetric underwater image recovery based on circularly polarized illumination and histogram stretching, Proc. SPIE AOPC 2019: Optical Sensing and Imaging Technology, 113382O, 2019.
[38] Li, X., Goudail, F., Hu, H., Han, Q., Cheng, Z., & Liu, T. Optimal ellipsometric parameter measurement strategies based on four intensity measurements in presence of additive Gaussian and Poisson noise. Optics Express, 26(26), 34529-34546, 2018.
[39] Li, X., Hu, H., Zhao, L., et. al., T. Polarimetric image recovery method combining histogram stretching for underwater imaging. Scientific Reports, 8(1), 12430, 2018. (Milestone!)
https://www.nature.com/articles/s41598-018-30566-8
[40] Li, X., Hu, H., Wang, H., Wu, L., & Liu, T. G. Influence of noise statistics on optimizing the distribution of integration time for degree of linear polarization polarimetry. Optical Engineering, 57(6), 064110, 2018.
[41] Li, X., Hu, H., Wu, L., & Liu, T. Optimization of instrument matrix for Mueller matrix ellipsometry based on partial elements analysis of the Mueller matrix. Optics Express, 25(16), 18872-18884, 2017.
[42] Li, X., Hu, H., Liu, T., Huang, B., & Song, Z. Optimal distribution of integration time for intensity measurements in degree of linear polarization polarimetry. Optics Express, 24(7), 7191-7200, 2016.
[43] Li, X., Liu, T., Huang, B., Song, Z., & Hu, H. Optimal distribution of integration time for intensity measurements in Stokes polarimetry. Optics Express, 23(21), 27690-27699, 2015.
入选中国科协“青年人才托举工程” 2023
天津市优秀博士学位论文 2023
中国光学学会王大珩光学奖(学子奖) 2021
第九届互联网+天津市金奖(省部级) 指导教师 2023
天津大学海洋学院青年教师讲课大赛 特等奖 2023
第十四届“挑战杯”中国大学生创业计划竞赛校银奖 指导教师 2024
美国大学生数学建模H奖 指导教师 2024
红外与激光工程 年度优秀审稿人 2021
天津大学“优秀博士学位论文” 2020
天津大学优秀毕业生 2020
国家奖学金 2019
国家奖学金 2015
天津大学优秀毕业生 2014
天津大学“理学院十佳杰出青年”2012
中国光学学会、中国仪器仪表学会、中国光学工程学会、IEEE、Optica会员 2020-至今
Remote Sensing (SCI JCR-2区) Lead Guest Editor
Photonics (SCI JCR-3区) Lead Guest Editor
《应用光学》期刊 青年编委
中国光学工程学会计算成像专业委员会 首届青年委员
土木与海洋工程国际会议技术委员会 委员
天津市光学学会光电技术专业委员会 委员
美国光学学会(Optica)期刊(Optics Letters、Optics Express、JOSA等)、美国物理学会(AIP)期刊、英国物理学会(IOP)期刊、ACS Photonics、Ocean Engineering、IEEE Transactions系列、Optics and Laser Technology、Optics and Lasers in Engineering、Remote Sensing、光学学报、红外与激光工程等期刊审稿人。
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