CURRICULUM VITAE
Professor Qiong-Hua Wang Beihang University
Contact Information
School of Instrumentation and Optoelectronic Engineering, Beihang University Beijing, 100191, P. R. China |
Office:+86-10-62066854 Email: qionghua@buaa.edu.cn |
Education History
University of Electronic Science and Technology of China, Chengdu, China |
Degree |
Major |
Award Date |
Ph. D |
Optical engineering |
03/2001 |
M. S |
Opto-electronics |
04/1995 |
B. S |
Physic electronics |
06/1992 |
Work Experience
School of Instrumentation and Optoelectronic Engineering, Beihang University, Beijing, China
⟡ Full Professor, 05/2018-present
⟡ Vice Dean, 12/2018-10/2020
School of Electronics and Information Engineering, Sichuan University, Chengdu, China
⟡ Full Professor, 10/2004-05/2018
⟡ Director, Department of Opto-electronic Science and Technology, 4/2011-5/2018
Department of Optoelectronic Technology, University of Electronic Science and Technology of China (UESTC), Chengdu, China
⟡ Associate Professor, 06/2001-06/2004
⟡ Lecturer, 04/1995-06/2001
Philips Electronic Components (Shanghai) Co., Ltd, Shanghai, China
⟡ Senior Engineer, 06/2004-10/2004
School of Optics/CREOL, University of Central Florida, Orlando, Florida, USA
⟡ Post-doctoral Research Scientist, 11/2001-01/2004
⟡ Host Professor: Prof. Shin-Tson Wu, Fellow of Optica, SID, IEEE and SPIE
Fields of Research Interests and Accomplishments
Dr. Wang’s research interests are in display and imaging sciences and technologies including Glasses-free 3D display, liquid crystal and adaptive imaging. Her representative technical accomplishments are listed below.
⟡ Glasses-free 3D Display
She invented several new naked 3D displays. One of them is based on a lenticular lens and an additional concentrating-light lenticular lens. The prototypes show a very low crosstalk, wide viewing angle and high efficiency, as shown in Fig. 1.
Fig. 1. 3D displays based on lenticular lens
She proposed and developed a tabletop integral imaging 3D display system with excellent image quality over a large longitudinal viewing angle and significantly suppressed aberration, as shown in Fig. 2.
Fig. 2. Tabletop integral imaging 3D display system
⟡ Liquid Crystal Technology
She proposed a transflective polymer-stabilized blue-phase liquid crystal display with alternate electrodes, and it exhibits high transmittance, low operating voltage, wide viewing angle, and well-matched voltage dependent transmittance and reflectance curves.
She developed a liquid crystal lens array. The lens array is composed of a top substrate, top plane ITO electrode, liquid crystal layer, bottom periodic strip ITO electrodes, and bottom substrate. The lens array has low operating voltage (5.4V) and fast response time (28ms). It can be applied in 2D/3D compatible display and other fields.
⟡ Adaptive Imaging
She developed the first continuous optical zoom microscope using liquid lenses with large aperture and hig h optical power. The microscope is applied in observing the life activities of cancer cells without moving mechanical parts, as shown in Fig. 3.
Fig. 3. Microscope with continuous optical zoom and images with different zoom ratio
⟡ Technical impacts
Dr. Wang holds 5 US patents and more than 150 Chinese patents. She won several awards and honors established by Chinese government. A famous Chinese magazine “Science and Technology Daily” reported her inventions.
Dr. Wang has also contributed to the fundamental science about 3D display such as the mechanism of visual comfort of glasses-free 3D display. She has published more than 300 journal papers and authored 3 books. Up to now (2022), her publications have accumulated over 3607 and 4991 citations from Web of Science and Google Scholar, respectively.
Teaching
Beihang University, Sichuan University, and University of Electronic Science and Technology of China
⟡ Taught courses such as Information Display Technology and Opto-electronic Detection Technology to graduate and undergraduate students.
⟡ Advised the thesis and dissertation research of 75 masters-level and 31 doctoral-level graduate students (till 2022).
⟡ Advised more than 10 postdoctoral associates/visiting professors.
Honors/Awards (selected)
⟡ First prize of Technology and Invention Award, Chinese Institute of Electronics, 2018.
⟡ Leading talent in scientific and technological innovation of Ten Thousand Talents Program, Central Organization Department, China, 2016.
⟡ Second prize of Technology and Invention Award, Ministry of Education, China, 2013.
⟡ Changjiang Scholar Distinguished Professor, Ministry of Education, China, 2012.
⟡ Principal Investigator of National Distinguished Youth Science Fund Project, National Natural Science Foundation of China, 2012.
⟡ New Century Excellent Talents, Ministry of Education, China, 2007.
⟡ Second prize of Science and Technology Development Award, Sichuan provincial government, China, 2008.
⟡ Chengdu Top 10 Outstanding Youths, Chengdu Municipal Government, 2008.
⟡ Top 10 Science and Technology Development Projects in National Universities, Ministry of Education, China, 1999.
⟡ First prize of Science and Technology Development Award, Ministry of Electronic Industry, China, 1996.
Grants and Contracts (selected, 2007-2022)
⟡ PI, “Common technology and architecture on 3D display,” National Key R&D Program of China under Contract No. 2021YFB2802300, 2022-2025
⟡ PI, “Key technology on holographic true 3D display”, National Natural Science Foundation of China under Grant No. 62020106010, 2021-2025.
⟡ PI, “2D/3D microscope having large field and continuous optical zoom,” National Natural Science Foundation of China under Grant No. 61927809, 2020-2024.
⟡ PI, “Table-top real-time true 3D display technology,” National Key R&D Program of China under Contract No. 2017YFB1002900, 2017-2021.
⟡ PI, “Anisotropic liquid crystal material and its application to 2D/3D display,” National Natural Science Foundation of China under Grant No. 61535007, 2016-2020.
⟡ PI, “Mechanism and key technology of blue-phase liquid crystal display,” National Natural Science Foundation of China under Grant No. 61320106015, 2014-2018.
⟡ PI, “New type of 3D display device,” National “863” Program of China under Grant No. 2012AA011901, 2012-2016.
⟡ PI, “Theory and technology of naked 3D display based on lenticular lens,” National Natural Science Foundation of China under Grant No. 61535007, 2011-2014.
Professional Society Activities (selected)
v Fellow, Society for Information Display (SID), 2018 (The 3rd in China)
v Associate Editor, Optics Express, 2015-2021.
v Subject Editor, Displays, 2021- present.
v Associate Editor, Journal of the Society for Information Display, 2011-present.
v Co-Editor, Advances in Display Technologies VIII, IX, X, XI Proc. of SPIE Vols. 10942, 10556, 11304, 2018-2022.
v Vice Director, Professional Committee for 3D Imaging and Display, China Society of Image and Graphics, 2009-present.
v Vice Director, Professional Committee for Liquid Crystal, China Physical Society, 2015-present.
v Conference Chair, the 2nd Symposium on Liquid Crystal Photonics, Chengdu, co-sponsored by OSA, 2012.
v Host, the 5th /11th International Conference on 3D Image, China Society of Image and Graphics, Chengdu/Beijing, 2011/2021.
v Conference Co-Chair and Committee Member, SPIE Photonics West OPTO Conference on Advances in Display Technologies, San Francisco, 2015-present.
v Asia Committee Member, SID Display Week, 2014-present.
v Liquid Crystal Committee Member, 8-22th IMID, Korea, 2008-2022.
v Reviewer for International Journals: Optics Express, Optics Letters, Applied Optics, Journal of the Optical Society of America B, Light: Science & Applications, Chinese Optics Letters, Optica, Journal of the Society for Information Display, Optics Communications, Optics and Lasers in Engineering, etc., 2003-present.
Books
1. Qiong-Hua Wang, Chao Liu, Di Wang, Lei Li, Liquid Photonic Device, Science Press (Beijing), 2021 (in Chinese).
2. Qiong-Hua Wang, 3D Display Technology and Device, Science Press (Beijing), 2011 (in Chinese).
3. Da-Hai Li, Yi-Ping Cao, Qi-Can Zhang, and Qiong-Hua Wang, Modern Engineering Optics, Science Press (Beijing), 2013 (in Chinese).
Journal Papers (>300, selected)
1. Di Wang, Nan-Nan Li, Zhao-Song Li, Chun Chen, Byoungho Lee, and Qiong-Hua Wang*, Color curved hologram calculation method based on angle multiplexing, Optics Express, 30(2), 3157-3171, 2022.
2. Yu-Qiang Guo, Fan Chu, Bing-Xiang Li, Yu-Xian Zhang, Tian-Zi Shen, Wei Duan, Chao Liu, Yu-Bao Sun*, and Qiong-Hua Wang*, Unidirectional collective transport of microspheres in nematic liquid crystal by electrically tunable reorientation, Journal of Molecular Liquids, 357, 119136, 2022.
3. Yu-Xian Zhang, Hiroyuki Yoshida*, Fan Chu, Yu-Qiang Guo, Zhou Yang, Masanori Ozaki and Qiong-Hua Wang*, Three-dimensional lattice deformation of blue phase liquid crystals under electrostriction, Soft Matter, 18, 3328–3334, 2022 (Front Cover).
4. Wei Duan, Ling-Ling Ma, Peng Chen, Wei Hu, Qiong-Hua Wang*, and Yan-Qing Lu*, Patterned optical anisotropic film for generation of non-diffracting vortex beams, Applied Physics Letters, 120(3), 031101, 2022.
5. Lei Li, Feng-Lin Kuang, Jin-Hui Wang, Yin Zhou, and Qiong-Hua Wang*, Zoom liquid lens employing a multifocal Fresnel zone plate, Optics Express, 29(2), 2135-2141, 2021.
6. Di Wang, Jin-Bo Xu, Rong-Ying Yuan, You-Ran Zhao, Chao Liu, and Qiong-Hua Wang*, High stability liquid lens with optical path modulation function, Optics Express, 29(17), 27104-27117, 2021.
7. Zhao Jiang, Di Wang, Yi Zheng, Chao Liu*, and Qiong-Hua Wang*, Continuous optical zoom microscopy imaging system based on liquid lens, Optics Express, 29(13), 20322-20335, 2021.
8. Fan Chu, Yu-Qiang Guo, Yu-Xian Zhang, Wei Duan, Han-Le Zhang, Li-Lan Tian, Lei Li, and Qiong-Hua Wang*, Four-mode 2D/3D switchable display with a 1D/2D convertible liquid crystal lens array. Optics Express, 29(23), 37464-37475, 2021.
9. Rong-Ying Yuan, Xiao-Li Ma, Fan Chu, Guang-Xu Wang, Min-Yang He, Chao Liu*, and Qiong-Hua Wang*, Optofluidic lenticular lens array for 2D/3D switchable display, Optics Express, 29(23), 37418-37428, 2021.
10. Han-Le Zhang, Huan Deng, Hui Ren, Xin Yang, Yan Xing, Da-Hai Li, and Qiong-Hua Wang*, Method to eliminate pseudoscopic issue in integral imaging 3D display by using transmissive mirror device and light filter, Optics Letters, 44(24), 351, 2020.
11. Yi-Long Li, Di Wang, Nan-Nan Li, and Qiong-Hua Wang*, Fast hologram generation method based on the optimal segmentation of a sub-CGH, Optics Express, 28(21), 32185-32198, 2020.
12. Yan Xing, Yun-Peng Xia, Shuang Li, Hui Ren, and Qiong-Hua Wang*, Annular sector elemental image array generation method for tabletop integral imaging 3D display with smooth motion parallax, Optics Express, 28(23), 34706-34716,2020.
13. Chao Liu, Di Wang, Qiong-Hua Wang*, and Yan Xing, Multifunctional optofluidic lens with beam steering, Optics Express, 28(5), 7734, 2020.
14. Nan-Nan Li, Di Wang, Yi-Long Li, and Qiong-Hua Wang*, Method of curved composite hologram generation with suppressed speckle noise, Optics Express, 28(23), 34378-34389, 2020.
15. Di Wang, Chao Liu, Chuan Shen, Yan Xing, and Qiong-Hua Wang*, Holographic capture and projection system of real object based on tunable zoom lens, PhotoniX,1, 6, 2020.
16. Zhi-Bin Fan, Hao-Yang Qiu, Han-Le Zhang, Xiao-Ning Pang, Li-Dan Zhou, Lin Liu, Hui Ren, Qiong-Hua Wang*, and Jian-Wen Dong*, A broadband achromatic metalens array for integral imaging in the visible, Light: Science & Applications, 8(67), 2019.
17. Jin-Hui Wang, Wei-pu Tang, Lin-yang Li, Liang Xiao, Xin Zhou, and Qiong-Hua Wang*, Hybrid driving variable-focus optofluidic lens, Optics Express, 27(24), 35203, 2019.
18. Chao Liu, Di Wang, and Qiong-Hua Wang*, Holographic display system with adjustable viewing angle based on multi-focus optofluidic lens, Optics Express, 27(13), 18210, 2019.
19. Chao Liu, Di Wang, Qiong-Hua Wang*, and Jiancheng Fang*, Electrowetting-actuated multifunctional optofluidic lens to improve the quality of computer-generated holography, Optics Express, 27(9), 12963, 2019.
20. Di Wang, Chao Liu, and Qiong-Hua Wang*, Holographic zoom micro-projection system based on three spatial light modulators, Optics Express, 27(6), 8048, 2019.
21. Han-Le Zhang, Huan Deng, Jiao-Jiao Li, Min-Yang He, Da-Hai Li*, and Qiong-Hua Wang*, Integral imaging-based 2D/3D convertible display system by using holographic optical element and polymer dispersed liquid crystal, Optics Letters, 44(2), 387, 2019.
22. Di Wang, Chao Liu, Fan Chu, and Qiong-Hua Wang*,Full color holographic display system based on intensity matching of reconstructed image, Optics Express, 27(12), 16599, 2019.
23. Xin Yang, Ping Song, HongBo Zhang, and Qiong-Hua Wang*, Full-color computer-generated holographic near-eye display based on white light illumination, Optics Express, 27(26), 38236, 2019.
24. Qiong-Hua Wang, Liang Xiao, Chao Liu, and Lei Li*, Optofluidic variable optical path modulator, Scientific Reports, 9, 7082, 2019.
25. Lei Li, Jin-Hui Wang, Qiong-Hua Wang*, and Shin-Tson Wu*, Displaceable and focus-tunable electrowetting optofluidic lens, Optics Express, 26(20), 25839, 2018.
26. Xiao-Wei Li, Min Zhao, Yan Xing, Han-Le Zhang, Lei Li, Seok-Tae Kim, Xin Zhou, and Qiong-Hua Wang*, Designing optical 3D images encryption and reconstruction using monospectral synthetic aperture integral imaging, Optics Express, 26(9),11084, 2018
27. Xiao-Wei Li, Min Zhao, Xin Zhou, and Qiong-Hua Wang*, Ownership protection of holograms using quick-response encoded plenoptic watermark, Optics Express, 26(23), 30492, 2018.
28. Lei Li, Rong-Ying Yuan, Jin-Hui Wang, and Qiong-Hua Wang*, Electrically optofluidic zoom system with a large zoom range and high-resolution image, Optics Express, 25(19), 22280, 2017.
29. Xiaowei Li, Min Zhao, Yan Xing, Lei Li, Seok-Tae Kim, Xin Zhou, and Qiong-Hua Wang*, Optical encryption via monospectral integral imaging, Optics Express, 25(25), 31516, 2017.
30. Xiao-Wei Li, Seok-Tae Kim, and Qiong-Hua Wang*, Copyright protection for elemental image array by hypercomplex Fourier transform and an adaptive texturized holographic algorithm, Optics Express, 25(15),17076, 2017.
31. Qiong-Hua Wang, Chao-Chao Ji, Lei Li, and Huan Deng*, A dual-view integral imaging 3D display by using orthogonal polarizer array and polarization switcher, Optics Express, 24(1), 9, 2016.
32. Lei Li, Di Wang, Chao Liu, and Qiong-Hua Wang*, Zoom microscope objective using electrowetting lenses, Optics Express, 24(3), 2931, 2016.
33. Di Wang, Chao Liu, De-Hong Wang, Xin Zhou, and Qiong-Hua Wang*, Adjustable liquid aperture to eliminate undesirable light in holographic projection, Optics Express, 24(3), 2016.
34. Zhao-Long Xiong, Qiong-Hua Wang*, Yan Xing, Huan Deng, and Da-Hai Li, An active integral imaging system based on multiple structured light method, Optics Express, 23(21), 27095, 2015.
35. Lei Li, Chao Liu, Hongwen Ren, Huan Deng, and Qiong-Hua Wang*, Annular folded electrowetting liquid lens, Optics Letters , 40(9), 1968, 2015
36. Zhao-Long Xiong, Qiong-Hua Wang*, Shu-Li Li, Huan Deng, and Chao-Chao Ji, Partial-overlapped viewing zone based integral imaging system with super wide viewing angle, Optics Express, 22(19), 22268, 2014.
37. Chao-Chao Ji, Cheng-Gao Luo, Huan Deng, Da-Hai Li, and Qiong-Hua Wang*, Tilted elemental image array generation method for moiré-reduced computer generated integral imaging display, Optics Express, 21(17), 19816, 2013.
38. Cheng-Gao Luo, Xiao, Manuel Martínez-Corral, Chih-Wei Chen, Bahram Javidi*, and Qiong-Hua Wang*, Analysis of the depth of field of integral imaging displays based on wave optics”, Optics Express, 21(25), 31263, 2013.
39. Lei Li, Chao Liu, and Qiong-Hua Wang*, Optical switch based on tunable aperture, Optics Letters, 37(16), 3306, 2012.
40. Wu-Xiang Zhao, Qiong-Hua Wang*, Ai-Hong Wang, and Da-Hai Li, An autostereoscopic display based on two-layer lenticular lens, Optics Letters, 35(24), 4127, 2010.
41. Yu-Hong Tao, Qiong-Hua Wang*, Jun Gu, Wu-Xiang Zhao, and Da-Hai Li, An autostereoscopic three-dimensional projector based on two parallax barriers, Optics Letters, 34(20), 3220, 2009.
Patents (>150, selected)
1. Chao Liu, Qiong-Hua Wang g, Zhao Jiang, Yi Zheng, Di Wang, Continuous zoom stereoscopic microscope with adjustable stereoscopic angle, Chinese Patent, ZL202110456676.1.
2. Di Wang, Qiong-Hua Wang, Zhao-Song Li, Nan-Nan Li, Yi-Long Li, Chao Liu, Holographic 3D display system based on virtual array splicing of spatial light modulator,Chinese Patent ZL202110812111.2.
3. Qiong-Hua Wang, Hui Ren,Yan Xing, Shuang Li, Yun-Peng Xia, A 3D display device, Chinese Patent ZL202010215696.5.
4. Qiong-Hua Wang, Hui Ren, Yan Xing, A large-scale seamless stitching tabletop integral imaging 3D display device, Chinese Patent ZL202010391804.4.
5. Di Wang, Qiong-Hua Wang, Chao Liu, Chu Fan, Yi-Long Li, Holographic true 3D display system and method based on adjustable liquid crystal grating,Chinese Patent ZL202011479541.9.
6. Chao Liu, Qiong-Hua Wang, Di Wang, Guang-Xu Wang, Zhao Jiang, Liquid optical switch for adaptive switching of visible light and infrared light, Chinese Patent, ZL202010142298.5
7. Qiong-Hua Wang, Di Wang, Chao Liu, Holographic display system for speckle noise suppression based on beam shaping, Chinese Patent ZL201910299696.5.
8. Qiong-Hua Wang, Di Wang, Chao Liu, Speckle noise suppression method in holography based on effective utilization of spatial light modulator, Chinese Patent ZL201910246161.1.
9. Qiong-Hua Wang, Rui Li, Fan Chu, Dou Hu, A blue-phase liquid crystal lens array with nested square ring electrodes, Chinese Patent ZL201811112259.X.
10. Qiong-Hua Wang, Hui Ren, Ling Luo, Yan Xing, An interactive autostereoscopic display method for 3D real scene, Chinese Patent ZLZL201810078152.1.
11. Qiong-Hua Wang, Yan Xing, Ling Luo, Hui Ren, Huan Deng, A toed-in integral imaging pickup method based on calibration pattern with planar checkerboard, Chinese Patent ZL 201810170032.4.
12. Qiong-Hua Wang, Zhao-Long Xiong, Yan Xing, Elemental image array generation method based on depth data for integral imaging display, Chinese Patent ZL201610000695.2.
13. Qiong-Hua Wang, Han-Le Zhang, Huan Deng, Zhao-Long Xiong, Yan Xing, Dual-view integral imaging 3D display method based on multiplexed lens-array holographic optical element, Chinese Patent ZL 201611063539.7.
14. Qiong-Hua Wang, Chao-Chao Ji, Huan Deng, A dual-view integral imaging 3D display monitor based on liquid crystal cell and polarizer, Chinese Patent ZL201410537591.6.
15. Qiong-Hua Wang, Fei Wu, Huan Deng, A dual-view 3D display based on integral imaging, Chinese Patent ZL 201310258671.3.
16. Qiong-Hua Wang, Fei Wu, Huan Deng, A dual-view 3D display method based on integral imaging, Chinese Patent ZL201310258671.3.
17. Qiong-Hua Wang, Cheng-Gao Luo, Chao-Chao Ji, An integral imaging 3D display device with wide viewing angle and without crosstalk, Chinese Patent ZL201210379308.2.
18. Qiong-Hua Wang, Huan Deng, An elemental image array generation method in integral imaging based on a sparse camera array, Chinese Patent ZL201110258498.8.
19. Qiong-Hua Wang, Yu-Hong Tao, Autostereoscopic 3D display based on combined lenticular lens, Chinese Patent ZL200810045131.6.
20. Qiong-Hua Wang, Shin-Tson Wu, Qi Hong, Transflective liquid crystal display using separate transmissive and reflective liquid crystal cells and materials with single cell gap, U. S. Patent 7,855,768 B2, issued 2010.
21. Qiong-Hua Wang, Shin-Tson Wu, Qi Hong, Transflective liquid crystal display, U. S. Patent 7,286,198 B2, issued 2007.
22. Qiong-Hua Wang, Shin-Tson Wu,Qi Hong, Yung-Hsun Wu, Transflective liquid crystal display using separate transmissive and reflective liquid crystal cells and materials with single cell gap, U. S. Patent 7,359,015 B1, issued 2008.
23. Shin-Tson Wu, Qiong-Hua Wang, Thomas X. Wu, Xinyu Zhu, Zhibing Ge, Transflective LCD using multilayer dielectric film transflector, U. S. Patent 7,688,409 B2, issued 2010.
Invited Talks (>60, Selected)
1. Method of color amplitude-only hologram generation for speckle noise suppression, SID 2022 Display Week, San Jose, May, 2022.
2. Fast hologram generation method based on optimal segmentation of sub-computer-generated hologram, SPIE Photonics West, San Francisco, Feb. 2022.
3. High-quality integral imaging 3D displays, 2021 OSA Imaging and Applied Optics Congress, Vancouver (online), July, 2021.
4. High-resolution integral imaging 3D display system, SID, 2021 Display Week Virtual Conference, May, 2021.
5. Integral imaging tabletop 3D display system, SPIE Photonics West, San Francisco (online), Feb. 2021.
6. Tabletop 3D displays based on integral imaging, SID China Spring Online Symposium, May, 2020.
7. See-through integral imaging 2D/3D convertible display system, SPIE Photonics West, San Francisco, Feb. 2020.
8. Liquid refractive index measurement system by adaptive lens, International Conference on Optical Instruments and Technology, SPIE, Beijing, China, Nov. 2019.
9. Augmented reality 3D display system based on holographic optical element, SPIE Photonics West, San Francisco, Feb. 2019.
10. Real-time integral imaging pickup system using camera array, SPIE Photonics West, San Francisco, Jan. 2018.
11. Tabletop 3D displays with mixture of virtuality and reality based on integral imaging, the 18th International Meeting on Information Display, SID, Busan, Aug. 2018.
12. Augmented reality 3D display based on integral imaging, SPIE Photonics West, San Francisco, Feb. 2017.
13. AR integral imaging 3D displays based on holographic optical element, Conference on Three Dimensional Image Acquisition and Display Technology, OSA & SPIE, Jinhua, China, Oct. 2016.
14. Integral imaging 3D displays having high performance, the International Display Manufacturing Conference 2015, SID, Taibei, Aug. 2015.
15. Design of liquid crystal display and microlens array, Symposium on Liquid Crystal Photonics, SID, Shanghai, China, Apr. 2014.
16. Device design of blue-phase liquid crystal display, the 2nd Symposium on Liquid Crystal Photonics, OSA &SID, Chengdu, China, Apr. 2013.
17. Transflective blue-phase liquid crystal displays and 3D displays, the 1st Symposium on Liquid Crystal Photonics, OSA &SID, Guilin, China, Mar. 2012.
18. Pixel arrangement of autostereoscopic liquid crystal displays based on parallax barriers, the 22nd International Liquid Crystal Conference, KIDS & ILCS, Jeju Island, Korea, July. 2008.
19. Stereo viewing zone in autostereoscopic display based on parallax barrier, Asia Optical Fiber Communication & Optoelcetronic Exposition & Conference, Shanghai, Oct. 2007.
