秦宗

秦宗

副教授

qinzong@mail.sysu.edu.cn

秦宗,中山大学电子与信息工程学院副教授,博士生导师,青年教师辅导员;研究方向为光电显示系统,著有40余篇一作/通讯SCI论文,授权专利十余件,获SID China的2023年度杰出显示青年人才奖、杰出贡献奖,Journal of SID的Best Associate Editor,美国光学学会的Outstanding Reviewer,华为公司光产品线的优秀技术合作项目奖。
产学合作方面,秦宗与诸多消费电子头部企业建立产学项目;毕业研究生,除学术深造外,全部就职于消费电子头部企业。国际交流方面,秦宗活跃于SID、SID China、SPIE等国际学术组织,且长期致力于两岸三地学术交流;在SID、IDW、SPIE Photonics West等国际会议发表30余次邀请报告;以首要贡献者5次获得显示领域最重要国际会议SID Display Week的Distinguished (Student) Paper Award;中山大学期间所指导的学生境外(不含香港)发表口头报告20余次,获十余项杰出论文奖项。

招生专业:光学工程0803(学博,学硕)、电子科学与技术0809(学博,学硕)、电子信息0854(专博,专硕)

欢迎对显示与成像、光学系统、图像处理等有兴趣,具有光电及相关背景的同学加入,联系方式:qinzong@mail.sysu.edu.cn

学术兼职和社会服务

  • SID (国际信息显示学会):Display Systems技术分会Co-Chair、Seminar Chair、技术委员、两岸三地研究生论坛长期负责人
  • SID China:技术委员、ICDT'26 Program Co-Chair
  • SPIE Photonics West:技术委员
  • Associate Editor, Journal of SID
  • 技术顾问:消费电子大厂、汽车电子Tier 1、汽车主机厂

教育工作经历

  • 2004-2008:华中科技大学,光电+计算机,学士
  • 2008-2013:华中科技大学/武汉光电国家实验室,机械工程,博士(导师刘胜院士)
  • 2013-2015:台湾新竹交通大学,博士后(导师谢汉萍教授、黄乙白教授)
  • 2016-2019:台湾新竹交通大学,约聘助理研究员
  • 2020至今:中山大学,电子与信息工程学院,副教授

授课课程

  • 本科:物理光学、信号与系统、显示测量实验、摄影光学(公选)
  • 研究生:现代光学、显示技术、学术规范与论文写作

研究方向

省流版:《物理光学》+《应用光学》+《信号与系统》+《显示技术》

学术版:光学、算法、图像、视觉、器件共同驱动的人机光电信息交互

  • 显示光学、光机系统设计、多功能显示与成像系统
  • 光电图像处理与相关视觉感知问题
  • VR/AR/MR、3D显示、光场显示、车载抬头显示、场色序LCD、mini-LED背光、屏下传感、显示通信集成

科研项目

  • 企业合作项目:大尺寸场色序LCD(2026)、大尺寸场色序LCD(2024)、微尺寸场色序LCD(2025)、微尺寸场色序LCD(2022)、场色序LCD驱动(2025)、场色序LCD可行性预研(2023)
  • 企业合作项目:广视角光场头戴显示(2026)、三维VR头戴显示(2025)、光场3D显示实时渲染(2024)
  • 企业合作项目:手机屏下传感(2022)
  • 企业合作项目:车载抬头显示器(2021)
  • 国自然面上:集成多输入多输出可见光通信的场色序液晶显示器,项目负责人,2025-2028
  • 科技部重点研发:高效率发光器件,课题负责人,2022~2025
  • 科技部重点研发:光场3D显示,课题骨干,2022~2025
  • 校级教改项目:物理光学项目制课程,2026
  • 台湾地区青年基金:场色序mini-LED背光LCD,项目负责人,2018
  • 2016~2019在台期间,主持HTC(广视角波导AR头显)、E Ink(电子纸驱动算法),深度参与Google、台湾工研院、友达光电 (AUO)、中强光电、集创北方、中磊电子等产学项目

代表性科研成果

Selected Journal Papers

  • (Best of SID’26 Special Section) Xinni Xie#, Qimeng Wang#, Yi Liu, Bo-Ru Yang, and Zong Qin*, “Breaking the under-display camera’s dilemma between diffraction and pixel density using incoherent pupil synthesis,” Journal of the Society for Information Display (accepted, 2026).
  • Wen-Long Lu, Yang Yi, Zhi-Bin Fan, Zong Qin*, and Jian-Wen Dong*, “Expanded field of view light-field extended-reality displays with metalens array,” Light: Science & Applications (accepted, 2026).
  • Yi Liu, Haoteng Liu, Zhiqing Zhao, Qimeng Wang, Weiji Liang, Bo-Ru Yang, and Zong Qin*, “Large-aperture nonparaxial Alvarez lenses enabling varifocal augmented reality head-up displays with a wide field of view,” Optics and Lasers in Engineering 201, 109638 (2026).
  • Yi Liu, Jie Tang, Qimeng Wang, Mingjing Wang, Xinni Xie, Zhiqing Zhao, Bo-Ru Yang, and Zong Qin*, “Full prescription corrected near-eye displays using two-dimensionally displaced Alvarez lenses,” Optics Letters 50, 7127 (2025).
  • Qimeng Wang, Yi Liu, Guowei Zou, Zihao Liang, Haoteng Liu, Bo-Ru Yang, and Zong Qin*, “Modeling light propagation for under-display sensing in a smartphone,” Optics Express 33, 30847 (2025).
  • Zhiqing Zhao, Yi Liu, Zihao Liang, Bo-Ru Yang, and Zong Qin*, “Multi-input and multi-objective design for a mini-LED LCD integrated with MIMO visible light communication,” Optics Express 33, 17842 (2025).
  • Yifan Ding#, Yuqing Qiu#, Qimeng Wang, Yunfan Cheng, Yi Liu, Bo-Ru Yang, and Zong Qin*, “Exploiting incoherent synthetic apertures in integral imaging for optical super-resolution,” Optics Letters 49, 5679 (2024).
  • Zhiqing Zhao, Yuqing Qiu, Guowei Zou, Yi Liu, Bo-Ru Yang, and Zong Qin*, “High-capacity MIMO visible light communication integrated into mini-LED LCDs,” Optics Express 32, 14876 (2024).
  • (Best of SID’24 Special Section) Yi Liu, Yuqing Qiu, Jiaqi Dong, Bo-Ru Yang, and Zong Qin*, “A varifocal augmented reality head-up display using Alvarez freeform lenses,” Journal of the Society for Information Display 32, 226 (2024).
  • Zhi-Bin Fan#, Yun-Fan Cheng#, Ze-Ming Chen#, Xia Liu, Wen-Long Lu, Shi-Hao Li, Shao-Ji Jiang, Zong Qin*, and Jian-Wen Dong*, “Integral imaging near-eye 3D display using a nanoimprint metalens array,” eLight 4, 3 (2024).
  • Wenchao Yang#, Yunfan Cheng#, Guowei Zou, Bo-Ru Yang, and Zong Qin*, “Enhancing the spatial resolution of light-field displays without losing angular resolution by a computational subpixel realignment,” Optics Letters 49, 1 (2024).
  • Qitian Fan#, Qingyun Luo#, Zhiqing Zhao, Guowei Zou, Ziyi Wu, Zheng Zeng, Zong Qin*, Shaozhi Deng, and Bo-Ru Yang*, “Full-color electrophoretic display with high halftone image quality, reduced power, and deep-learning-enabled fast implementation,” Applied Optics 63, 8340 (2024).
  • Zeyu Wang, Guowei Zou, Yutong Li, Changwen Ma, Zhou Zhang, Guowei Zha, Yan Shen, Bo-Ru Yang, and Zong Qin*, “Two-field sequential color liquid crystal displays with deep learning-enabled real-time driving,” Optics Letters 48, 5779 (2023).
  • Yi Liu, Jiaqi Dong, Yuqing Qiu, Bo-Ru Yang, and Zong Qin*, “Compact dual-focal augmented reality head-up display using a single picture generation unit with polarization multiplexing,” Optics Express 31, 35922 (2023).
  • Zong Qin, Yunfan Cheng, Jiaqi Dong, Yuqing Qiu, and Bo-Ru Yang*, “Real-time computer-generated integral imaging light field displays: Revisiting the point retracing rendering method from a signal processing perspective,” Optics Express 31, 35835 (2023).
  • Ziyi Wu#, Yifan Gu#, Junwei Chen, Zhiguang Qiu, Yunfan Cheng, Hao Lu, Yuyang Zhu, Yida Wang, Yu-Sheng Lin, Xuchun Gui, Shaozhi Deng, Zong Qin*, and Bo-Ru Yang*, “A multi-objective design architecture for versatile stretchable touchscreen displays,” IEEE Sensors Journal 23, 21956 (2023).
  • Zeyu Wang, Guowei Zou, Yan Shen*, Bo-Ru Yang, and Zong Qin*, “Deep learning-based real-time driving for 3-field sequential color displays with low color breakup and high fidelity,” Optics Express 31, 17999 (2023).
  • Jiaqi Dong, Bo-Ru Yang, and Zong Qin*, “Fast occlusion handling and shadow casting using texture mapping in analytical polygon-based computer-generated holography,” Optics Express 31, 14821 (2023).
  • Yuqing Qiu, Zhiqing Zhao, Jinglan Yang, Yunfan Cheng, Yi Liu, Bo-Ru Yang, and Zong Qin*, “Light field displays with computational vision correction for astigmatism and high-order aberrations with real-time implementation,” Optics Express 31, 6262 (2023).
  • Guowei Zou, Zeyu Wang, Yutong Liu, Juanli Li, Xingyun Liu, Jiahui Liu, Bo-Ru Yang, and Zong Qin*, “Deep learning-enabled image content-adaptive field sequential color LCDs with mini-LED backlight,” Optics Express 30, 21044 (2022).
  • Zong Qin, Yuhan Zhang, and Bo-Ru Yang*, “Interaction between sampled rays’ defocusing and number on accommodative response in integral imaging near-eye light field displays,” Optics Express 29, 7342 (2021).
  • Jin-Xin Cao#, Zong Qin#, Peng Chen, Zheng Zeng, Wen-Jie Hu, Dian-Lu Hu, Xi-Du Wang, Xi Zeng, Yu Chen, and Bo-Ru Yang*, “A convolutional neural network for ghost image recognition and waveform design of electrophoretic displays,” IEEE Transactions on Consumer Electronics 66, 356 (2020).

 

Selected Invited Talks by PI

  • Benefits of multi-apertures in a light-field display, ICDT, Chongqing, China (2026).
  • Wavefront coding under synthetic apertures enabling depth of field extension for light field displays, SPIE Photonics West, San Francisco, US (2026).
  • Wavefront control using freeform optics in near-eye and vehicle XR displays, IDW, Hiroshima, Japan (2025).
  • Alvarez lenses for wavefront control in near-eye and vehicle XR displays, IMID, Busan, South Korea (2025).
  • (90-min Seminar) Coupling computations and optics to advance XR display, SID Display Week, San Jose, US (2025).
  • Vision-correcting near-eye display enabled by computational and freeform optics, ICDT, Xiamen, China (2025).
  • Real-time rendering super multiview display through a universal rendering engine, SPIE Photonics West, San Francisco, US (2025).
  • Multi-input and multi-objective optimized mini-LED backlight for integrated LCD and visible light communication, IDW, Sapporo, Japan (2024).
  • Mini-LED LCDs enabling high-capacity MIMO visible light communication, IMID, Jeju, South Korea (2024).
  • Field sequential color micro-LCD enabling high-resolution light field displays, ICDT, Hefei, China (2024).
  • High-resolution light field display based on a mini-LED field sequential color micro-LCD, SPIE Photonics West, San Francisco, US (2024).
  • Real-time computer-generated integral imaging display with computational vision correction, IDW, Niigata, Japan (2023).
  • 车载抬头显示的发展趋势与技术挑战, 华为光应用技术论坛, Dongguan, China (2023).
  • Beyond twofold bandwidth of integral imaging photography and display enabled by intrinsic incoherent synthetic apertures, Computational Imaging Conference, Sydney, Australia (2023).
  • Field sequential color mini-LED LCDs enabled by deep learning, ICDT, Nanjing, China (2023).
  • Real-time computer-generated integral imaging light field displays, ICDT, Fuzhou, China (2022).
  • Efficient pixel design and deep learning-based image retrieval for under-display cameras, ICDT, Beijing, China (2021).
  • Interaction between light algorithms and a 3D display system along with its visual perception, 华为战略技术论坛, Shenzhen, China (2021).
  • (90-min Seminar) Recent advances and perspectives of light-field displays, SID Display Week, Online, US (2021).
  • SID显示周技术回顾:XR技术、显示系统、应用视觉、车载显示等, SID显示新技术研讨会 (2021~2025)

 

Selected Talks by Students

  • (Distinguished Student Paper Award) Xinni Xie, Breaking the under-display camera’s dilemma between diffraction and pixel density using incoherent pupil synthesis, SID Display Week, Los Angeles, US (2026).
  • Yi Liu, Eliminating sunlight backflow in AR-HUDs through a Faraday rotator under the étendue constraint, SID Display Week, Los Angeles, US (2026).
  • Qimeng Wang, Expanding the field of view of light-field displays by designing a telecentric pancake lens,” SID Display Week, Los Angeles, US (2026).
  • Mingjing Wang, Full depth-of-field light-field displays by exploiting a new degree of freedom: Synthetic-aperture wavefront coding, SID Display Week, Los Angeles, US (2026).
  • Feiyi Wu, Field-sequential color LCD TV with simultaneously optimized color breakup, distortion, and flicker, SID Display Week, Los Angeles, US (2026).
  • (Distinguished Student Paper Award) Yi Liu, Eliminating sunlight backflow in AR-HUDs through a Faraday rotator under the étendue constraint, ICDT, Chongqing, China (2026).
  • (Distinguished Student Paper Award) Mingjing Wang, Synthetic-aperture wavefront coding enabling a full depth-of-field for light-field displays, ICDT, Chongqing, China (2026).
  • (Distinguished Student Paper Award) Xinni Xie, Breaking the under-display camera’s dilemma between diffraction and pixel density using incoherent pupil synthesis, ICDT, Chongqing, China (2026).
  • Qimeng Wang, Compact and Wide-FOV true-3D VR enabled by a light field display engine with a telecentric path, IDW, Hiroshima, Japan (2025).
  • Qimeng Wang, Wide-FOV and depth-variable Pancake VR enabled by a light field display engine, IMID, Busan, South Korea (2025).
  • Zhiqing Zhao, E-paper display with Li-Fi integrated on a 1D-dimming front-light unit, SID Display Week, San Jose, US (2025).
  • Qimeng Wang, Modeling light propagation in a smartphone’s under-display sensors, SID Display Week, San Jose, US (2025).
  • Yifan Ding, A sixfold-resolution light-field display using a field-sequential color LCD and optical super-resolution, SID Display Week, San Jose, US (2025).
  • Yi Liu, Correcting arbitrary hybrid defocus and astigmatism for near-eye displays using two-dimensionally displaced Alvarez lenses, SID Display Week, San Jose, US (2025).
  • (Distinguished Student Paper Award) Yi Liu, Varifocal augmented reality head-up display using Alvarez freeform lenses,” SID Display Week, San Jose, US (2024).
  • Zhiqing Zhao, Mini-LED LCDs integrated with high-capacity MIMO visible light communication, SID Display Week, San Jose, US (2024).
  • (Distinguished Student Paper Award) Qimeng Wang, Simulation methods for under-display imaging and sensing: Near-field and far-field light propagation,” ICDT, Hefei, China (2024).
  • (Distinguished Student Paper Award) Zhiqing Zhao, Integrated display and communication: High-capacity MIMO visible light communication enabled by LCDs with mini-LED backlight, ICDT, Nanjing, China (2023).
  • (Distinguished Student Paper Award) Yuqing Qiu, Computational vision-correcting near-eye light field displays by manipulating vector sampling rays, ICDT, Fuzhou, China (2022).

 

Selected Patents

  • 秦宗, 赵芷青, 邹国伟, 邱钰清, 杨伯儒. 利用场色序型LCD进行可见光通信的方法、装置及系统. 中国发明专利 (2026授权).
  • 秦宗, 王奇梦, 潘镒, 李昊然. 一种具有白内障校正功能的集成成像光场显示方法与装置. 中国发明专利 (2025授权).
  • 秦宗, 丁逸凡, 王奇梦, 穆雨轩, 刘嘉晴, 谢芯妮. 一种光场成像装置和方法. 中国发明专利 (2025授权).
  • 秦宗, 刘一, 王奇梦, 穆雨轩, 刘嘉晴, 谢芯妮. 一种用于光学系统的像差补偿装置. 中国发明专利 (2025授权).
  • 秦宗, 王奇梦, 丁逸凡, 程云帆, 范智斌, 柳夏, 卢文龙, 董建文. 一种用于集成成像的景深扩展方法及系统. 中国发明专利 (2025授权).
  • 秦宗, 邹国伟, 王泽宇, 梁宏浩, 杨柏儒, 自适应刷新率的场色序显示驱动方法、装置及相关设备. 中国发明专利 (2025授权).
  • 秦宗, 万权震, 邱钰清, 戴睿佳, 杨文超, 杨柏儒, 一种集成成像光场显示的实时渲染方法及装置. 中国发明专利 (2024授权).
  • 秦宗, 邹国伟, 罗青云, 邱志光, 吴梓毅, 杨柏儒, 一种基于深度学习的色序型显示器控制方法及装置. 中国发明专利 (2023授权).
  • 秦宗, 杨文超, 程云帆, 邹国伟, 龚又又, 吴梓毅, 杨柏儒, 一种高分辨率光场图像显示方法、装置、设备和介质. 中国发明专利 (2022授权).
  • 秦宗, 吴飞逸, 潘镒, 王奇梦. 一种基于多主色光源的场色序前光驱动方法及系统. 中国发明专利 (2025公开).
  • 秦宗, 王明婧, 刘蘅萱, 丁逸凡, 王奇梦, 刘一, 杨伯儒. 一种长景深集成成像显示器、长景深集成成像方法及系统. 中国发明专利 (2025公开).
  • 秦宗, 谢芯妮, 王奇梦, 王明婧, 刘一. 一种基于非相干成像合成的屏下相机装置、成像方法、显示面板及电子设备. 中国发明专利 (2025公开).
  • 秦宗, 刘一, 谢芯妮, 王奇梦, 王明婧, 丁逸凡. 一种广视角波前传感装置. 中国发明专利 (2025公开).
  • 秦宗, 赵芷青, 韦一明, 管瀛, 王佳宇. 基于电子纸前光源的可见光通信系统、方法及传输装置. 中国发明专利 (2025公开).
  • 秦宗, 王金蕾, 刘一, 董家麒, 王泽宇. 抬头显示系统和车辆. 中国发明专利 (2025公开).
  • 秦宗, 刘一, 赵芷青, 王奇梦, 王泽宇, 杨伯儒. 基于量子点的多主色场色序显示装置. 中国发明专利 (2024公开).

 

指导本科生大创项目

  • 郭一冉, 邵泽昊: Pancake-光场混合架构超广视角VR显示, 2026.
  • 吕轶成, 张浩然, 易忻烨: 基于Alvarez透镜的变焦波导型抬头显示器, 2026.
  • 赵君, 林源泽, 王思恩: 集成于VR显示的眼球波前像差传感技术, 2026.
  • 刘子瑄, 林挺, 左国鹏: 集成于场色序LCD的多色MIMO可见光通信, 2026.
  • 邓淇丹, 李思霖, 余婧熙: 基于光瞳非相干分割的近眼显示景深扩展, 2026.
  • 李京洋, 孟繁一, 蔡承霖: 面向VR应用的极高分辨率场色序微型LCD驱动算法, 2026.
  • 梁俊豪, 黄达, 梁宇: 场色序显示中背光扩散的高精度实时计算, 2026.
  • 邵泽昊, 龙禹君, 鲁宇恒, 杨康生: 基于波前编码的近眼光场3D显示景深扩展(国家级), 2025.
  • 侯汉林, 黄颢. 基于Pancake架构的图像深度可调控VR头戴显示, 2025
  • 邱宇钿, 王梓豪, 洪佳: 大尺寸场色序LCD的低色分离驱动算法, 2025.
  • 陈湛治, 林昊阳, 董江山: 高敬涵. 光场3D显示的焦外图像重建方法研究, 2025.
  • 王润泽, 郑凯文: 面向车间可见光通信的像素化LED车灯, 2025
  • 穆雨轩, 刘嘉晴, 谢芯妮: 广视角波前传感器研究及其在显示光学中的应用(国家级), 2024.
  • 韦一明, 王佳宇, 管瀛: 集成于液晶显示器背光的可见光通信调制技术研究, 2024
  • 许墉, 李俊驰, 庄东逸, 温程烨: 光学相机通信中显示屏图像的预处理方法研究(省级), 2024.
  • 潘镒, 李昊然: 基于彩色子像素重排的高分辨率光场3D显示, 2024.
  • 翁捷锋: 基于mini-LED的LCD背光调光算法与光电性能研究, 2024.
  • 梁梓浩, 刘灏腾: OLED显示器屏下传感技术研究, 2023.
  • 刘松灵, 陈炤墉: 光场3D显示系统中图像信号处理技术研究, 2023.
  • 方琪欣, 宋圭芃, 郭席浩: 基于色序型LCD的多主色光源显示技术研究, 2023.
  • 梁泽辉, 林子健: 图像深度可调控的波导型增强现实显示器研究, 2022.
  • 裘凝远, 毛潇予: 柔性显示器件的多物理场耦合优化设计研究, 2022.
  • 刘佳慧, 刘星云, 刘昱彤, 李娟黎: 基于深度学习的mini-LED色序型液晶显示器驱动算法研究(省级), 2021.
  • 万权震, 邱钰清, 戴睿佳: 基于集成光场的可穿戴VR&AR显示技术研究(国家级), 2021.