李星辉

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李星辉

副教授博士生导师

电话: 0755-26032544

邮箱:

地址: 深圳市南山区西丽大学城清华大学深圳国际研究生院能源环境大楼813室

  • 个人简历
  • 教学
  • 研究领域
  • 研究成果
  • 奖励荣誉

  • 概况

    教育经历

    201110-201409月,Tohoku University,纳米力学,工学博士

    200910-201009月,Tokyo Institute of Technology,硕士联合培养

    200809-201104月,西安交通大学,机械工程,工学硕士

    200409-200806月,武汉大学,机械设计制造及其自动化,工学学士



    工作经历

    202112-至今,清华大学深圳国际研究生院/清华-伯克利深圳学院,副教授,博士生导师

    202010-202111月,清华大学深圳国际研究生院/清华-伯克利深圳学院,助理教授,博士生导师

    201904-202009月,清华大学深圳国际研究生院,讲师

    201710-201903月,清华大学深圳研究生院,讲师

    201701-201709月,清华大学深圳研究生院,研究助理

    201411-201612月,清华大学深圳研究生院,博士后

    201212-201301月,KAIST,访问学者

    201111-201201月,清华大学,访问学者


    现任职务

    1. 清华大学深圳国际研究生院智能仪器与装备研究所所长助理

    2. 清华大学深圳国际研究生院-南宁智能制造中心主任



    学术兼职

    1.2024.12-2028.12,深圳市产教融合促进会副会长;

    2.2024.06-至今,中国仪器仪表学会,集成电路测量与仪器分会委员;

    3.2023.05-至今,国际期刊《光学 精密工程》编委;

    4.2023.01-至今,国际期刊《Journal Nanomanufacturing and Metrology (NMME)》精密和微/纳米计量机器学习特刊的首席客座编辑;

    5.2022.09-至今,国际纳米制造学会ISNM,青年科学家委员会秘书;

    6.2017.01-至今,国际期刊《International Journal of Precision Engineering and Manufacturing (IJPEM)》编委。


    学术会议

    1.国际会议程序委员会主席, 2024国际精密工程会议ICPE, Oct. 23-26, 2024, 日本仙台

    2.国际会议分会场主席,2024亚洲光电子会议Photonics Asia, Oct. 12-14, 2024,中国南通

    3.国际会议共主席,青年科学家委员会秘书, 2023 ISNM Symposium on Advanced Manufacturing and Measurement: Micro, Nano, Atomic and Close-to-atomic Scale, Nov 17-19, 2023, Wuhan, China

    4.国内会议主席,第一届清华-鹏城工业智能技术研讨会,2023.1.5-2023.1.6,深圳,中国

    5.国际会议联合主席, 2022 ISNM Symposium on Non-Conventional Manufacturing, Dec 16-17, Changchun, China

    6.国际会议联合主席, 分会场主席, 2022 ISNM Symposium on Measurement Technologies, Sep 23-25, 2022, Chongqing, China

    7.国际会议组委会成员, 分会场主席, the 8th International Conference on Nanomanufacturing (nanoMan2022) and the 4th Asia Education Technology (AET2022) Symposium, Aug. 30-Sep. 1, 2022, online

    8.国际会议分会场主席, the 7th International Conference on Nanomanufacturing, Nov 17-19, 2021, Xi’an, China

    9.国际会议分会场主席, the 10th International Symposium on Precision Engineering Measurements and Instrumentation (ISPEMI 2018), Aug 8-10, 2018, Kunming, China

    10.国际会议分会场主席, the 14th International Symposium on Measurement Technology and Intelligent Instrument (ISMTII 2019), Sep 1-4, 2019, Niigata, Japan

     

    *国际纳米制造学会(International Society for Nanomanufacturing,https://www.isnm.org,简称ISNM)成立于2006年,是制造和计量领域具有引领性的国际组织,有数百位来自世界不同国家的成员。学会宗旨是为全世界从事微米、纳米、原子及近原子尺度制造与计量领域的专家、学者及业界人员提供交流平台。学会主办系列国际纳米制造会议(International Conference on Nanomanufacturing,简称nanoMan)。每两年一届的nanoMan在世界不同国家举行,已经发展成为制造与测量领域国际主要会议之一。ISNM于2018年发起创办了“纳米制造与计量”(Nanomanufacturing and Metrology , 简称NMME)期刊,并由Springer Nature出版。期刊收录微米、纳米、原子及近原子尺度制造和计量学中相关的物理、化学和材料学问题,以及微米、纳米、原子及近原子尺度制造和计量中的工具、工艺、装备及应用等相关领域的研究、短讯及综述性论文。

     





    社会兼职

  • 教学课程

    1.《Metrology in Semiconductor Industry》(半导体工业量测技术,3学分,全英文课程,48学时),深圳国际研究生院

    2.《Testing and Measurement Technology》(测试技术,3学分,全英文课程,48学时),TBSI(2017-2022)

    3.《机器人与仿生学》(2学分,主讲,承担24学时),深圳国际研究生院

    4.《仪器行业》(2学分,合讲,承担16学时),深圳国际研究生院

    5.《光学测量专题实验》(2学分,合讲,承担16学时),深圳国际研究生院

    6.《制造技术I》(3学分,承担18学时,机器视觉技术),深圳国际研究生院

    7.《科技写作》(2学分,合讲,承担16学时),深圳国际研究生院




    研究生指导

  • #if(${article.articleType.name}=="TEACHER_CN")

    研究领域

    近五年来,面向国家制造业转型升级的战略需求,围绕先进制造中精密化和智能化的重要目标,开展了精密测量技术与仪器、智能生产技术与装备两个领域的研究,搭建了纳米光栅干涉测量、先进光栅与光刻制造、微小型光谱仪与光谱共焦、高精度高动态结构光三维重建、人工智能自动缺陷检测、自主移动定位导航、超声自动化检测等八个科研方向和平台。在上述领域,发表学术论文200余篇,申请发明专利60余项,获得国家自然科学基金、省重点基金、博士后特别资助、新型研发机构平台建设等各类科研项目合计2000余万元,培养博士后、博士生、硕士生50余名。在上述领域的学术贡献、创新成果及其科学与社会经济价值介绍如下。

    首先,在纳米光栅干涉测量方面,提出了基于二维纳米计量光栅反射面的纳米/亚角秒六自由度超精密测量方法,拓展了延续140余年的迈克尔逊干涉仪方案,发表至今已被引用超过200次,并被评选为“Highly Cited Research”。在此基础上,进一步深入研究,又提出基于混合编码的复合二维光栅测量原理,使其兼具六自由度、亚纳米、绝对式和大行程的多重优点,为解决我国集成电路制造核心装备光刻机开发中的“卡脖子”环节提供了有效的解决方案。其次,在先进光学制造方面,提出了具大调谐范围的偏振型全息光刻技术,深入研究了偏振调制中的工作界面的等效折射率理论,并提出了基于路径和界面调控的空间偏振模型仿真方法,成功搭建了可达单次曝光可达10亿个微结构单元的大尺度跨度阵列结构加工平台,为包括衍射光栅、光子晶体、分子自组装等多种领域所需的大面积微纳结构成型提供了有力的制造工具。第三,在光谱共焦测量领域,提出了空间滤波光瞳、自参考光路系统与参量差分方案,彻底地解决了自变量动态变化与光谱响应差异性问题,极大地提升了光谱共焦系统在纳米级位移和反射率精确表征的稳定性,为多种高端制造领域提供了品质表征手段。上述精密测量技术与仪器领域的多项研究,均突破了相关领域的技术瓶颈,为我国精密测量技术的发展以及先进制造行业中诸如光刻机等高端装备的自主发展奠定了坚实基础。

    另一方面,在智能化、柔性化的生产领域,面向智能制造的可重构物流技术与产品品质自动分选的需求,重点研究了其中的关键技术与装备:具有自动移动与导航能力的移动平台,人工智能自动光学检测(AI-AOI)系统。首先,在自主移动定位方面,基于光学视觉、激光雷达测距技术和惯性导航相结合的融合感知,实现基于SLAM技术的多场景下高鲁棒性的物流小车自主移动,为智能制造中可重构装配、柔性生产中的自动码料提供了灵活的移动平台。其次,在机器人自主操作的视觉辅助方面,提出了面向高精度高动态三维重建的FPGA控制MEMS振镜结构光投影技术,通过稳定且高质量的投影,并提出了精确且高效的相位还原与展开算法,快速精准地重构出三维物体,实现执行对象的准确识别和定位,为多种场景下的智能操作提供了技术保障。第三,针对目前智能制造领域的品质检测环节,我们提出了基于人工智能和自动光学检测为主的品质分选技术,开展了基于迁移学习的人工智能研究,使得品质分拣的效率和质量大幅提升。该领域研究成果得到了成功转化,成立了科技公司,所开发的人工智能分选机,已经为磁瓦、玻璃盖板、Pogo Pin等多个领域客户提供了满意的解决方案,累计产生经济效益超过3000万元。同时,基于超声技术在内部缺陷的无损检测能力,开发了能够面向工业生产高节拍需求的阵列式自动化超声检测平台。上述智能生产技术与装备领域的研发成果,为我国制造业相关领域提质增效提供了有力的支撑,有助于我国制造业在新形势下国际竞争力的提升。



    主要项目

    1.测量系统及大数据监控平台开发服务项目,东方电气集团数字科技有限公司,2025.06-2025.08,主持

    2.桥梁主缆空隙率测量系统,企业合作项目,2025.01-2026.12,主持

    3.基20240193光刻机极紫外光源及工件台超精密检测控制等方法研究,深圳市基础研究重点项目,2025.03-2028.03,重点参与

    4.基于MEMS振镜的抗谐波数字光栅三维重建技术与系统研究,深圳市基础研究面上项目,2024.11-2027.11主持

    5.10nm精度量级六自由度光栅干涉测量系统,比亚迪汽车工业有限公司,2024.04-2025.05主持

    6.外差光栅干涉原子级超精密测量技术与系统,深圳市稳定支持计划项目,2023.12-2025.11,主持

    7.在线水质分析仪的智能化技术研究,企业合作项目,2023.10-2025.09,主持

    8.大面积混合光栅加工技术研究项目,华为技术有限公司,2023.08-2025.02,主持

    9.基于混合编码平面光栅的绝对式六自由度纳米/亚角秒测量机理与系统,国家自然科学基金项目,2023.1-2026.12,主持

    10.光芯片微视觉检测系统关键技术研究开发,企业合作项目,2021.11-2023.11,主持

    11.面向14nm光刻机的多维光栅干涉测量模型与动态误差补偿机制研究,广东省基础与应用基础研究基金项目,2021.10-2024.9,主持

    12.基于超声辅助和智能视觉的高效能制造生产技术研究,清华大学深圳国际研究生院联合研究项目,2021.10-2024.9,主持

    13.基于机器视觉的品质检验关键技术研究,深圳市科技计划基础研究稳定支持项目,2021.6-2024.5,参与

    14.清华大学深圳国际研究生院-南宁智能制造中心,2021.1-2023.12,主持

    15.高一致性平面二维纳米光栅干涉光刻加工关键技术研究,国家自然科学基金项目,2020.1-2022.12,主持

    16.面向多场景自动光学检测的智能打光平台,企业合作项目,2019.4-2021.4,主持

    17.基于二维光栅阵列的高精度干涉测距数据融合方法与实现,清华大学深圳国际研究生院青年科研基金项目,2018.7-2020.6,主持

    18.长尺度高分辨六自由度光栅尺,广东省自然科学基金项目,2018.5-2021.4,主持

    19.超长尺度多自由度精密光栅测距系统关键技术研究,深圳市基础研究计划,2018.4-2021.3,参与

    20.高速度高精度PE膜红外测厚仪开发,企业合作项目,2017.5-2018.5,主持

    21.光栅制造偏差检测及大量程测量误差补偿方法,国家重点研发计划项目,2016.6-2019.6,参与

    22.面向高端装备的光栅干涉测距关键元件制作工艺研究,深圳市基础研究计划,2016.7-2018.7,主持

    23.半导体激光光刻加工复杂光栅的关键技术研究,中国博士后科学基金特别资助项目,2016.3-2016.12,主持

    24.绝对式二维光栅尺关键技术的研发,深圳市技术攻关计划项目,2015.7-2017.6,参与

    25.基于蓝光半导体激光器的一维光栅拼接加工方法研究,中国博士后科学基金面上项目,2015.3-2016.12,主持

    26.光学构件空间位姿监测用双频复合二维光栅多自由度纳米测量系统研究,国家自然科学基金面上项目,2015.1-2019.12,参与


    #else

    Research Interests

    [1] Tianshi Lu, Fuyuan Deng, Yufeng Wei, Zhipeng Zeng, Xinghui Li*. Single-cycle contact-interferencehybrid lithography for scalable fabricationof arrayed quadrant micro-polarizerstructures[J]. International Journal of Economics and Management. (Accepted)

    [2] Can Cui, Xinghui Li*, Xiaohao Wang. Grating Interferometer: The Dominant Positioning Strategy in Atomic and Close-to-atomic Scale Manufacturing[J]. Journal of Manufacturing Systems, 2025, 82: 1227-1251. DOI: 10.1016/j.jmsy.2025.08.008.

    [3] Hao Wang, Chaobo Zhang, Xiang Qian, Xiaohao Wang, Weihua Gui, Wen Gao, Xiaojun Liang, Xinghui Li*. HDRSL Net for Accurate High Dynamic Range lmaging-based Structured Light 3D Reconstruction[J]. lEEE Transactions on lmage Processing, 2025, 34: 5486 - 5499. 10.1109/TIP.2025.3599934.

    [4] Jingwen Li, Shengtong Wang, Xinghui Li*. Cross-scale structures fabrication via hybrid lithograpkg for nanolevel positionin[J]. Microsystems and Nanoengineering. 2025, 11:163. DOI: 10.1038/s41378-025-01021-2.

    [5] Shuang Sun, Yijie Fu, Xiangrui Bu, Qinhao Shi, Weilong Wu, Xinghui Li, Xiaohao Wang, Quan Yu*. Sustainable Imine Production Using Alkanes as Substrates via a Plasma-Microdroplet Approach[J]. Journal of the American Chemical Society, 2025. DOI: 10.1021/jacs.5c06426.

    [6] Guochang Liu; Renxin Wang; Huimin Liu; Wendong Zhang; Guojun Zhang; Min Zhang, Xinghui Li, Xiaohao Wang. Design and Implementation of a 3-D Vector Hydrophone With Half-Wheatstone Bridge[J]. IEEE Sensors Journal, 2025, 25(13): 23666-23675. DOI: 10.1109/JSEN.2025.3551445.

    [7] Yiming Li, Weikang Chen, Zinan Li, Chaobo Zhang, Xiaohao Wang, Weihua Gui, Wen Gao, Xiaojun Liang*, Xinghui Li*. SL3D-BF: A real-world structured light 3D dataset with background-to-foreground enhancement[J]. IEEE Transactions on Circuits and Systems for Video Technology, 2025. DOI: 10.1109/TCSVT.2025.3571417. (IF=11.1)

    [8] Yiming Li, Zinan Li, Weikang Chen, Chaobo Zhang, Hao Wang, Xiaohao Wang, Weihua Gui, Wen Gao,  Xiaojun Liang, Xinghui Li. Reliable 3D Reconstruction with Single-Shot Digital Grating and Physical Model-Supervised Machine Learning[J]. IEEE Transactions on Instrumentation and Measurement, 2025. DOI: 10.1109/TIM.2025.3575974. (IF=5.9)

    [9] Can Cui#, Lvye Gao#, Pengbo Zhao, Menghan Yang, Lifu Liu, Yu Ma, Guangyao Huang, Shengtong Wang, Linbin Luo, Xinghui Li*. Towards multi-dimensional atomic-level measurement: integrated heterodyne grating interferometer with zero dead-zone[J]. Light: Advanced Manufacturing, 2025, 6, 40. DOI: 10.37188/lam.2025.040. (ESCI, IF=10.6)Jiao Bai*, Huaming Chen, Junguang Chen, Haowei Yang, Xinghui Li, Yan Shi, Jiangfeng Song. Normal incident reflectance spectroscopy for thin-film thickness measurement with genetic algorithm[J].

    [10] Changfeng Shao, Xinghui Li*. Technologies for Fabricating Large-Size Diffraction Gratings[J]. Sensors, 2025, 25, 1990: 1-27. DOI: 10.3390/s25071990.  (IF=3.4, JCR Q2, SCI Q3)

    [11] Hao Wang, Ziyu Lu, Ziyang Huang, Yiming Li, Chaobo Zhang, Xiang Qian, Xiaohao Wang, Weihua Gui, Xiaojun Liang*, Xinghui Li*. A high-accuracy and reliable end-to-end phase calculation network and its demonstration in high dynamic range 3D reconstruction[J]. Nanomanufacturing and Metrology, 2025, 8(5): 1-19. DOI: 10.1007/s41871-025-00248-x. (ESCI, IF=4.5)

    [12] Hao Wang, Xiyu He, Chaobo Zhang, Xiaojun Liang, Peiyuan Zhu, Xiaohao Wang, Weihua Gui, Xinghui Li*, Xiang Qian*. Accelerating surface defect detection using normal data with an attention-guided feature distillation reconstruction network[J]. Measurement, 2025, 246: 116702. DOI: 10.1016/j.measurement.2025.116702. (IF=5.6, JCR Q2, SCI Q3)

    [13] Xiang Gao, Jingwen Li, Zijian Zhong, Xinghui Li*. Global alignment reference strategy for laser interference lithography pattern arrays[J]. Microsystems & Nanoengineering, 2025, 11: 41. DOI: 10.1038/s41378-025-00889-4  (IF=9.9, JCR Q1, SCI Q1)

    [14] Linbin Luo, Feifan Cao, Shengtong Wang, Xinghui Li*. Design and demonstration of a large range precision grating sensor for simultaneous measurement of out-of-plane motions[J]. Measurement, 2025, 249: 116799. DOI: 10.1016/j.measurement.2025.116799. (IF=5.2, JCR Q2, SCI Q3)

    [15] Zijian Zhong, Jingwen Li, Tianshi Lu, Xinghui Li*. High dynamic wavefront stability control for high-uniformity periodic microstructure fabrication[J]. Precision Engineering, 2025, 93: 216-223. DOI: 10.1016/j.precisioneng.2025.01.006. (IF=3.5, JCR Q1, SCI Q2)

    [16] Boliang Li, Mengfang Liu, Xiaohao Wang, Xinghui Li*. An adaptive plug-and-play online extrinsic calibration approach for LiDAR-camera fusion[J]. Measurement, 2025, 248: 116877. DOI: 10.1016/j.measurement.2025.116877. (IF=5.2, JCR Q2, SCI Q3)

    [17] Guangyao Huang#, Can Cui#, Xiaoyang Lei, Qixue Li, Shuhua Yan, Xinghui Li, Guochao Wang*. A review of optical interferometry for high-precision length measurement[J]. Micromachines, 2025, 16(6): 16010006. DOI: 10.3390/mi16010006.  (IF=3.0, JCR Q2, SCI Q3)

    [18] Linbin Luo#, Shuonan Shan#, Xinghui Li*. A Review: Laser interference lithography for diffraction gratings and their applications in encoders and spectrometers[J]. Sensors, 2024, 24: 6617. DOI: 10.3390/s24206617. (IF=3.4, JCR Q2, SCI Q3)

    [19] Min Han, Hao Jiang, Fengxiao Lei, Yibo Xing, Xiaohao Wang, Xinghui Li*. Modeling window smoothing effect hidden in fringe projection profilometry[J]. Measurement, 2025, 242: 115852. DOI: 10.1016/j.measurement.2024.115852.  (IF=5.2, JCR Q1, SCI Q2)

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    [107] 李星輝,清水裕樹,伊東聡,高偉. 2軸ロイドミラー干渉によるスケール格子の製作に関する研究,日本機械学会東北支部第49期総会講演会講演論文集, 2014.【日语】


    Projects

    1. 李星辉, 韩耀东. 基于FPGA的光栅尺位移实时结算系统设计: 2020SR0286738.

    2. 李星辉,王培荣. 基于RGBD相机的定位导航系统算法: 2020R11L304726.


    Research Output

    已授权

    1. 李星辉, 李一鸣. 一种基于绝对相位端到端预测网络的结构光三维测量方法: CN118328900A. 2025.09.15.(已收到授予发明专利权通知书)

    2. 李星辉, 李一鸣, 李梓楠. 一种结构光三维测量中黑色和阴影区域的假点修正方法和结构光三维测量方法: CN118129644A. 2025.09.15.(已收到授予发明专利权通知书)

    3. 李星辉, 陆海鸥, 周倩, 王晓浩, 袁伟涵, 倪凯, 吴冠豪. 检测系统、拼接系统、检测方法、拼接方法与拼接光栅尺: ZL201811059690.2. 2024.10.29.

    4. 李星辉, 单硕楠, 李一鸣, 邓富元, 王晓浩. 一种高分辨率的套刻误差测量装置及方法: ZL202211144174.6. 2024.08.16.

    5. 李星辉, 邓富元, 李一鸣, 单硕楠, 王晓浩. 一种精准对焦的套刻误差测量系统及方法: ZL202211144462.1. 2024.08.16.

    6. 李星辉, 雷烽骁. 一种高速度条纹投影三维重构方法: ZL202410448810.7. 2024.06.18.

    7. 余浩洋, 马茹玉, 倪凯, 吴冠豪, 周倩, 李星辉, 王晓浩. 双光频梳测厚光路结构、系统、方法、装置及存储介质: ZL1201811064599.X. 2024.03.26.

    8. 李星辉, 薛高鹏, 陶一豪. 一种编码结构光投影方法及其系统: ZL202210156189.8. 2023.12.01.

    9. 李星辉, 吴豪, 王晓浩, 周倩, 倪凯. 一种基于压电测量的晶体清洁装置与晶体清洁方法: ZL201811173023.7. 2023.11.17.

    10. 朱拾东, 罗琳, 王晓浩, 李星辉, 倪凯, 周倩. 一种主动脉外反搏心室衰竭辅助装置: ZL201711425070.1. 2023.11.17.

    11. 周倩, 倪凯, 晁银银, 白本锋, 汪伟奇, 李星辉, 王晓浩. 一种微偏振片模板制作方法: ZL201910798261.5. 2023.11.17.

    12. 李星辉, 李一鸣, 王晓浩. 一种高精度套刻测量量值溯源方法及散射仪: ZL202111558740.3. 2023.11.07.

    13. 李星辉, 刘培源, 白蛟, 王晓浩. 菲涅尔光栅微透镜阵列、光谱仪及光谱共焦面型测量系统: ZL202111078906.1. 2023.10.17.

    14. 李星辉, 余康宁, 王晓浩. 一种六维力传感器: ZL202111172303.8. 2023.10.13.

    15. 薛高鹏, 李星辉, 王晓浩. 磁性悬臂梁传感器及其制作方法和测量装置、成像系统: ZL202111400243.0. 2023.08.29.

    16. 周倩, 倪凯, 肖翔, 李星辉, 王欢欢, 曾理江, 苏晓, 袁伟涵, 王晓浩. 一种判断光栅尺参考位置的装置及方法: ZL201810069996.X. 2023.8.22.

    17. 星辉, 周倩, 肖翔, 倪凯, 王欢欢, 冒新宇, 曾理江, 苏晓, 王晓浩. 一种判断光栅尺参考点绝对位置的装置及方法: ZL201810069463.1. 2023.08.11.

    18. 李星辉, 汪盛通. 一种绝对式六自由度光栅编码器: ZL202210155113.3. 2023.07.28.

    19. 薛高鹏, 李星辉, 王晓浩. 一种带硅基压阻式传感器的MEMS器件: ZL202110380700.8. 2023.07.18.

    20. 李星辉, 韩民. 一种获取折叠相位的方法、三维重建的方法及系统: ZL202210085619.1. 2023.06.02.

    21. 李星辉, 倪凯, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓, 王晓浩. 一种光栅衍射光偏转棱镜: ZL201611217716.2. 2023.01.24.

    22. 李星辉, 陈瑞铭, 王晓浩, 周倩, 倪凯. 传感器、传感器标定方法设备、存储介质: ZL202010420953.9. 2023.01.10.

    23. 钱翔, 程致远, 朱凯雄, 李星辉, 朱拾东, 王晓浩. 一种磁瓦内部缺陷检测装置及检测方法: ZL202110461539.7. 2022.08.26.

    24. 薛高鹏, 李星辉, 王晓浩. 一种静电梳齿驱动式低串扰运动的面内二维定位平台: ZL202110082495.7. 2022.06.28.

    25. 李星辉, 余康宁, 周倩, 吴冠豪, 倪凯, 王晓浩. 检测系统、检测方法及光栅尺: ZL202010817814.X. 2022.06.21.

    26. 倪凯, 陈汉诚, 余浩洋, 周倩, 李星辉, 王晓浩. 双飞秒激光频率梳测距装置和方法: ZL202010265852.9. 2022.05.10.

    27. 倪凯, 李星辉, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓, 王晓浩. 一种多码道光栅尺: ZL201611217687.X. 2022.02.25.

    28. 倪凯, 余浩洋, 周倩, 李星辉, 王晓浩. 双光频梳系统及其偏频控制方法: ZL202010747324.7. 2022.02.01.

    29. 曾龙, 陈敏鹤, 李星辉, 罗博, 吴啸跃, 洪军, 徐一凡. 一种全方位汽车调姿平台: ZL201611249834.1. 2021.10.29.(2021年已转让)

    30. 李星辉, 施亚平, 周倩, 倪凯, 王晓浩. 一种绝对式光栅尺参考位置测量方法及系统: ZL201910654027.5. 2021.10.22.

    31. 钱翔, 纵帅, 李星辉, 周倩, 倪凯, 王晓浩. 一种轮转式多环境AOI检测装置和方法: ZL201910277133.6. 2021.09.24. (2022年已转让)

    32. 李星辉, 白蛟, 王晓浩. 光谱反射率检测方法、系统、设备及计算机可读存储介质: ZL202110286141.4. 2021.07.20.

    33. 钱翔, 彭博, 李星辉, 周倩, 倪凯, 王晓浩. 一种产品缺陷检测方法及装置: ZL201910285540.1. 2021.07.02. (2021年已转让)

    34. 白蛟, 李星辉, 王晓浩, 周倩, 倪凯. 一种基于短量程扫描的光谱共焦测距方法、装置及设备: ZL201910299741.7. 2021.03.19. (2022年已转让)

    35. 李星辉, 白蛟, 王晓浩, 周倩, 倪凯. 一种光谱共焦轴向距离检测方法、装置及设备: ZL201910299737.0. 2021.03.05. (2022年已转让)

    36. 倪凯, 马茹玉, 周倩, 李星辉. 一种角速度测量方法、测量系统及载体: ZL201910299404.8. 2020.12.22.

    37. 倪凯, 马茹玉, 周倩, 李星辉. 角速度测量方法、装置及应用系统: ZL201910299406.7. 2020.12.22.

    38. 冯峰, 李星辉, 周文萌, 刘彬彬, 黄俊龙, 冯平法. 一种快速测算表面粗糙度与测量尺度关系的方法: ZL201910569990.3. 2020.08.25.

    39. 倪凯, 马茹玉, 余浩洋, 周倩, 吴冠豪, 李星辉, 王晓浩. 一种角速度测量装置、方法及其载具: ZL201811175104.0. 2020.08.04.

    40. 李星辉, 肖翔, 倪凯, 周倩, 袁伟涵, 陆海鸥, 曾理江, 王晓浩. 一种大量程干涉式光栅尺及其测距方法: ZL201810764638.0. 2020.07.03.

    41. 李星辉, 肖翔, 周倩, 倪凯, 王培荣, 王晓浩. 一种光谱编码距离传感器系统: ZL201810791500.X. 2020.03.06. (2021年已转让)

    42. 李星辉, 朱培源, 钱翔, 冯峰, 赵骞, 王晓浩. 一种双线激光的三维轮廓扫描装置及方法: ZL201810443975.X. 2020.02.14. (2022年已转让)

    43. 王晓浩, 朱培源, 钱翔, 李星辉, 冯峰, 赵骞. 一种单线激光的三维轮廓扫描装置及方法: ZL201810443974.5. 2020.02.14.

    44. 李星辉, 倪凯, 王欢欢, 周倩, 王晓浩, 冒新宇, 曾理江, 肖翔. 絶対式の格子スケール. 日本发明专利, 特许第6641650号(特願2018-552216), 2020.01.08.

    45. 钱翔, 朱紫威, 王晓浩, 李星辉, 倪凯, 周倩. 一种图像插值方法及基于该方法的二维经验模态分解方法: ZL201710352884.0. 2019.12.20.(2021年已转让)

    46. 李星辉, 倪凯, 朱祥文, 周倩, 王晓浩, 胡海飞, 燕鹏. 一种全息光栅的制作装置: ZL201610840386.6. 2018.12.28. (2022年已转让)

    47. 李星辉, 周倩, 朱祥文, 倪凯, 王晓浩, 胡海飞, 燕鹏. 一种全息光栅阵列的制作装置: ZL201610839438.8. 2018.08.17. (2021年已转让)

    48. 周倩, 张锦超, 李星辉, 倪凯, 逄锦超, 胡海飞, 董昊, 王欢欢, 朱祥文, 王兰兰. 用于制作菲涅尔光栅的优化设计方法: ZL201510225311.2. 2018.07.20.

    49. 李星辉, 倪凯, 王欢欢, 周倩, 冒新宇, 曾理江, 肖翔. 绝对式光栅尺、其主光栅及其测量方法: ZL201610157166.3. 2018.04.20. (2021年已许可)

    50. 李星辉, 倪凯, 王欢欢, 周倩, 王晓浩, 冒新宇, 曾理江, 肖翔. 一种绝对式光栅尺: ZL201610234556.6. 2018.02.09.

    51. 王晓浩, 周倩, 胡海飞, 李星辉, 倪凯, 燕鹏, 张锦超, 逄锦超. 一种在光学元件上制作涂镀层的方法及光学元件: ZL201610232252.6. 2017.11.17.(2021年已转让)

    52. 周倩, 倪凯, 胡凯, 王立代, 王晓浩, 李星辉, 董昊, 王兰兰. 一种水下探测系统及水下探测方法: ZL201610235054.5. 2017.11.17.

    53. 清水裕樹, 高偉, 伊聡, 李星輝. 干渉リソグラフィにおける2次元パターンの一括露光手法. 日本发明专利, 特開2014-099529.【in Japanese】

     

    申请中

    1. 李星辉, 王浩, 陆姿羽, 钱翔, 王晓浩. 一种基于自监督学习的条纹结构光三维重建方法及装置: CN120339512A. 2025.07.18.

    2. 张旻, 曹承然, 李星辉. 一种基于仿生微结构的高密度触觉传感阵列及方法: CN120253019A. 2025.07.04.

    3. 李星辉, 王晓浩, 省艺博, 马瑞, 朱尧晖, 聂千皓. 一种微空间结构光三维重建系统及方法: CN202510912385.7. 2025.07.03.

    4. 李星辉, 陆天石, 王晓浩, 钱翔. 实现衍射效率渐变的波导光栅、制备方法和设备: CN120161553A. 2025.06.17.

    5. 郭建和, 王晓浩, 李星辉, 刘国昌, 杨敏. 一种多波束测深姿态误差自适应补偿方法: CN202510793388.3. 2025.06.13.

    6. 李星辉, 崔璨. 一种时空域信息融合的多自由度运动同步测量系统和方法: CN120101634A. 2025.06.06.

    7. 徐捷, 冯峰, 冯平法, 梁艺赢, 乐祺中, 李星辉. 超声直刃刀磨损测试设备与方法: CN119437970A. 2025.02.14.

    8. 李星辉, 钟子健. 一种全局高动态的曝光干涉场锁定装置和方法: CN119165736A. 2024.12.20.

    9. 余泉, 孙爽, 李星辉, 王晓浩. 一种电喷雾离子源和质谱仪: CN119153312A. 2024.12.17.

    10. 李星辉, 高翔. 一种平面拼接大面积光栅装置和方法: CN119126283A. 2024.12.13.

    11. 李星辉, 崔璨, 杨孟涵. 一种外差式六自由度测量光栅干涉仪及六自由度测量方法: CN119085478A. 2024.12.06.

    12. 李星辉, 马瑞. 杰汽车轮毂几何要素测量方法与系统: CN119043197A. 2024.11.29

    13. 李星辉, 赵鹏博, 崔璨. 一种改良栅外位移测量的光栅干涉仪及位移测量方法: CN118882474A. 2024.11.01.

    14. 李星辉, 汪盛通. 大范围绝对式可辨向宏微协同光栅位移编码器及定位方法: CN118274716A. 2024.07.02.

    15. 李星辉, 高旅业. 一种基于双光栅的空间分离式光栅干涉仪及位移测量方法: CN118242972A. 2024.06.25.

    16. 李星辉, 骆林斌, 曹非凡, 汪盛通. 一种绝对式四自由度位姿传感器: CN117870611A. 2024.04.12.

    17. 李星辉, 李一鸣. 一种基于深度学习的同步多投影单光栅三维重建方法: CN117664030A. 2024.03.08.

    18. 李星辉, 韩民. 一种基于MEMS延时插值的高分辨条纹投影方法: CN117557448A. 2024.02.13.

    19. 李星辉, 单硕楠, 陆天石, 邓富元, 王晓浩. 一种多层光栅及其自对准方法和加工方法: CN117270092A. 2023.12.22.

    20. 李星辉, 汪盛通, 骆林斌. 一种绝对式六自由度位姿传感器: CN116592771A. 2023.08.15.

    21. 李星辉, 黄光耀, 冯峰, 王晓浩. 一种齿轮轮廓测量系统与方法: CN116164693A. 2023.05.26.

    22. 钱翔, 王浩, 李星辉, 王晓浩. 一种交互式工业冷启动缺陷检测系统和方法: CN115953385A. 2023.04.11.

    23. 李星辉, 邓富元, 陆天石. 一种微偏振片阵列制作方法、掩模版、基板以及载物台: CN115903409A. 2023.04.04.

    24. 钱翔, 王俊钊, 李星辉, 王晓浩. 磁瓦几何尺寸检测方法及装置: CN115170640A. 2022.10.11.

    25. 李星辉, 李一鸣, 王晓浩. 一种多通道高精度套刻误差检测系统及方法: CN114578657A. 2022.06.03.

    26. 朱拾东, 叶星, 王晓浩, 钱翔, 李星辉. 一种心脏模型制作方法及其制作模具: CN112092409A. 2020.12.18.

    27. 周倩, 倪凯, 晁银银, 汪伟奇, 白本锋, 李星辉, 王晓浩. 一种金属偏振片及其制作方法: CN110568541A. 2019.12.13.

    28. 李星辉, 李建雄, 周倩, 倪凯, 王晓浩. 对称布置的激光位移传感器的光束对准装置及对准方法: CN109668512A. 2019.04.23.

    29. 李星辉, 吴豪, 王晓浩, 周倩, 倪凯. 一种内循环式颗粒物浓度检测装置: CN109596495A. 2019.04.09.

    30. 李星辉, 陈瑞铭, 倪凯, 白蛟, 王晓浩, 周倩. 一种激光成像测距方法及系统: CN109405749A. 2019.03.01.

    31. 李星辉, 吴豪. 一种颗粒物沉降质量测量装置及其沉降效率检测方法: CN109283105A. 2019.01.29.

    32. 余浩洋, 马茹玉, 倪凯, 吴冠豪, 周倩, 李星辉, 王晓浩. 一种分级控制的温控盒、控制方法及飞秒频率流: CN109002070A. 2018.12.14.


    #end
  • #if(${article.articleType.name}=="TEACHER_CN")

    代表性论文

    [1] Tianshi Lu, Fuyuan Deng, Yufeng Wei, Zhipeng Zeng, Xinghui Li*. Single-cycle contact-interferencehybrid lithography for scalable fabricationof arrayed quadrant micro-polarizerstructures[J]. International Journal of Economics and Management. (Accepted)

    [2] Can Cui, Xinghui Li*, Xiaohao Wang. Grating Interferometer: The Dominant Positioning Strategy in Atomic and Close-to-atomic Scale Manufacturing[J]. Journal of Manufacturing Systems, 2025, 82: 1227-1251. DOI: 10.1016/j.jmsy.2025.08.008.

    [3] Hao Wang, Chaobo Zhang, Xiang Qian, Xiaohao Wang, Weihua Gui, Wen Gao, Xiaojun Liang, Xinghui Li*. HDRSL Net for Accurate High Dynamic Range lmaging-based Structured Light 3D Reconstruction[J]. lEEE Transactions on lmage Processing, 2025, 34: 5486 - 5499. 10.1109/TIP.2025.3599934.

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    [87] Gaopeng Xue, Haiou Lu, Xinghui Li*, Qian Zhou, Guanhao Wu, Xiaoha Wang and Kai Ni. Patterning nanoscale crossed grating with high uniformity by using two-axis Lloyd’s mirrors based interference lithography[J]. Optics Express, 2020, 28(2): 2179-2191.

    [88] Yaping Shi, Kai Ni, Xinghui Li*, Qian Zhou, Xiaohao Wang, Highly accurate, absolute optical encoder using a hybrid-positioning method[J]. Optics Letters, 2019, 44 (21): 5258-5231.

    [89] Jiao Bai, Xinghui Li*, Qian Zhou, Kai Ni, Xiaohao Wang. Improved chromatic confocal displacement sensor based on a spatial-bandpass-filter and an X-shaped fiber-coupler[J]. Optics Express, 2019, 27(8): 10961-10973.

    [90] Jiao Bai, Xinghui Li*, Xiaohao Wang, Qian Zhou, Kai Ni. Chromatic confocal displacement sensor with optimized dispersion probe and modified centroid peak extraction algorithm[J]. Sensors, 2019, 19(16): 3592.

    [91] Jianxiong Li, Qian Zhou, Xinghui Li*, Ruiming Chen, and Kai Ni. An improved low-noise processing methodology combined with PCL for industry inspection based on laser line scanner[J]. Sensors, 2019, 19(15): 3398.

    [92] Qian Zhou, Xinghui Li, Menglin Geng, Hiaifei Hu, Kai Ni*, Lunchao Zhong, Peng Yan, Xiaohao Wang*. Economic fabrication of a novel hybrid planar Grating/Fresnel lens for miniature spectrometers[J]. Optics Express, 2018, 26(5): 6079-6089.

    [93] Xinghui Li, Qian Zhou, Xiangwen Zhu, Lin Yang, Donghan Ma, JIanhui Sun, Kai NI*, Xiaohao Wang*. Holographic fabrication of an arrayed one-axis scale grating for a two-probe optical linear encoder[J]. Optics Express, 2017, 25(13), 16028-16039.

    [94] Xinghui Li, Kai Ni, Qian Zhou, Peng Yan, Jinchao Pang, and Xiaohao Wang. Improved master-replica separation process for fabrication of a blazed concave grating by using a combination-type convex grating[J]. Applied Optics, 2017, 56(2): 298-302.

    [95] Xinghui Li, Huanhuan Wang, Kai Ni, Qian Zhou, Xinyu Mao, Lijiang Zeng, Xiaohao Wang, Xiang Xiao. Two-probe optical encoder for absolute positioning of precision stages by using an improved scale grating[J]. Optics Express, 2016, 24(19): 21378-21391.

    [96] Xinghui Li, Wei Gao*, Yuki Shimizu, So Ito. A two-axis Lloyd’s mirror interferometer for fabrication of two dimensional diffraction gratings[J]. CIRP Annals-Manufacturing Technology, 2014, 63(1):461-464.

    [97] Xinghui Li, Jinchao Zhang, Qian Zhou, Kai Ni, Jinchao Pang, Rui Tian, Design of a variable-line-spacing grating pattern for spectrometers based on a grating–fresnel device[J]. Optics Letters, 2016, 41(7): 1470-1473.

    [98] Xinghui Li, Kai Ni, Qian Zhou, Xiaohao Wang, Rui Tian, Jinchao Pang, Fabrication of a concave grating with a large grid-constant via a novel dual-beam interference lithography method[J]. Optics Express, 2016, 24(9): 10759.

    [99] Xinghui Li, Tadahiko Shinshi, Wataru Hijikata, Yoshihiro Morimoto, Development of a suspension type sliding planar motion table using magnetic fluid lubrication[J]. Review of Scientific Instruments, 2016, 87: 065003.

    [100] Xinghui Li, Yuki Shimizu, So Ito, Wei Gao. Fabrication of scale gratings for surface encoders by using laser interference lithography with 405 nm laser diodes[J]. International Journal of Precision Engineering and Manufacturing, 2013, 14(11), 1979-1988 .

    [101] Xinghui Li, Wei Gao, Hiroshi Muto, Yuki Shimizu, Ito So, Songyi Dian. A six-degree-of-freedom surface encoder for precision positioning of a planar motion stage[J]. Precision Engineering, 2013, 37(3): 771-781.

    [102] Xinghui Li, Yuki Shimizu, Takeshi Ito, Yindi Cai, So Ito, Wei Gao. Measurement of six-degree-of-freedom planar motions by using a multi-probe surface encoder[J]. Optical Engineering, 2014, 53(12): 094002.

    [103] Qian Zhou, Xiaorui Qiao, Kai Ni, Xinghui Li*, Xiaohao Wang. Depth detection in interactive projection system based on one-shot black-and-white stripe pattern[J]. Optics Express. 2017, 25(5): 5341-5351.

    [104] Qian Zhou, Jinchao Pang, Xinghui Li*, Kai Ni, Rui Tian. Improving the spectral resolution of flat-field concave grating miniature spectrometers by dividing a wide spectral band into two narrow ones[J]. Applied Optics, 2015, 54(32): 9450-9455 .

    [105] Qian Zhou, Jinchao Pang, Xinghui Li*, Kai Ni, Rui Tian. Concave grating miniature spectrometer with an expanded spectral band by using two entrance slits[J]. Chines Optics Letters, 2015, 13(11): 110501.

    [106] Xinghui Li, Xiang Xiao, Kai Ni*, Qian Zhou, Huanhuan Wang, Xiaohao Wang. A precise reference position detection method for linear encoders by using a coherence function algorithm[C]//Optical Metrology and Inspection for Industrial Applications IV, SPIE, 2016, 10023: 278-282.

    [107] 李星輝,清水裕樹,伊東聡,高偉. 2軸ロイドミラー干渉によるスケール格子の製作に関する研究,日本機械学会東北支部第49期総会講演会講演論文集, 2014.【日语】


    代表性著作

    1. 李星辉, 韩耀东. 基于FPGA的光栅尺位移实时结算系统设计: 2020SR0286738.

    2. 李星辉,王培荣. 基于RGBD相机的定位导航系统算法: 2020R11L304726.


    主要专利成果

    已授权

    1. 李星辉, 李一鸣. 一种基于绝对相位端到端预测网络的结构光三维测量方法: CN118328900A. 2025.09.15.(已收到授予发明专利权通知书)

    2. 李星辉, 李一鸣, 李梓楠. 一种结构光三维测量中黑色和阴影区域的假点修正方法和结构光三维测量方法: CN118129644A. 2025.09.15.(已收到授予发明专利权通知书)

    3. 李星辉, 陆海鸥, 周倩, 王晓浩, 袁伟涵, 倪凯, 吴冠豪. 检测系统、拼接系统、检测方法、拼接方法与拼接光栅尺: ZL201811059690.2. 2024.10.29.

    4. 李星辉, 单硕楠, 李一鸣, 邓富元, 王晓浩. 一种高分辨率的套刻误差测量装置及方法: ZL202211144174.6. 2024.08.16.

    5. 李星辉, 邓富元, 李一鸣, 单硕楠, 王晓浩. 一种精准对焦的套刻误差测量系统及方法: ZL202211144462.1. 2024.08.16.

    6. 李星辉, 雷烽骁. 一种高速度条纹投影三维重构方法: ZL202410448810.7. 2024.06.18.

    7. 余浩洋, 马茹玉, 倪凯, 吴冠豪, 周倩, 李星辉, 王晓浩. 双光频梳测厚光路结构、系统、方法、装置及存储介质: ZL1201811064599.X. 2024.03.26.

    8. 李星辉, 薛高鹏, 陶一豪. 一种编码结构光投影方法及其系统: ZL202210156189.8. 2023.12.01.

    9. 李星辉, 吴豪, 王晓浩, 周倩, 倪凯. 一种基于压电测量的晶体清洁装置与晶体清洁方法: ZL201811173023.7. 2023.11.17.

    10. 朱拾东, 罗琳, 王晓浩, 李星辉, 倪凯, 周倩. 一种主动脉外反搏心室衰竭辅助装置: ZL201711425070.1. 2023.11.17.

    11. 周倩, 倪凯, 晁银银, 白本锋, 汪伟奇, 李星辉, 王晓浩. 一种微偏振片模板制作方法: ZL201910798261.5. 2023.11.17.

    12. 李星辉, 李一鸣, 王晓浩. 一种高精度套刻测量量值溯源方法及散射仪: ZL202111558740.3. 2023.11.07.

    13. 李星辉, 刘培源, 白蛟, 王晓浩. 菲涅尔光栅微透镜阵列、光谱仪及光谱共焦面型测量系统: ZL202111078906.1. 2023.10.17.

    14. 李星辉, 余康宁, 王晓浩. 一种六维力传感器: ZL202111172303.8. 2023.10.13.

    15. 薛高鹏, 李星辉, 王晓浩. 磁性悬臂梁传感器及其制作方法和测量装置、成像系统: ZL202111400243.0. 2023.08.29.

    16. 周倩, 倪凯, 肖翔, 李星辉, 王欢欢, 曾理江, 苏晓, 袁伟涵, 王晓浩. 一种判断光栅尺参考位置的装置及方法: ZL201810069996.X. 2023.8.22.

    17. 星辉, 周倩, 肖翔, 倪凯, 王欢欢, 冒新宇, 曾理江, 苏晓, 王晓浩. 一种判断光栅尺参考点绝对位置的装置及方法: ZL201810069463.1. 2023.08.11.

    18. 李星辉, 汪盛通. 一种绝对式六自由度光栅编码器: ZL202210155113.3. 2023.07.28.

    19. 薛高鹏, 李星辉, 王晓浩. 一种带硅基压阻式传感器的MEMS器件: ZL202110380700.8. 2023.07.18.

    20. 李星辉, 韩民. 一种获取折叠相位的方法、三维重建的方法及系统: ZL202210085619.1. 2023.06.02.

    21. 李星辉, 倪凯, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓, 王晓浩. 一种光栅衍射光偏转棱镜: ZL201611217716.2. 2023.01.24.

    22. 李星辉, 陈瑞铭, 王晓浩, 周倩, 倪凯. 传感器、传感器标定方法设备、存储介质: ZL202010420953.9. 2023.01.10.

    23. 钱翔, 程致远, 朱凯雄, 李星辉, 朱拾东, 王晓浩. 一种磁瓦内部缺陷检测装置及检测方法: ZL202110461539.7. 2022.08.26.

    24. 薛高鹏, 李星辉, 王晓浩. 一种静电梳齿驱动式低串扰运动的面内二维定位平台: ZL202110082495.7. 2022.06.28.

    25. 李星辉, 余康宁, 周倩, 吴冠豪, 倪凯, 王晓浩. 检测系统、检测方法及光栅尺: ZL202010817814.X. 2022.06.21.

    26. 倪凯, 陈汉诚, 余浩洋, 周倩, 李星辉, 王晓浩. 双飞秒激光频率梳测距装置和方法: ZL202010265852.9. 2022.05.10.

    27. 倪凯, 李星辉, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓, 王晓浩. 一种多码道光栅尺: ZL201611217687.X. 2022.02.25.

    28. 倪凯, 余浩洋, 周倩, 李星辉, 王晓浩. 双光频梳系统及其偏频控制方法: ZL202010747324.7. 2022.02.01.

    29. 曾龙, 陈敏鹤, 李星辉, 罗博, 吴啸跃, 洪军, 徐一凡. 一种全方位汽车调姿平台: ZL201611249834.1. 2021.10.29.(2021年已转让)

    30. 李星辉, 施亚平, 周倩, 倪凯, 王晓浩. 一种绝对式光栅尺参考位置测量方法及系统: ZL201910654027.5. 2021.10.22.

    31. 钱翔, 纵帅, 李星辉, 周倩, 倪凯, 王晓浩. 一种轮转式多环境AOI检测装置和方法: ZL201910277133.6. 2021.09.24. (2022年已转让)

    32. 李星辉, 白蛟, 王晓浩. 光谱反射率检测方法、系统、设备及计算机可读存储介质: ZL202110286141.4. 2021.07.20.

    33. 钱翔, 彭博, 李星辉, 周倩, 倪凯, 王晓浩. 一种产品缺陷检测方法及装置: ZL201910285540.1. 2021.07.02. (2021年已转让)

    34. 白蛟, 李星辉, 王晓浩, 周倩, 倪凯. 一种基于短量程扫描的光谱共焦测距方法、装置及设备: ZL201910299741.7. 2021.03.19. (2022年已转让)

    35. 李星辉, 白蛟, 王晓浩, 周倩, 倪凯. 一种光谱共焦轴向距离检测方法、装置及设备: ZL201910299737.0. 2021.03.05. (2022年已转让)

    36. 倪凯, 马茹玉, 周倩, 李星辉. 一种角速度测量方法、测量系统及载体: ZL201910299404.8. 2020.12.22.

    37. 倪凯, 马茹玉, 周倩, 李星辉. 角速度测量方法、装置及应用系统: ZL201910299406.7. 2020.12.22.

    38. 冯峰, 李星辉, 周文萌, 刘彬彬, 黄俊龙, 冯平法. 一种快速测算表面粗糙度与测量尺度关系的方法: ZL201910569990.3. 2020.08.25.

    39. 倪凯, 马茹玉, 余浩洋, 周倩, 吴冠豪, 李星辉, 王晓浩. 一种角速度测量装置、方法及其载具: ZL201811175104.0. 2020.08.04.

    40. 李星辉, 肖翔, 倪凯, 周倩, 袁伟涵, 陆海鸥, 曾理江, 王晓浩. 一种大量程干涉式光栅尺及其测距方法: ZL201810764638.0. 2020.07.03.

    41. 李星辉, 肖翔, 周倩, 倪凯, 王培荣, 王晓浩. 一种光谱编码距离传感器系统: ZL201810791500.X. 2020.03.06. (2021年已转让)

    42. 李星辉, 朱培源, 钱翔, 冯峰, 赵骞, 王晓浩. 一种双线激光的三维轮廓扫描装置及方法: ZL201810443975.X. 2020.02.14. (2022年已转让)

    43. 王晓浩, 朱培源, 钱翔, 李星辉, 冯峰, 赵骞. 一种单线激光的三维轮廓扫描装置及方法: ZL201810443974.5. 2020.02.14.

    44. 李星辉, 倪凯, 王欢欢, 周倩, 王晓浩, 冒新宇, 曾理江, 肖翔. 絶対式の格子スケール. 日本发明专利, 特许第6641650号(特願2018-552216), 2020.01.08.

    45. 钱翔, 朱紫威, 王晓浩, 李星辉, 倪凯, 周倩. 一种图像插值方法及基于该方法的二维经验模态分解方法: ZL201710352884.0. 2019.12.20.(2021年已转让)

    46. 李星辉, 倪凯, 朱祥文, 周倩, 王晓浩, 胡海飞, 燕鹏. 一种全息光栅的制作装置: ZL201610840386.6. 2018.12.28. (2022年已转让)

    47. 李星辉, 周倩, 朱祥文, 倪凯, 王晓浩, 胡海飞, 燕鹏. 一种全息光栅阵列的制作装置: ZL201610839438.8. 2018.08.17. (2021年已转让)

    48. 周倩, 张锦超, 李星辉, 倪凯, 逄锦超, 胡海飞, 董昊, 王欢欢, 朱祥文, 王兰兰. 用于制作菲涅尔光栅的优化设计方法: ZL201510225311.2. 2018.07.20.

    49. 李星辉, 倪凯, 王欢欢, 周倩, 冒新宇, 曾理江, 肖翔. 绝对式光栅尺、其主光栅及其测量方法: ZL201610157166.3. 2018.04.20. (2021年已许可)

    50. 李星辉, 倪凯, 王欢欢, 周倩, 王晓浩, 冒新宇, 曾理江, 肖翔. 一种绝对式光栅尺: ZL201610234556.6. 2018.02.09.

    51. 王晓浩, 周倩, 胡海飞, 李星辉, 倪凯, 燕鹏, 张锦超, 逄锦超. 一种在光学元件上制作涂镀层的方法及光学元件: ZL201610232252.6. 2017.11.17.(2021年已转让)

    52. 周倩, 倪凯, 胡凯, 王立代, 王晓浩, 李星辉, 董昊, 王兰兰. 一种水下探测系统及水下探测方法: ZL201610235054.5. 2017.11.17.

    53. 清水裕樹, 高偉, 伊聡, 李星輝. 干渉リソグラフィにおける2次元パターンの一括露光手法. 日本发明专利, 特開2014-099529.【in Japanese】

     

    申请中

    1. 李星辉, 王浩, 陆姿羽, 钱翔, 王晓浩. 一种基于自监督学习的条纹结构光三维重建方法及装置: CN120339512A. 2025.07.18.

    2. 张旻, 曹承然, 李星辉. 一种基于仿生微结构的高密度触觉传感阵列及方法: CN120253019A. 2025.07.04.

    3. 李星辉, 王晓浩, 省艺博, 马瑞, 朱尧晖, 聂千皓. 一种微空间结构光三维重建系统及方法: CN202510912385.7. 2025.07.03.

    4. 李星辉, 陆天石, 王晓浩, 钱翔. 实现衍射效率渐变的波导光栅、制备方法和设备: CN120161553A. 2025.06.17.

    5. 郭建和, 王晓浩, 李星辉, 刘国昌, 杨敏. 一种多波束测深姿态误差自适应补偿方法: CN202510793388.3. 2025.06.13.

    6. 李星辉, 崔璨. 一种时空域信息融合的多自由度运动同步测量系统和方法: CN120101634A. 2025.06.06.

    7. 徐捷, 冯峰, 冯平法, 梁艺赢, 乐祺中, 李星辉. 超声直刃刀磨损测试设备与方法: CN119437970A. 2025.02.14.

    8. 李星辉, 钟子健. 一种全局高动态的曝光干涉场锁定装置和方法: CN119165736A. 2024.12.20.

    9. 余泉, 孙爽, 李星辉, 王晓浩. 一种电喷雾离子源和质谱仪: CN119153312A. 2024.12.17.

    10. 李星辉, 高翔. 一种平面拼接大面积光栅装置和方法: CN119126283A. 2024.12.13.

    11. 李星辉, 崔璨, 杨孟涵. 一种外差式六自由度测量光栅干涉仪及六自由度测量方法: CN119085478A. 2024.12.06.

    12. 李星辉, 马瑞. 杰汽车轮毂几何要素测量方法与系统: CN119043197A. 2024.11.29

    13. 李星辉, 赵鹏博, 崔璨. 一种改良栅外位移测量的光栅干涉仪及位移测量方法: CN118882474A. 2024.11.01.

    14. 李星辉, 汪盛通. 大范围绝对式可辨向宏微协同光栅位移编码器及定位方法: CN118274716A. 2024.07.02.

    15. 李星辉, 高旅业. 一种基于双光栅的空间分离式光栅干涉仪及位移测量方法: CN118242972A. 2024.06.25.

    16. 李星辉, 骆林斌, 曹非凡, 汪盛通. 一种绝对式四自由度位姿传感器: CN117870611A. 2024.04.12.

    17. 李星辉, 李一鸣. 一种基于深度学习的同步多投影单光栅三维重建方法: CN117664030A. 2024.03.08.

    18. 李星辉, 韩民. 一种基于MEMS延时插值的高分辨条纹投影方法: CN117557448A. 2024.02.13.

    19. 李星辉, 单硕楠, 陆天石, 邓富元, 王晓浩. 一种多层光栅及其自对准方法和加工方法: CN117270092A. 2023.12.22.

    20. 李星辉, 汪盛通, 骆林斌. 一种绝对式六自由度位姿传感器: CN116592771A. 2023.08.15.

    21. 李星辉, 黄光耀, 冯峰, 王晓浩. 一种齿轮轮廓测量系统与方法: CN116164693A. 2023.05.26.

    22. 钱翔, 王浩, 李星辉, 王晓浩. 一种交互式工业冷启动缺陷检测系统和方法: CN115953385A. 2023.04.11.

    23. 李星辉, 邓富元, 陆天石. 一种微偏振片阵列制作方法、掩模版、基板以及载物台: CN115903409A. 2023.04.04.

    24. 钱翔, 王俊钊, 李星辉, 王晓浩. 磁瓦几何尺寸检测方法及装置: CN115170640A. 2022.10.11.

    25. 李星辉, 李一鸣, 王晓浩. 一种多通道高精度套刻误差检测系统及方法: CN114578657A. 2022.06.03.

    26. 朱拾东, 叶星, 王晓浩, 钱翔, 李星辉. 一种心脏模型制作方法及其制作模具: CN112092409A. 2020.12.18.

    27. 周倩, 倪凯, 晁银银, 汪伟奇, 白本锋, 李星辉, 王晓浩. 一种金属偏振片及其制作方法: CN110568541A. 2019.12.13.

    28. 李星辉, 李建雄, 周倩, 倪凯, 王晓浩. 对称布置的激光位移传感器的光束对准装置及对准方法: CN109668512A. 2019.04.23.

    29. 李星辉, 吴豪, 王晓浩, 周倩, 倪凯. 一种内循环式颗粒物浓度检测装置: CN109596495A. 2019.04.09.

    30. 李星辉, 陈瑞铭, 倪凯, 白蛟, 王晓浩, 周倩. 一种激光成像测距方法及系统: CN109405749A. 2019.03.01.

    31. 李星辉, 吴豪. 一种颗粒物沉降质量测量装置及其沉降效率检测方法: CN109283105A. 2019.01.29.

    32. 余浩洋, 马茹玉, 倪凯, 吴冠豪, 周倩, 李星辉, 王晓浩. 一种分级控制的温控盒、控制方法及飞秒频率流: CN109002070A. 2018.12.14.


    其他成果

    #else

    Selected Publications

    Books

    国际级

    1. 2025.08,第十一届国际发明展览会·“一带一路”暨金砖国家技能发展与技术创新大赛银奖MEMS振镜式智能结构光扫描仪,第一完成人

    2. 2024.11,第二十六届中国国际高新技术成果交易会-优秀科研成果创新奖,光栅多轴测量技术,第一完成人

    3. 2024.09,2024年全球前2%顶尖科学家榜单(World's Top 2% Scientists 2024),个人

    4. 2024.04,第49届日内瓦国际发明银奖面向强遮挡场景的单帧完整点云重建方法和系统Single-Frame Complete Point Cloud Reconstruction against Strong Occlusion: Methodology, System and Demonstration第一完成人

    5. 2023.10,2023年全球前2%顶尖科学家榜单(World's Top 2% Scientists 2023),个人

    6. 2023.05,巴黎国际发明展银奖纳米/亚角秒分辨率绝对式六自由度光栅编码器Encodeur de réseau absolu 6DOF avec résolution nanomètre / sous seconde d’arc 第一完成人

    7. 2023.04,第48届日内瓦国际发明展银奖,一种绝对式二自由度光栅编码器An absolute two-DOF grating encoder,第一完成人

    8. 2022.09,第八届纳米制造国际会议最佳论文奖,基于微透镜光栅的彩色共聚焦微型光谱仪阵列的测试Test of a novel microlens grating based miniature spectrometers array for chromatic confocal technology

    9. 2022.04,2021年光学仪器和技术国际会议最佳学生论文奖,用于光刻机超精密定位的外差三自由度光栅干涉仪Heterodyne three-degree-of-freedom grating interferometer for ultra-precision positioning of lithography machine

    10. 2022.01,国际期刊Nanomanufacturing and Metrology (NMME)突出贡献奖

    11. 2021.04,16届IEEE微纳工程和分子系统国际会议最佳论文奖,芯片级微组装梳齿驱动式大位移低串扰的XYZ微动台Chip-level-microassembly comb-drive XYZ-microstage with large displacements and low crosswalk

    12. 2016.12,国际出版集团Elsevier高被引论文作者A six-degree-of-freedom surface encoder for precision positioning of a planar motion stage(2013年发表在Precison Engineering)

     

    国家级

    1. 2024.12,第二十八届全国发明展览会·“一带一路”暨金砖国家技能发展与技术创新大赛金奖,光栅多轴测量技术,第一完成人

    2. 2024.12,发明创业奖项目奖三等奖,光栅多轴测量技术,第一完成人

     

    省市级

    1. 2022.11,广东省研究生学术论坛最佳口头报告奖,利用像素细化三维重建3D reconstruction using pixel refinement

    2. 2022.09,2022年粤港澳大湾区高价值专利培育布局大赛战略性新兴产业集群百强项目,先进光栅干涉测量技术,第一完成人

    3. 2018.01,深圳市高层次专业人才后备级人才

    4. 2016.02,深圳市海外高层次人才“孔雀计划”C类人才

     

    校级

    1. 2024.12,清华大学第40次教书育人研讨会暨清华大学第十一届青年教师教学大赛工科组三等奖,个人

    2. 2024.08,2023年度清华大学年度教学优秀奖,个人

    3. 2024.06,清华大学优秀硕士学位论文指导老师,个人

    4. 2024.05,2023年度清华大学深圳国际研究生院最佳产学研个人贡献奖,个人

    5. 2021.06,2021年度清华大学优秀硕士学位论文指导老师奖

    6. 2021.07,清华大学深圳国际研究生院优秀共产党员

    7. 2020.07,2020年度清华大学疫情期间线上教学优秀教师优秀奖

    8. 2019.06,清华大学深圳国际研究生院优秀共产党员

    9. 2015.03,东北大学校长奖 Tohoku President’s Award,单独受奖

    10. 2012.12,日本精密工学会东北支部优秀演讲奖励奖,单独受奖

    11. 2011.03,西安交通大学优秀毕业生干部,单独受奖

    12. 2008.06,武汉大学优秀毕业生,单独受奖

    13. 2008.06,武汉大学优秀共产党员,单独受奖

    14. 2007.05,武汉大学第六届“自强杯”大学生课外学术科技作品竞赛优秀成果一等奖,单独受奖


    Patents

    Others

    1.  李星辉, 韩民. 一种获取折叠相位的方法、三维重建的方法及系统: ZL202210085619.1[P]. 2023-06-02.

    2.  李星辉, 倪凯, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓, 王晓浩. 一种光栅衍射光偏转棱镜: ZL201611217716.2[P]. 2023-01-24.

    3.  李星辉, 陈瑞铭, 王晓浩, 周倩, 倪凯. 传感器、传感器标定方法与设备、存储介质: ZL202010420953.9[P]. 2023-01-10.

    4.  薛高鹏, 李星辉, 王晓浩. 一种静电梳齿驱动式低串扰运动的面内二维定位平台: ZL202110082495.7[P]. 2022-06-28.

    5.  李星辉, 余康宁, 周倩, 吴冠豪, 倪凯, 王晓浩. 检测系统、检测方法及光栅尺: ZL202010817814.X[P]. 2022-06-21.

    6.  李星辉, 施亚平, 周倩, 倪凯, 王晓浩. 一种绝对式光栅尺参考位置测量方法及系统: ZL201910654027.5[P]. 2021-10-22.

    7.  李星辉, 余康宁, 周倩, 吴冠豪, 倪凯, 王晓浩. 检测系统及光栅尺: ZL202021708709.4[P]. 2021-03-19.

    8.  白蛟, 李星辉, 王晓浩,周倩,倪凯. 一种基于短量程扫描的光谱共焦测距方法、装置及设备: ZL201910299741.7[P]. 2021-03-19.

    9.  李星辉, 白蛟, 王晓浩,周倩,倪凯. 一种光谱共焦轴向距离测量方法、装置及设备: ZL201910299737.0[P]. 2021-03-05.

    10.  李星辉, 肖翔, 倪凯, 周倩, 袁伟涵, 陆海鸥, 曾理江, 王晓浩. 一种大量程干涉式光栅尺及其测距方法: ZL201810764638.0[P]. 2020-07-03.

    11.  李星辉, 肖翔, 周倩, 倪凯, 王培荣, 王晓浩. 一种光谱编码距离传感器系统: ZL201810791500.X[P]. 2020-03-06.

    12.  李星辉, 朱培源, 钱翔, 冯峰, 赵骞, 王晓浩. 一种双线激光的三维轮廓扫描装置及方法: ZL201810443975.X[P]. 2020-02-14.

    13.  李星辉, 倪凯, 王欢欢, 周倩, 王晓浩, 冒新宇, 曾理江, 肖翔. 絶対式の格子スケール. 日本发明专利, 特许第6641650号(特願2018-552216, 2020-01-08.

    14.  李星辉, 吴豪, 王晓浩, 周倩, 倪凯. 一种基于压电测量的晶体清洁装置: ZL201821635777.5[P]. 2019-08-20.

    15.  李星辉, 吴豪. 一种颗粒物沉降质量测量装置: ZL201821632085.5[P]. 2019-08-20.

    16.  李星辉, 李建雄, 周倩, 倪凯, 王晓浩. 对称布置的激光位移传感器的光束对准装置: ZL201822178936.X[P]. 2019-08-20.

    17.  李星辉, 陈瑞铭, 倪凯, 白蛟, 王晓浩, 周倩. 一种激光成像测距系统: ZL201821910659.0[P]. 2019-07-23.

    18.  冯峰, 李星辉, 周文萌, 刘彬彬, 黄俊龙, 冯平法. 一种快速测算表面粗糙度与测量尺度关系的方法: ZL201910569990.3[P]. 2019-06-27.

    19.  李星辉, 陆海鸥, 周倩, 王晓浩, 袁伟涵, 倪凯, 吴冠豪. 一种光栅尺拼接姿态检测系统与光栅尺拼接系统: ZL201821493743.7[P]. 2019-04-23.

    20.  余浩洋, 马茹玉, 倪凯, 吴冠豪, 周倩, 李星辉, 王晓浩. 一种双光频梳测厚光路结构及系统: ZL201821500142.4[P]. 2019-04-23.

    21.  余浩洋, 马茹玉, 倪凯, 吴冠豪, 周倩, 李星辉, 王晓浩. 一种分级控制的温控盒及飞秒频率梳: ZL201821492303.X[P]. 2019-04-23.

    22.  李星辉, 倪凯, 朱祥文, 周倩, 王晓浩, 胡海飞, 燕鹏. 一种全息光栅的制作装置: ZL201610840386.6[P]. 2018-12-28.

    23.  李星辉, 华振, 王晓浩, 倪凯, 钟伦超, 周倩. 一种多层膜在线测厚系统: ZL201820523594.8[P]. 2018-11-23.

    24. 李星辉, 周倩, 朱祥文, 倪凯, 王晓浩, 胡海飞, 燕鹏. 一种全息光栅阵列的制作装置: ZL201610839438.8[P]. 2018-08-17.

    25. 李星辉, 倪凯, 王欢欢, 周倩, 冒新宇, 曾理江, 肖翔. 绝对式光栅尺、其主光栅及测量方法: ZL201610157166.3[P]. 2018-04-20.

    26. 李星辉, 倪凯, 王欢欢, 周倩, 王晓浩, 冒新宇, 曾理江, 肖翔. 一种绝对式光栅尺: ZL201610234556.6[P]. 2018-02-09.

    27. 李星辉, 倪凯, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓, 王晓浩. 一种光栅衍射光偏转棱镜: ZL201621436678.5[P]. 2017-08-22.

    28. 倪凯, 李星辉, 肖翔, 周倩, 王欢欢, 曾理江, 袁伟涵, 苏晓. 一种多码道光栅尺及测量设备: ZL201621437176.4[P]. 2017-07-07.

    29. 周倩, 倪凯, 胡凯, 王立代, 王晓浩, 李星辉, 董昊, 王兰兰. 一种水下探测系统: ZL201620318157.3[P]. 2016-12-07.

    30. 王晓浩, 周倩, 胡海飞, 李星辉, 倪凯, 燕鹏, 张锦超, 逄锦超. 一种具有涂镀层的光学元件: ZL201620311316.7[P]. 2016-09-14.

    31. 清水裕樹, 高偉, 伊聡, 李星輝. 干渉リソグラフィにおける2次元パターンの一括露光手法. 日本发明专利, 特開2014-099529

    32. 李星辉, 邓富元, 李一鸣, 单硕楠, 王晓浩. 一种精准对焦的套刻误差测量系统及方法: CN115390369A[P]. 2022-11-25.

    33. 李星辉, 单硕楠, 李一鸣, 邓富元, 王晓浩. 一种高分辨率的套刻误差测量装置及方法: CN115390368A[P]. 2022-11-25.

    34. 李星辉, 李一鸣, 王晓浩. 一种多通道高精度套刻误差检测系统及方法: CN114578657A[P]. 2022-06-03.

    35. 李星辉, 薛高鹏, 陶一豪. 一种编码结构光投影方法及其系统: CN114459381A[P]. 2022-05-10.

    36. 李星辉, 汪盛通. 一种绝对式六自由度光栅编码器: CN114459516A[P]. 2022-05-10.

    37. 李星辉, 李一鸣, 王晓浩. 一种高精度套刻测量量值溯源方法及散射仪: CN114279577A[P]. 2022-04-05.

    38. 李星辉, 刘培源, 白蛟, 王晓浩. 菲涅尔光栅微透镜阵列、光谱仪及光谱共焦面型测量系统: CN113834439A[P]. 2021-12-24.

    39. 薛高鹏, 李星辉, 王晓浩. 一种带硅基压阻式传感器的MEMS器件: CN113184799A[P]. 2021-07-30.

    40. 李星辉, 陆海鸥, 周倩, 王晓浩, 袁伟涵, 倪凯, 吴冠豪. 检测系统、拼接系统、检测方法、拼接方法与拼接光栅尺: CN109163659A[P]. 2019-01-08.

    41. 周倩, 倪凯, 肖翔, 李星辉, 王欢欢, 曾理江, 苏晓, 袁伟涵, 王晓浩. 一种判断光栅尺参考位置的装置及方法: CN108592786A[P]. 2018-09-28.

    42. 朱拾东, 罗琳, 王晓浩, 李星辉, 倪凯, 周倩. 一种主动脉外反搏心室衰竭辅助装置: CN108175882A[P]. 2018-06-19.

    43. 李星辉, 周倩, 肖翔, 倪凯, 王欢欢, 冒新宇, 曾理江, 苏晓, 王晓浩. 一种判断光栅尺参考点绝对位置的装置及方法: CN108151658A[P]. 2018-06-12.



    软件著作

    1. 李星辉, 韩耀东. 基于FPGA的光栅尺位移实时结算系统设计: 2020SR0286738.

    2. 李星辉,王培荣. 基于RGBD相机的定位导航系统算法: 2020R11L304726.




    #end

  • 荣誉奖项

    国际级

    1. 2025.08,第十一届国际发明展览会·“一带一路”暨金砖国家技能发展与技术创新大赛银奖MEMS振镜式智能结构光扫描仪,第一完成人

    2. 2024.11,第二十六届中国国际高新技术成果交易会-优秀科研成果创新奖,光栅多轴测量技术,第一完成人

    3. 2024.09,2024年全球前2%顶尖科学家榜单(World's Top 2% Scientists 2024),个人

    4. 2024.04,第49届日内瓦国际发明银奖面向强遮挡场景的单帧完整点云重建方法和系统Single-Frame Complete Point Cloud Reconstruction against Strong Occlusion: Methodology, System and Demonstration第一完成人

    5. 2023.10,2023年全球前2%顶尖科学家榜单(World's Top 2% Scientists 2023),个人

    6. 2023.05,巴黎国际发明展银奖纳米/亚角秒分辨率绝对式六自由度光栅编码器Encodeur de réseau absolu 6DOF avec résolution nanomètre / sous seconde d’arc 第一完成人

    7. 2023.04,第48届日内瓦国际发明展银奖,一种绝对式二自由度光栅编码器An absolute two-DOF grating encoder,第一完成人

    8. 2022.09,第八届纳米制造国际会议最佳论文奖,基于微透镜光栅的彩色共聚焦微型光谱仪阵列的测试Test of a novel microlens grating based miniature spectrometers array for chromatic confocal technology

    9. 2022.04,2021年光学仪器和技术国际会议最佳学生论文奖,用于光刻机超精密定位的外差三自由度光栅干涉仪Heterodyne three-degree-of-freedom grating interferometer for ultra-precision positioning of lithography machine

    10. 2022.01,国际期刊Nanomanufacturing and Metrology (NMME)突出贡献奖

    11. 2021.04,16届IEEE微纳工程和分子系统国际会议最佳论文奖,芯片级微组装梳齿驱动式大位移低串扰的XYZ微动台Chip-level-microassembly comb-drive XYZ-microstage with large displacements and low crosswalk

    12. 2016.12,国际出版集团Elsevier高被引论文作者A six-degree-of-freedom surface encoder for precision positioning of a planar motion stage(2013年发表在Precison Engineering)

     

    国家级

    1. 2024.12,第二十八届全国发明展览会·“一带一路”暨金砖国家技能发展与技术创新大赛金奖,光栅多轴测量技术,第一完成人

    2. 2024.12,发明创业奖项目奖三等奖,光栅多轴测量技术,第一完成人

     

    省市级

    1. 2022.11,广东省研究生学术论坛最佳口头报告奖,利用像素细化三维重建3D reconstruction using pixel refinement

    2. 2022.09,2022年粤港澳大湾区高价值专利培育布局大赛战略性新兴产业集群百强项目,先进光栅干涉测量技术,第一完成人

    3. 2018.01,深圳市高层次专业人才后备级人才

    4. 2016.02,深圳市海外高层次人才“孔雀计划”C类人才

     

    校级

    1. 2024.12,清华大学第40次教书育人研讨会暨清华大学第十一届青年教师教学大赛工科组三等奖,个人

    2. 2024.08,2023年度清华大学年度教学优秀奖,个人

    3. 2024.06,清华大学优秀硕士学位论文指导老师,个人

    4. 2024.05,2023年度清华大学深圳国际研究生院最佳产学研个人贡献奖,个人

    5. 2021.06,2021年度清华大学优秀硕士学位论文指导老师奖

    6. 2021.07,清华大学深圳国际研究生院优秀共产党员

    7. 2020.07,2020年度清华大学疫情期间线上教学优秀教师优秀奖

    8. 2019.06,清华大学深圳国际研究生院优秀共产党员

    9. 2015.03,东北大学校长奖 Tohoku President’s Award,单独受奖

    10. 2012.12,日本精密工学会东北支部优秀演讲奖励奖,单独受奖

    11. 2011.03,西安交通大学优秀毕业生干部,单独受奖

    12. 2008.06,武汉大学优秀毕业生,单独受奖

    13. 2008.06,武汉大学优秀共产党员,单独受奖

    14. 2007.05,武汉大学第六届“自强杯”大学生课外学术科技作品竞赛优秀成果一等奖,单独受奖


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