Publication

Chapters in Scholarly Books and Monographs

1. Hong Hua and Nikhil Balhram, “Light field displays,” in Handbook of Visual Display technology, August 2023.
2. J. Lee, I. Cheng, Hong Hua, S.T. Wu, “Introduction to flat panel displays, 2^nd Edition,” Wiley, 2020.
3. Hong Hua, Leonard Brown, and Rui Zhang, “Head-mounted Projection Display Technology and Application,” in Handbook of Augmented Reality, Springer Science+Business Media, 2011.
4. J. P. Rolland and Hong Hua, “Head-mounted display systems,” in Encyclopedia of Optical Engineering (Editors: R. Barry Johnson and Ronald G. Driggers), New York, NY: Marcel Dekker, pp.1-13, 2005.
5. J. P. Rolland, F. Biocca, C. Gao, Hong Hua, and O. Harrysson. “Design and prototyping of a teleportal ultra-light weight large field of view head mounted display,” in Virtual Reality and Augmented Reality Applications in Manufacturing (Editors: Ong, S. K., and Nee, A. Y. C.), Publisher: Springer, pp.179-200,July 2004.

Referred Journal Articles

1. Yanzhao Lu, Xuan Wang, and Hong Hua, “Design and characterization of a varifocal camera system with an extended depth of field and focal range,” Optics Express, 31(21): 34871-882, 2023.
2. Pengyinjie Lyu and Hong Hua, “Design of a statically foveated display based on perceptual-driven approach,” Optics Express, 31(2): 2088-2101, 2023.
3. M. Xu and Hong Hua, “Performance evaluation of dual-layer architecture for high dynamic range head mounted displays,” Journal of Information Display, 1-16, 2023.
4. Hong Hua, “Recent developments in head-mounted light field displays,” Acta Optica Sinica, 15: 80-89, 2023.
5. B. Javidi, H. Hua, et al., “Focus issue introduction: 3D Image Acquisition and Display“: Technology, Perception and Application, Optics Express, 31(7): 11557-560, 2023.
6. J. Katz, Hong Hua, S. Lee, M. Nguyen, and A. Hamilton, “A dual-view multi-resolution laparoscope for safer and more efficient minimally invasive surgery,” Scientific Reports, 12(1): 18444, 2022.
7. X. Wang and H. Hua, “Time-multiplexed method for view density enhancement in integral imaging-based light field displays,” Optics Letters, 47(17): 4471-74, 2022.
8. E. Kwan and H. Hua, “Calibration of transverse ray and pupil aberrations for light field cameras,” Applied Optics, 61(24): 6974-84, 2022 (Editor’s choice).
9. J. Katz and H. Hua, “High-throughput multi-resolution foveated laparoscope for minimally invasive surgery,” Biomedical Optics Express, 13(6): 3366-79, 2022.
10. R. Beams, E. Brown, Ryan Beams, Ellenor Brown, Wei-Chung Cheng, Janell S Joyner, Andrea S Kim, Kimberly Kontson, Dimitri Amiras, Tassilo Baeuerle, Walter Greenleaf, Rafael J Grossmann, Atul Gupta, Christoffer Hamilton, Hong Hua, Tran Tu Huynh, Christoph Leuze, Sarah B Murthi, John Penczek, Jennifer Silva, Brennan Spiegel, Amitabh Varshney, Aldo Badano, “Evaluation challenges for the application of extended reality devices in medicine,” Journal of Digital Imaging, 1-10, 2022.
11. M. Nguyen, J. Nabhani, A. Hamilton, S. Lee, J. Katz, K. Samakar, A. Ghlandian, and H. Hua, “Surgeon assessment of a novel multi-resolution foveated laparoscope,” Surgical Innovation, 29(6): 769-780, March 2022 (https://doi.org/10.1177%2F15533506221081100).
12. E. Kwan and H. Hua, “Prism-based tri-aperture laparoscopic objective for multi-view acquisition,” Optics Express, 30(2):2836-2851, January 2022.
13. B. Javidi, H. Hua, et al., “Focus issue introduction: 3D Image Acquisition and Display“: Technology, Perception and Application, Optics Express, 30(3): 4655-58, 2022.
14. P. Lyu and H. Hua, “Perceptual-driven approach to statically foveated head-mounted displays,” Optics Express, 29(21): 33890-33914, Oct. 2021.
15. X. Wang and H. Hua, “Design of a digitally switchable multifocal microlens array for integral imaging systems,” Optics Express, 29(21): 33771-33784, Oct. 2021.
16. Y. Zhang, X. Hu, K. Kiyokawa, N. Isoyama, H. Uchiyama, and H. Hua, “Realizing mutual occlusion in a wide field-of-view for optical see-through augmented reality displays based on a paired-ellipsoidal-mirror structure,” Optics Express, 29(26): 42751-42761, December 2021.
17. Y. Zhang, X. Hu, K. Kiyokawa, N. Isoyama, N. Sakata, and H. Hua, “Optical see-through augmented reality displays with wide field of view and hard-edge occlusion by using paired conical reflectors,” Optics Letters, July 2021.
18. A. Wilson and H. Hua, “Design of a pupil-matched occlusion-capable optical see-through head-mounted display,” IEEE Transactions on Visualization and Computer Graphics, April 2021, https://doi.org/10.1109/TVCG.2021.3076069.
19. X. Wang and H. Hua, “Depth-enhanced head-mounted light field displays based on integral imaging,” Optics Letters, January 2021.
20. M. Xu and H. Hua, “Analytical model for the perceived retinal image formation of 3D display systems,” Optics Express, 28(25), December 2020.
21. B. Javidi, A. Carnicer, J. Arai, T. Fujii, H. Hua, et al., “Roadmap on 3D integral imaging: sensing, processing, and display,” Optics Express, 28(22), Oct. 2020.
22. S. Lee, H. Hua, M. Nguyen, and A. Hamilton, “Further comparison of 4 display modes for a multi-resolution foveated laparoscope,” Surgical Innovations, September 2020.
23. J. I. Katz, Sang-yoon Lee, and H. Hua, “Improved multi-resolution foveated laparoscope with real-time digital transverse chromatic correction,” Applied Optics, 59(22): G79-91, August 2020 (Selected for “Spotlight on Optics).
24. M. Xu and H. Hua, “Geometrical-lightguide-based head-mounted lightfield displays using polymer-dispersed liquid crystal films,” Optics Express, 28(14): 21165-81, July 2020.
25. M. Xu and H. Hua, “Finite-depth and vari-focal head-mounted displays based on geometrical lightguides,” Optics Express, 28(8): 12121-137, April 2020.
26. M. Xu and H. Hua (invited): “Co-axial depth sensor with an extended depth range for AR/VR applications,” in Virtual Reality and Intelligent Hardware, 2(1): 1-11, 2020.
27. E. Kwan, Y. Qin, and H. Hua, “High resolution, programmable aperture light field laparoscope for quantitative depth mapping,” OSA Continuum, 3(2): 194-203, February 2020.
28. M. Xu and H. Hua, “Systematic method for modeling and characterizing multilayer light field displays,” Optics Express, 28(2): 1014-36, January 2020.
29. H. Huang and H. Hua, “Generalized methods and strategies for modeling and optimizing the optics of 3D head-mounted light field displays,”  Optics Express, 27(18): 25154-171, September 2019.
30. A. Wilson and Hong Hua, “Design and demonstration of a vari-focal optical see-through head-mounted display using freeform Alvarez lenses,” Optics Express, 27(11): 15627-37, May 2019.
31. H. Huang and Hong Hua, “Effects of ray position sampling on the visual responses of 3D light field displays,” Optics Express, 27(7):9343-60, April 2019.
32. M. Xu and Hong Hua, “Methods of optimizing and evaluating geometrical lightguides with microstructure mirrors for augmented reality displays,” Optics Express, 27(4): 5523-43, February 2019.
33. Sangyoon Lee, Hong Hua, Mike Nguyen, and Allen Hamilton, “Comparison of six display modes for a multi-resolution foveated laparoscope,” Surgical Endoscopy, September 2018.
34. H. Huang and Hong Hua, “High-performance integral-imaging-based light field augmented reality display using freeform optics,” Optics Express, June 2018.
35. X. Wang, Y. Qin, Hong Hua, Y. Lee, and S. T. Wu, “Digitally switchable multi-focal lens using freeform optics,” 26(8): 11007-17, Optics Express, April 2018.
36. A. Wilson, and Hong Hua, “Design and prototype of an augmented reality display with per-pixel mutual occlusion capability,” 25(24):30539-50, Optics Express, November 2017.
37. M. Xu, and Hong Hua, “High dynamic range head mounted display based on dual-layer spatial modulation,” 25(19): 23320-33, Optics Express, September 2017.
38. Hekun Huang and Hong Hua, “Systematic characterization and optimization of 3D light field displays,” Optics Express, 25(16): 18508-25, August 2017.
39. Hong Hua, “Enabling focus cues in head-mounted displays,” Proceedings of the IEEE, 105(5):805-824, May 2017.
40. Hekun Huang and Hong Hua, “An integral-imaging-based head-mounted light field display using a tunable lens and aperture array,” Journal of the Society for Information Display,25(3):200-7, March 2017.
41. Sheng-Huei Lu and Hong Hua, “Structured Illumination Assisted Microdeflectometry with Optical Depth Scanning Capability,” Optics Letter, 41(17):4114-7, August 2016.
42. Sheng-Huei Lu and Hong Hua, “Extended depth of field microscopy based on structured illumination and single-shot focus scanning techniques,” Optics Express, August 2016.
43. Yi Qin and Hong Hua, “Optical design and system engineering of a multi-resolution foveated laparoscope,” Applied Optics, 2016.
44. Rengmao Wu, Yi Qin, and Hong Hua, “Improved illumination of laparoscopes using an aspherical lens array,” Biomedical Optical Express, 7(6): 2237-2248,  May 2016.
45. Yi Qin and Hong Hua, “Continuously zoom imaging probe for the multi-resolution foveated laparoscope,” Biomedical Optical Express, 7(4), pp.1175-1182, 2016.
46. Rengmao Wu, Hong Hua, Pablo Benitez, Juan C. Minano, and R. Liang, “Design of compact and ultra efficient aspherical lenses for extended Lambertian sources in two-dimensional geometry,” Optics Express, 24(5), March 2016.
47. Sangyoon Lee and Hong Hua, “Effects of configuration of optical combiner on near-field depth perception in optical see-through head-mounted displays,” in IEEE Transactions on Visualization and Computer Graphics, 22(4):1432-41,2016.
48. A. Markman, X. Shen, Hong Hua, and B. Javidi, “Augmented reality three-dimensional object visualization, display, and recognition with axially distributed sensing,” Optics Letters, January 2016.
49. Rengmao Wu and Hong Hua, “Direct design of aspherical lenses for extended non-Lambertian sources in three-dimensional rotational geometry,” Optics Express, 24(2), January 2016.
50. Quanzeng Wang, Wei Li, Xiao Hong, H. Hua, Xin Peng, Lan Lv, and G. Yu, “Development of the local magnification method for quantitative evaluation of endoscope geometric distortion,” Journal of Biomedical Optics, 2016.
51. Rengmao Wu, Hong Hua, P. Benitez, and J. C. Minano, “Direct design of aspherical lenses for extended non-Lambertian sources in three-dimensional translational geometry,” Optics Letters, July 2015.
52. Rengmao Wu, Y. Qin, Hong Hua, Y. Meuret, P. Benitez, and J. C. Minano, “Prescribed intensity design for extended sources in three-dimensional rotational geometry,” Optics Letters, 2015.
53. Xinda Hu and Hong Hua, “Design and tolerance of a free-form optical system for an optical see-through multi-focal-plane display,” Applied Optics, November 2015.
54. Sheng-huei Lu and Hong Hua, “Imaging properties of extended depth of field microscopy through single-shot focus scanning,” Optics Express, April 2015.
55. Sangyoon Lee, Xinda Hu, and Hong Hua, “Effects of optical combiner and IPD change for convergence on near-field depth perception in an optical see-through HMD,” IEEE Transactions on Visualization and Computer Graphics, April 2015.
56. Chao Li, Qian Chen, Hong Hua, Chen Mao, and Ajun Shao, “Digital three-dimensional reconstruction based on integral imaging,” Optical Review, 22:427-433, March 2015.
57. Sangyoon Lee and Hong Hua, “A robust camera-based method for optical distortion calibration of head-mounted displays,” in IEEE/OSA Journal of Information Display, December 2014.
58. Jingang Wang, X. Xiao, Hong Hua, and B. Javidi, “Augmented reality 3D displays with micro integral imaging,” IEEE/OSA Journal of Information Display, October 2014.
59. Hong Hua and Bahram Javidi, “A 3D integral imaging optical see-through head-mounted display“, Optics Express, 22(11): 13484-13491, June 2014.
60. Xinda Hu and Hong Hua, “High-resolution optical see-through multi-focal-plane head-mounted display using freeform optics,” Optics Express,22(11): 13896-13903, June 2014.
61. Yi Qin, Hong Hua, and Mike Nguyen, “Characterization and in-vivo evaluation of a multi-resolution foveated laparoscope for minimally invasive surgery,” Biomedical Optics Express, 5(8):2548-2562, 2014.
62. Xinda Hu and Hong Hua, “Design and assessment of a depth-fused multi-focal-plane display prototype,” IEEE/OSA Journal of Display Technology, 10(4), 308-316, 2014.
63. Hong Hua, Xinda Hu, and Chunyu Gao, “A high-resolution optical see-through head-mounted display with eyetracking capability,” 21(25): 30993-8, December 2013.
64. Yi Qin, Hong Hua, Mike Nguyen, “Multi-resolution foveated laparoscope with high resolvability,” Optics Letters, 38(13): 2191-2193, July 2013.
65. Q. Wang, D. Cheng, Y. Wang, Hong Hua, and G. Jin, “Design, tolerance, and fabrication of an optical see-through head-mounted display with free-form surface elements,” Applied Optics, 52(7):C88- C99, March 2013.
66. D. Cheng, Y. Wang, Hong Hua, J. Sasian , “Design of a wide-angle, lightweight head-mounted display using free-form optics tiling,” Opt Lett, 36(11):2098-100, 2011.
67. Sangyoon Lee and Hong Hua, “Effects of viewing conditions and rotation methods in a collaborative tabletop AR environment,” in IEEE Transactions on Visualization and Computer Graphics, 17(9): 1245-58, 2011.
68. Sheng Liu and Hong Hua, “Extended depth-of-field microscopic imaging with a variable focus microscope objective,” Optics Express, 19(1):353-362, 2011.
69. Dewen Cheng, Yongtian Wang, and Hong Hua, “Automatic image performance balancing in lens optimization,” Optics Express, 18(11):11574-11588, 2010.
70. Sheng Liu and Hong Hua, “A systematic method for designing depth-fused multi-focal plane three-dimensional displays,” Optics Express, 18(11):11562-11573, 2010.
71. Sheng Liu, Hong Hua, and Dewen Cheng “An optical see-through head-mounted display with addressable focus cues,” IEEE Trans. Vis. Comput. Graph. 16：381-393 (2010). (Invited).
72. Chunyu Gao, Hong Hua, and N. Ahuja, “A hemispherical imaging camera,“ Computer Vision and Image Understanding (Accepted: March 2009; Available online), 114(2):168-178, 2010.
73. Prasad Gabbur, Hong Hua, and K. Barnard, “A fast connected components labeling algorithm for real-time pupil detection,” Machine Vision and Applications Journal , 21(5):779-787, 2010.
74. Sheng Liu and Hong Hua, “Time-multiplexed dual-focal plane head-mounted display with a fast liquid lens,” Optics Letter, 34(11):1642-44, June 2009.
75. Rui Zhang and Hong Hua, “Imaging quality of a retroreflective screen in head-mounted projection displays,” Journal of Optical Society of America: A, 26(5): 1240-1249, May 2009.
76. Dewen Cheng, Yongtian Wang, Hong Hua, and M. M. Talha, “Design of an optical see-through head-mounted display with a low f-number and large field of view using a freeform prism,” Applied Optics, 48(14): 2655-2668, May 2009.
77. Ji-young Oh and Hong Hua, “Usability of multi-scale interfaces for 3D workbench displays,” in Journal of Presence: Teleoperators and Virtual Environments, 17(5): 415-440, October, 2008.
78. Rui Zhang and Hong Hua, “Design of a polarized head-mounted projection display using ferroelectric liquid-crystal-on-silicon microdisplays,” Applied Optics, 47(15): 2888-96, May 2008.
79. Xiaorui Wang and Hong Hua, “Theoretical analysis for integral imaging performance based on microscanning of microlens array,” Optics Letter, 33(5): 449-451, February 2008.
80. Rui Zhang and Hong Hua, “Characterizing polarization management in a p-HMPD system,” Applied Optics, 47(4):512-522, January 2008.
81. Hong Hua and Sheng Liu, “A dual-sensor foveated imaging system,” Applied Optics, 47(3): 317-27, January 2008. This article is also listed in Virtual Journal for Biomedical Optics, 3(2).
82. Hong Hua, Craig Pansing, and J. P. Rolland, “Modeling of an eye-imaging system for optimizing illumination schemes in an eye-tracked head-mounted display,” Applied Optics, 46(31): 7757-70, October 2007 (cover story). This article is also listed in Virtual Journal for Biomedical Optics, 2(12).
83. Hong Hua and C. Gao, “Online calibration of a head-mounted projection display for augmented reality systems,” Journal of Society for Information Displays, 15(11):1-9, 2007.
84. Hong Hua, C. Gao, and N. Ahuja, “Calibration of an augmented reality system using head-mounted projective displays,” IEEE Transactions on Systems, Man, Cybernetics (Part A: Systems), 37(3): 416-30, 2007.
85. Hong Hua and C. Gao, “Design of a polarized head-mounted projection display,” Applied Optics, 46(14): 2600-10, April 2007. This article is also listed in Virtual Journal for Biomedical Optics, 2(6).
86. Hong Hua, N. Ahuja, and C. Gao. “Design analysis of a high resolution panoramic camera using conventional imagers and a mirror-pyramid,” IEEE Transactions on Pattern Analysis and Machine Intelligence, 29(2): 356-61, February 2007.
87. Leonard Brown and Hong Hua, “Magic Lenses for augmented virtual environments,” IEEE Computer Graphics and Applications, 26(4): 64-73, July/August 2006.
88. Hong Hua, Prasana Krishnaswamy, and J. P. Rolland, “Video-based eyetracking methods and algorithms in head-mounted displays,” Optics Express, 14(10): 4328-50, May 2006.
89. K. Tan, Hong Hua, and N. Ahuja. “Multiview panoramic cameras using a mirror pyramid,” IEEE Transactions on Pattern Analysis and Machine Intelligence, 26(7): 941-6, July 2004.
90. Hong Hua, Leonard Brown, and C. Gao, “System and interface framework for SCAPE as a collaborative infrastructure,” Presence: Teleoperators and Virtual Environments, 13(2): 234-250, April 2004 (cover story).
91. Hong Hua, Leonard Brown, and C. Gao, “SCAPE: Supporting Stereoscopic Collaboration in Augmented and Projective Environments,” IEEE Computer Graphics and Application, 24(1): 66-75,January/February 2004.
92. Hong Hua, Y. Ha, and J. P. Rolland. “Design of an ultra-compact projection lens,” Applied Optics, 42(1): 97-107, January 2003.
93. *Hong Hua, Y. Wang, and D. Yan. “Low-cost dynamic rangefinding device based on amplitude-modulated continuous ultrasonic wave,” IEEE Transactions on Instrumentation and Measurements, 51(2): 362-7, April 2002.
94. Hong Hua, A. Girardot, C. Gao, and J. P. Rolland. “Engineering of head-mounted projective displays,” Applied Optics, 39 (22): 3814-3824, August 2000.
95. *Hong Hua, Y. Wang, X. Guo. “Design principle and error analysis of 6DOF ultrasonic position and orientation tracker,” Zidonghua Xuebao/Acta Automatica Sinica, 26 (6): 840-4, November 2000.
96. *Hong Hua, X. Guo, Y. Wang. “Design principle and error analysis of 3D ultrasonic position tracker,” Chinese Journal of Scientific Instruments, Vol. 21 (3): 326-330, June 2000 (in Chinese).
97. *Hong Hua, Y. Wang. “Design of position tracker using continuous ultrasonic wave and its application in virtual reality,” Acta Electronica Sinica, 27 (12): 98-101, December 1999 (in Chinese).
98. *Hong Hua, Y. Wang, T. Xu. “Dynamic rangefinding device using amplitude-modulated continuous ultrasonic wave,” Journal of Beijing Institute of Technology (English Edition), 7(1): 55-61, 1998.
99. *S. Zhang, Y. Wang, Hong Hua, “Diffraction efficiency calculation of planar grating using rigorous coupled-wave theory,” Optical Techniques, (1): 2-6, January 1998 (in Chinese).
100. *D. He, Y. Wang, X. Yuang, Hong Hua. “An optical viewing system for virtual reality,” Opto-Electronic Engineering, 24(5): 41-5, May 1997 (in Chinese).
101. *Y. Wang, Hong Hua, D. He  etc. “Technical features of GOLD–software for general optical lens design,” Journal of Beijing Institute of Technology, 16(5): 483-9, May 1996.

Refereed Proceeding Articles

(Only rigorously peer-reviewed conference articles listed in this category)

1. Sangyoon Lee, and Hong Hua, “Effects of configuration of optical combiner on near-field depth perception in optical see-through head-mounted displays,” Proceedings of 2016 IEEE Virtual Reality, March 2016.
2. Sangyoon Lee and Hong Hua, “A robust camera-based method for optical distortion calibration of head-mounted displays,” in Proceedings of 2013 IEEE Virtual Reality, pp. 27-30, March 2013.
3. Rui Zhang and Hong Hua, “Effects of a Retroreflective Screen on Depth Perception in a Head-mounted Projection Display,” Proceedings of 2010 IEEE and ACM International Symposium on Mixed and Augmented Reality (ISMAR’2010), pp. 137-145, October 2010 (<20% acceptance rate for full papers).
4. Leonard D. Brown and Hong Hua, “An evaluation of physical affordances in augmented virtual environments: Dataset grounding and magic lens,” Proceedings of IEEE Virtual Reality 2010, pp. 23-26, March 2010.
5. Sangyoon Lee and Hong Hua, “Effects of viewing conditions and rotation methods in a collaborative tabletop AR environment,” Proceedings of IEEE Virtual Reality 2010, pp.163-170, March 2010 (<20% acceptance rate for full papers).
6. (Best Student Paper Award) Sheng Liu, Dewen Cheng, and Hong Hua, “An optical see-through head-mounted display with addressable focal planes,” Proceedings of 2008 IEEE and ACM International Symposium on Mixed and Augmented Reality (ISMAR’2008), pp. 33-42, September 2008(<15% acceptance rate for full papers).
7. Sheng Liu and Hong Hua, “Spatialchromatic foveation for gaze contingent displays,” Proceedings of the 2008 ACM symposium on Eye Tracking Research and Applications (ETRA’08), pp. 139-142, March 2008.
8. C. Gao, N. Ahuja, and Hong Hua, “Active aperture control and sensor modulation for flexible imaging,” Proceedings of International Conference on Computer Vision and Pattern Recognition (CVPR’2007), pp.1-8, June 2007 (<28.2% acceptance rate).
9. Ji-Young Oh and Hong Hua, “User evaluations on form factors of tangible magic lenses,” Proceedings of 2006 IEEE and ACM International Symposium on Mixed and Augmented Reality (ISMAR’2006), pp.23-32, October 2006(<26% acceptance rate for full papers).
10. Hong Hua and C. Gao, “A polarized head-mounted projective displays,” Proceedings of 2005 IEEE and ACM International Symposium on Mixed and Augmented Reality, pp. 32-35, October 2005 (<22% acceptance rate for short papers).
11. Leonard Brown, Hong Hua, and C. Gao, “A widget framework for augmented interaction in SCAPE,” Proceedings of 2003 ACM User Interface of Software and Technology (UIST 2003), also in Computer Human Interaction (CHI) Letters, 5(2), 1-10, October 2003 (<20% acceptance rate).
12. (Best Paper Award, Honorable Mention)Hong Hua, Leonard Brown, and C. Gao, “A new collaborative infrastructure: SCAPE,” Proceedings of IEEE Virtual Reality 2003 (VR’2003), pp. 171-179, March 2003 (<28% acceptance rate).
13. C. Gao, Hong Hua, and N. Ahuja, “Easy calibration of a head-mounted projective display for augmented reality systems,” Proceedings of IEEE Virtual Reality 2003 (VR’2003), pp. 53-60, March 2003 (<28% acceptance rate).
14. Hong Hua, C. Gao, and N. Ahuja, “Calibration of a head-mounted projective display for augmented reality systems,” Proceedings of 2002 IEEE and ACM International Symposium on Mixed and Augmented Reality (ISMAR’2002), pp.176-185, September 2002 (<28% acceptance rate).
15. K. Tan, Hong Hua, N. Ahuja, “Multi-view mirror pyramid panoramic camera,” Proceedings of 2002 IEEE Workshop on Omnidirectional Vision, pp. 87-93, June 2002.
16. Hong Hua, C. Gao, Leonard Brown, N. Ahuja, and J. P. Rolland, “A testbed for precise registration, natural occlusion and interaction in an augmented environment using a head-mounted projective display (HMPD),” Proceedings of  IEEE Virtual Reality 2002 (VR’2002), pp. 81-89, March 2002 (<27% acceptance rate).
17. Hong Hua and N. Ahuja. “A high-resolution panoramic camera,” Proceedings of International Conference on Computer Vision and Pattern Recognition (CVPR’2001), pp. 960-67, December 2001 (<30.5% acceptance rate).
18. Hong Hua, C. Gao, Leonard Brown, N. Ahuja, and J. P. Rolland. “Using a head-mounted projective display in interactive augmented environments,” Proceedings of 2001 IEEE and ACM International Symposium on Augmented Reality (ISAR’2001), pp. 217-223, October 2001 (<32% acceptance rate).
19. M. Agrawal, Hong Hua, N. Ahuja. “On cosine-fourth and vignetting effects in lenses”, Proceedings of 2001 International Conference on Computer Vision (ICCV’2001), pp. 472-479, July 2001 (<34% acceptance rate).
20. Hong Hua, C. Gao, F. Biocca, and J. P. Rolland. “An ultra-light and compact design and implementation of head-mounted projective displays,” Proceedings of IEEE Virtual Reality 2001 (VR’2001), pp. 175-182, March 2001 (<30% acceptance rate).

Review Articles

1. Hong Hua, “Advances in head-mounted light-field displays for virtual and augmented reality,” Information Displays, 32(4):14-20, July/August 2016.
2. Hong Hua and B. Javidi, “Making Augmented Reality Easy on the Eyes,” Optics and Photonics News, February 2015 (cover story).
3. Hong Hua, “Freeform Optical surfaces,” McGraw-Hill 2013 Yearbook of Science & Technology, 2013.
4. Hong Hua, Yi Qin, and Mike Nguyen, “Multi-resolution foveated laparoscope for safer minimally invasive surgery,” SPIE News Room, April 2013.
5. Hong Hua, “Sunglass-like displays become a reality with free-form optical technology,” SPIE News Room, August 2012 ( DOI: 10.1117/2.1201208.004375).
6. Hong Hua and Sheng Liu, “Correct focus cues in stereoscopic displays improve 3D depth perception,” SPIE News Room, July 2010 (10.1117/2.1201007.003109).
7. Hong Hua, “Merging the worlds of atoms and bits: augmented virtual environments,” Optics and Photonics News, 17(10): 26-33, October 2006 (cover story).
8. Hong Hua, “Stereoscopic displays,” McGraw-Hill 2005 Yearbook of Science & Technology, 339-342, 2005.

Invited Colloquia Presentations

1. (Invited) Hong Hua, “Development of multi-resolution foveated laparoscopes for safer minimally invasive surgery,” Biomedical Engineering Seminar, University of Arizona, February 5^th, 2024.
2. (Invited) Hong Hua, “Overview of Recent Research on Mixed Reality Displays,” Corporate Research Seminar, Meta Inc., July 18^th, 2023 (also October 12^th, 2023).
3. (Invited) Hong Hua, “The quest for a harmonious blend of bits and atoms,” Cognitive Science Colloquium, University of Arizona, November 4^th, 2022.
4. (Invited) Hong Hua, “The quest for visual comfort in virtual and augmented reality displays,” School of Information Colloquium, University of Arizona, October 25^th, 2019.
5. (Invited) Hong Hua, “Optical challenges for next-generation VR/AR displays,” Technology Expo, OPPO Inc., Shenzhen, China, November 26-29^th, 2018.
6. (Invited) Hong Hua, “Head-mounted light field displays for virtual and augmented reality: challenges and opportunities,” Colloquium at Food and Drug Administration, September 18^th 2018.
7. (Invited) Hong Hua, “Head-mounted light field displays for virtual and augmented reality: challenges and opportunities,” College of Sciences Distinguished Lecture Series, Rochester Institute of Technology, February 7^th 2018.
8. (Invited) Hong Hua, “Rendering focus cues in head-mopunted displays for virtual and augmented reality displays,” College of Optical Sciences Colloquium, University of Arizona, November 16^th 2017.
9. (Invited) Hong Hua, “Advances in augmented reality displays,” College of Optical Sciences Colloquium, University of Arizona, April 24^th 2014.
10.  (Invited) Hong Hua, “Recent Advancements on Augmented Reality Display Technologies,” Optical Engineering Colloquium, Zhejiang University, May 13^th, 2012.
11. (Invited) Hong Hua, “Recent Advancements on Augmented Reality Display Technologies,” Computer Science Colloquium, University of Arizona, March 5^th, 2012.
12. (Invited) Hong Hua, “How to write good scientific papers,” Beijing Institute of Technology Colloquium, May 16^th, 2012.
13.  (Invited) Hong Hua, “Near-eye displays for augmented reality applications,” Institute of Computer Graphics Colloquium, Johannes Kepler University, Linz, Austria, January 19^th, 2011.
14. (Invited) Hong Hua, “Research on 3D Visualization and Imaging System Development,” Beijing Institute Technology Colloquium, China, October 22^nd, 2010.
15. (Invited) Hong Hua, “Near-eye displays: what is now and future?” 3M Colloquium talk, June 9^th, 2009.
16. (Invited) Hong Hua, “3D visualization techniques in multi-scale collaborative augmented virtual environments,” Computer Science Colloquium, University of Arizona, November 16^th, 2006.

Invited Seminars and Tutorials

1. (Invited) Hong Hua, “Optics in virtual and augmented reality displays,” Optical Sciences Winter School Workshop, University of Arizona, January 6^th, 2024.
2. (Invited Tutorial) Hong Hua, “Fundamentals of head-mounted displays for virtual and augmented reality,” Meta Inc., July 19^th, 2023.
3. (Invited) Hong Hua, “Optics in virtual and augmented reality displays,” Optical Sciences Winter School Workshop, University of Arizona, January 6^th, 2023.
4. (Invited) Hong Hua, “Head-mounted light field displays for mixed reality,” SID (Society of Information Display) Display Week Seminar, June 2022.
5. (Invited Tutorial) Hong Hua, “Fundamentals of head-mounted displays for virtual and augmented reality,” Applied Materials, November 2021.
6. (Invited Seminar) Hong Hua, “Fundamentals of head-mounted displays for augmented and virtual reality” SID (Society of Information Display) Display Week Seminar, California, August 2020.
7. (Invited Talk) Hong Hua, “Wearable displays as assistive technology,” University of Arizona, November 20^th, 2019.
8. (Invited Tutorial) Hong Hua, “Fundamentals of head-mounted displays for virtual and augmented reality,” Applied Materials, April, 25th, 2019.
9. (Invited Talk): Hong Hua, “Optical challenges for next-generation VR/AR displays,” Arizona Photonics Day, January 31^st, 2019.
10. (Invited Tutorial) Hong Hua, “Fundamentals of head-mounted displays for virtual and augmented reality,” CREOL, University of Central Florida, June 2018.
11. (Invited) Hong Hua, “Enabling Focus Cues in Head-mounted Displays for Virtual and Augmented Reality,” Samsung Inc., South Korea, August 29^th, 2017.
12. (Invited Tutorial) Hong Hua, “Fundamentals of head-mounted displays for virtual and augmented reality,” Applied Materials, May 4^th, 2017.
13. (Invited) Hong Hua, “Engineering challenges in optical see-through augmented reality displays,” Corning AR/VR workshop, September 13^th, 2016.
14. (Invited) Hong Hua, “Head-worn displays for augmented reality applications,” Applied Materials AR/VR Workshop, August 3rd-4th, 2016.
15. (Invited Tutorial) Hong Hua, “Head-worn displays for augmented reality applications,” Topical Meeting on 3D Image Acquisition and Display, Optical Society of America, July 2016.
16. (Invited) Hong Hua, “Near-to-eye displays for augmented reality,” Corning Glass Summit, June 3rd-4th, 2016.
17.  (Invited) Hong Hua, “Near-to-eye lightfield displays for augmented reality,” Huawei Science and Technology Workshop, May 17-18th, 2016.
18. (Invited Tutorial) Hong Hua, “Fundamentals of head-mounted displays for virtual and augmented reality,” Display Week, Society of Information Displays, May 22nd, 2016.
19. (Invited) Hong Hua, “Head-worn displays for augmented reality applications,” SID (Society of Information Display) Display Week Seminar, San Diego, California, June 2015.
20. (Invited) Hong Hua, “Near-to-eye light field displays for augmented reality,” Workshop on Light Field Imaging, Stanford University, February 12^th, 2015.
21. (Invited) Hong Hua, “Head-worn displays for augmented reality applications,” SID (Society of Information Display) Display Week Seminar, San Diego, California, June 2^nd, 2014.
22. (Invited) Hong Hua, “Augmented reality display technology,” Qualcomm Seminar, June 4^th, 2014.
23. (Invited) Hong Hua, “Is Augmented Reality Glass a Reality?” Ricoh Innovation Seminar Series, November 7^th 2013.
24. (Invited) Hong Hua, “Is Augmented Reality Glass a Reality?” Optical Engineering Lecture Series, Beijing Institute of Technology, May 22^nd 2013.
25. (Invited) Hong Hua, “A multi-resolution foveated laparoscope (MRFL)” Optical Engineering Lecture Series, Beijing Institute of Technology, May 26^th 2013.
26. (Invited) Hong Hua, “Near-eye displays for augmented reality applications: now and the future“, Google seminar, April 26^th, 2011. 
27. (Invited) Hong Hua, “Stereoscopic Displays with Addressable Focus Cues“,1st Regional Meeting on Optics (CREO-CICESE),  Ensenada, Baja California, Mexico, SPIE Visiting Lecture Program, September 8th, 2011.
28. (Invited) Hong Hua, “Near-eye displays: now and future,” HP Seminar Series, October 2009.
29. (Invited) Hong Hua, “Stereoscopic display technology for collaborative augmented environments,” Visual Communication and Display Lab of Motorola Inc. (Schaumburg, IL), on June 4^th 2003.
30. (Invited) Hong Hua, “Stereoscopic display technology for collaborative augmented environments,” Department of Computer Science, George Mason University, Washington DC, on June 2^nd, 2003.
31. (Invited) Hong Hua, “Stereoscopic display research in augmented environments,” the Director’s Seminar Series, Beckman Institute, University of Illinois at Urbana-Champaign, September 2002.
32. (Invited) Hong Hua, “Display and imaging methods in augmented reality”, the Department of Opto-Electronic Engineering, Beijing Institute of Technology, June 2002.

Symposia and Conferences

1. Feiyi Shen and Hong Hua, “Light field camera with extended depth of field using a dual-focal micro-lens array,” Optica 2023 Topical Meeting on 3D Image Acquisition and Display: Technology, Perception and Applications,” August 2023.
2. . (Invited Paper) Hong Hua, Hekun Huang, and Xuan Wang, “Review on time-multiplexed methods for high-performance head-mounted light field displays”, Society for Information Display’s Display Week, 54(1): 627-630, May 2023.
3. Cheng-Ting Huang and Hong Hua, “Viewing window extension in integral imaging based head-mounted light field displays using time-multiplexed method,” Society for Information Display’s Display Week, 54(1): 631-633, May 2023.
4. (Invited) Hong Hua, “Challenges on high-performance head-mounted light field displays”, Meta Academic Forum, October 18^th, 2022.
5. (Invited) Hong Hua and Hekun Huang, “Optical design and optimization method for head-mounted displays”, Frontiers in Optics—Fabrication, Design and Instrumentation, October 2022.
6. (Invited) Hong Hua, “Time-multiplexed methods for high-performance head-mounted light field displays,” 2022 Optica Imaging and Applied Optics Congress, July 2022.
7. Alex Lu and Hong Hua, “A varifocal camera system for light field display calibration,” 2022 Optica Imaging and Applied Optics Congress, July 2022.
8. (Invited) Hong Hua, “Light field display technology for mixed reality”, IEEE 5^th International Conference on Multimedia Information Processing and Retrieval (MIPR 2022), August 2^nd, 2022.
9. (Invited) Hong Hua, “Head-mounted light field displays for virtual and mixed reality,” Conference of the Centre for Vision Research at York University, June 10-15, 2022.
10. (Invited) Hong Hua, “Recent progresses on head-mounted light field displays,” Laser Display and Lighting Conferences 2022 (LDC2022), Japan, April 19-22, 2022.
11.  Hong Hua and A. Wilson, “Design of pupil-matched optical see-through head-mounted display,” IEEE Virtual Reality 2022, March 12-16^th, 2022.
12. (Invited) Hong Hua and A. Wilson, “Recent development of occlusion-capable optical see-through head-mounted displays for mixed reality,” 21^st International Meeting on Information Display (IMID 2021), Seoul, Korea, August 25^th-27^th, 2021.
13. (Invited) Hong Hua, “Review on head-mounted light field displays for mixed reality,” The 5^th Microdisplay Optical Technology Conference (online), August 15^th, 2021.
14.  (Invited) Hong Hua, “Freeform optics in wearable displays,” SPIE Conference 11813 (Tribute to James C. Wyant: The Extraordinaire in Optical Metrology and Optics Education,” August, 2021.
15. Elliot Kwan and Hong Hua, “Tri-aperture monocular laparoscopic objective for stereoscopic and wide field of view acquisition,” 2021 OSA Imaging and Applied Optics Congress, July 2021.
16.  (Invited) Hong Hua, “Design of head-mounted light field displays for virtual and augmented reality,” 12^th International Conference on Optics-photonics Design and Fabrication (ODEF2021), Taoyuan, Taiwan, June 1^st-3^rd 2021.
17. Xuan Wang and Hong Hua, “Time-multiplexed high-performance integral imaging light field display,” SPIE Conference on AR VR MR, February 2021.
18.  (Invited Plenary) Hong Hua, “Progresses, challenges and opportunities of head-mounted light field displays for mixed reality,” IEEE Int. Workshop on Multimedia Signal Processing (IEEE MMSP), Tampere, Finland, September 2020.
19. (Invited) Hong Hua, “Challenges and opportunities for VR/AR optics,” Frontiers in Optics, September 2020.
20. Hong Hua, “Graphical methods to Gaussian beam propagation and imaging,” SPIE Conference on “Roland V. Shack Memorial Session: A Celebration of One of the Great Teachers of Optical Aberration Theory,” Paper 11479-4, August 2020.
21. A. Wilson and H. Hua, “Novel single-layer double-pass optical architecture for a pupil-matched occlusion-capable optical see-through head-mounted display,” Society for Information Display’s Virtual Display Week 2020, August, 2020.
22. P. Lyu and H. Hua, “A new perceptual-driven approach to foveated head-mounted displays,” Society for Information Display’s Virtual Display Week 2020, August, 2020.
23. X. Wang and H. Hua, “Digitally switchable micro-lens array for integral imaging,” Society for Information Display’s Virtual Display Week 2020, August, 2020.
24. (Invited Keynote) Hong Hua, “Head-mounted light field displays: progresses, challenges, and opportunities,” SPIE Conference on Three Dimensional Imaging, Visualization, and Display, Paper 11402-5, April 2020.
25. (Invited) Hong Hua, “Current research challenges and opportunity in extended reality devices and evaluation methods,” FDA Workshop on “Medical extended reality: toward best evaluation practices for virtual and augmented reality in medicine,” Washington D.C., March 2020.
26. (Invited Keynote) Hong Hua and Austin Wilson, “Challenges and opportunities for occlusion-capable optical see-through head-mounted displays for augmented reality,” SPIE Photonic West OPTO 2020 AR/VR Optics, Paper 11299-4, February 2020.
27. (Invited) Hong Hua, “Sampling requirements and visual artifacts of head-mounted light field displays,” SPIE Photonic West OPTO Advances in Display Technologies X, Paper 11304-2, February 2020.
28. M. Xu, and H. Hua, “Image analysis of varifocal geometrical lightguide head-mounted display,” SPIE Optical Architectures for Displays and Sensing in AR, VR, MR, Paper AVR20-AVR01-18, February 2020.
29. M. Xu and H. Hua, “Method for evaluating 3D display systems based on perceived retinal image,” SPIE Optical Architectures for Displays and Sensing in AR, VR, MR, Paper AVR20-AVR01-18, February 2020.
30. (Invited Panelist) Hong Hua, “the Future of head-mounted displays,” IEEE Virtual Reality 2019, March 26^th, 2019, Osaka, Japan.
31. (Invited) Austin Wilson and H. Hua, “Mutual occlusion in augmented reality displays,” OSA Frontiers in Optics, September 2019.
32. (Invited) Hong Hua, “Challenges of scaling in head-mounted displays,” OSA Imaging and Applied Optics Congress, Munich, Germany, June 2019.
33. M. Lovett, D. Biffar, A. Hamilton, J. Katz, S. Lee, Hong Hua, M. Nguyen, “Evaluation of learning curve and peripheral awareness using a novel multiresolution foveated laparoscope,” 2019 Spring Simulation Conference.
34. (Invited Plenary) Hong Hua, “Plenary: The quest for vision comfort: head-mounted light field displays for virtual and augmented reality,” IS&T Electronic Imaging 2019, San Francisco, January 2019.
35. (Invited) Hong Hua, “Optical challenges for scaling next-generation VR/AR displays,” SPIE Photonic West, AR/VR Conference, San Francisco, February 2019.
36. (Invited) Hong Hua, H. Huang, and M. Xu “Modeling retinal image formation for light field displays,” IS&T Electronic Imaging 2019, San Francisco, January 2019.
37. Mohan Xu and Hong Hua,” Co-axial depth map sensor with an extended depth range,” SPIE Photonic West, AR/VR Conference, San Francisco, February 2019.
38. X. Wang, and Hong Hua, “Digitally switchable multi-focal element for wearable displays,” SPIE Photonic West, AR/VR Conference, San Francisco, February 2019.
39.  (Invited) Hong Hua and Hekun Huang “Optimizing head-mounted light field displays for quality and comfort,” OSA Frontiers in Optics, September 2018.
40. Mohan Xu and Hong Hua, “Systematic analysis method for multilayer light field display,” OSA 2018 Imaging and Applied Optics Congress (Topical Meeting on 3D Image Acquisition and Display: Technology, Perception, and Applications), Orlando, June 2018.
41. H. Huang and Hong Hua, “Design of a high-performance optical see-through light field head-mounted display,” Display Week 2018. May 2018.
42. (Invited) Hong Hua, “Optical challenges for next-generation AR headsets,” SPIE Conference on Digital Optics for Immersive Displays (co-held with SPIE Photonics Europe), Strasbourg, France, April 22-26^th, 2018.
43. (2^nd Prize for Student Optical Design Competition), M. Xu and Hong Hua, “Ultra-thin optical combiner with microstructure mirrors in augmented reality,” SPIE Conference on Digital Optics for Immersive Displays (co-held with SPIE Photonics Europe), Strasbourg, France, April 22-26^th, 2018.
44. (3^rd Prize for Student Optical Design Competition), A. Wilson and Hong Hua, “High-resolution optical see-through vari-focal-plane head-mounted display using freeform Alvarez lenses,” SPIE Conference on Digital Optics for Immersive Displays (co-held with SPIE Photonics Europe), Strasbourg, France, April 22-26^th, 2018.
45. H. Huang and Hong Hua, “High-performance integral-imaging based light field augmented reality display,” SPIE Conference on Digital Optics for Immersive Displays (co-held with SPIE Photonics Europe), Strasbourg, France, April 22-26^th, 2018.
46. Hong Hua and Hekun Huang, “Angular and Spatial Sampling Requirements in 3D Light Field Displays,” IS&T Electronic Imaging 2018, San Francisco, January 28-31^st, 2018.
47. (Invited) Hong Hua, “Optimizing head-mounted light field displays for quality and comfort,” SPIE Photonic West: VR,AR, MR One-day Industry Conference , January 29^th, 2018.
48. (Invited) Hong Hua and Austin Wilson, “Towards occlusion-capable optical see-through head-mounted displays,” OSA Frontiers in Optics/Laser Science Conference, Washington D.C., September 20^th, 2017.
49. (Invited) Hong Hua, “Head-mounted light field displays for virtual and augmented reality,”17^th Internal Meeting on Information Display (IMID 2017), Busan, South Korea, August 28-30^th, 2017.
50. (Invited) Hong Hua, “Enabling focus cues in head-mounted displays,” OSA 2017 Imaging and Applied Optics Congress (Topical Meeting on Imaging Systems and Applications), San Francisco, June 26-29^th, 2017.
51. Hekun Huang and Hong Hua, “Modeling of eye’s response in viewing 3D light field displays,” OSA 2017 Imaging and Applied Optics Congress (Topical Meeting on 3D Image Acquisition and Display: Technology, Perception, and Applications), San Francisco, June 26-29^th, 2017.
52. Elliot Kwan, Yi Qin, and Hong Hua, “Development of a light field laparoscope for depth reconstruction,” OSA 2017 Imaging and Applied Optics Congress (Topical Meeting on 3D Image Acquisition and Display: Technology, Perception, and Applications), San Francisco, June 26-29^th, 2017.
53. Austin Wilson and Hong Hua, “Demonstration of an occlusion-capable optical see-through head-mounted display,” Display Week 2017. May 2017.
54. Miaomiao Xu and Hong Hua, “Dual-layer high dynamic range head mounted display,” Display Week 2017. May 2017.
55. Xuan Wang and Hong Hua, “A digitally switchable multi-focal lens using freeform optics for wearable displays,” Display Week 2017. May 2017.
56. (Distinguished Student Paper Award) Hekun Huang and Hong Hua, “An integral-imaging-based head-mounted light-field display using a tunable lens and aperture array,” Display Week 2017. May 2017.
57. (Invited) Hong Hua, “Recent advances in head-mounted light field displays,” Display Week 2017. May 2017.
58. (Invited) Hong Hua, “Enabling focus cues in head-mounted displays,” SPIE Commercial + Scientific Sensing and Imaging, April 9-13^th, 2017.
59. (Invited Talk) Hong Hua, “Recent advances in head-mounted light field displays for virtual and augmented reality,” SPIE Photonics West-Emerging Liquid Crystal Technologies XII, February 2017.
60. Sheng-Huei Lu and Hong Hua, “Multifunctional three-dimensional microscopic system,” Topical Meeting on 3D Image Acquisition and Display, Optical Society of America, July 2016.
61. Hekun Huang and Hong Hua, “Design of an optical see-through multi-focal plane stereoscopic 3D display with eye-tracking ability,” Topical Meeting on 3D Image Acquisition and Display, Optical Society of America, July 2016.
62. (Invited, Best Paper  Award) Hong Hua, “Review and current status of head-mounted display technologies,” SPIE-Defense Security and Sensing, April 2015.
63. (Invited) Hong Hua, H. Huang, B. Javidi, “An integral imaging augmented reality display,” SPIE-Three Dimensional Imaging, Visualization, and Display 2015, April 2015.
64. (Invited) Hong Hua, “Past and future of wearable augmented reality displays and their applications,” SPIE Annual Conference, San Diego, CA, Aug 2014.
65. (Invited) Hong Hua, “Wearable displays using freeform optics,” 2014 OSA Classical Optics Congress-Computational Optical Sensing and Imaging, Kona, Hawaii, June 2014.
66. Xinda Hu and Hong Hua, “Optical design of an eyetracked head-mounted display using freeform waveguide,” 2014 OSA Classical Optics Congress-International Optical Design Conference, Kona, Hawaii, June 2014.
67. (Invited Paper, Fumio Okano Best Paper Prize) Hong Hua, X. Hu, C. Gao, and X. Qin, “Eyetracked optical see-through head-mounted display as an AAC device,” in Proc. of SPIE Defense, Security & Sensing—Three-Dimensional Imaging, Visualization, and Display, May 2014.
68. Hong Hua, Jason Kuhn, and Sangyoon Lee, “Effects of optical combiner on depth perception in optical see-through head-mounted displays,” 2014 SPIE Defense, Security & Sensing—Head and helmet-mounted displays XIX: design and applications, May 2014.
69. Xinda Hu and Hong Hua, “DMD technology enables an optical see-through head-mounted 3D display with true focus cues,” Oral presentation at SPIE MOEMS-MEMS (Emerging Digital Micromirror Device Based Systems and Applications VI), February 2014.
70. Xinda Hu and Hong Hua, “A new look inside: wavefront analysis tool for freeform designers,” OSA Topical Meeting on Freeform Optics, Renewable Energy and the Environment Congress 2013, Nov. 3-7, 2013.
71. (Invited) Hong Hua, “Lightweight, low-cost augmented reality displays enabled by freeform optical technology,” Applied Industrial Optics: Spectroscopy, Imaging and Metrology (AIO), June 2013.
72. (Invited Keynote) Hong Hua, “Is Augmented Reality Glass a Reality,” SPIE Defense, Security & Sensing—Three-Dimensional Imaging, Visualization, and Display 2013, May 2013.
73. C. Gao, Y. Lin, and Hong Hua, “Optical see-through head-mounted display with occlusion capability,” Proceedings of SPIE Defense, Security & Sensing—Head and helmet-mounted displays XIX: design and applications, Vol. 8735, pp. 87350F, May 2013.
74. S. Liu and Hong Hua, “Imaging properties in extended depth of field microscopy systems based on single-shot focus scanning technique,” Oral Presentation at SPIE Photonic West, Feb 2013.
75. X. Hu and Hong Hua, “An optical see-through multi-focal plane stereoscopic display prototype enabling nearly-correct focus cues,” in Proceedings of SPIE (Stereoscopic Displays and Applications XXIV), Vol. 8648, pp. 86481A,  April 2013.
76. Yi Qin, Hong Hua, Mike Nguyen, “Development of a laparoscope with  multi-resolution foveation capability for minimally invasive surgery,” in Proceedings of SPIE (Photonic West), Vol. 8573, pp. 85739 Feb 2013.
77. C. Gao, Y. Lin, and Hong Hua, “Occlusion capable optical see-through head-mounted display using freeform optics,” Proceedings of 2012 IEEE and ACM International Symposium on Mixed and Augmented Reality (ISMAR’2012), pp. 281-282, November 2012.
78. Xinda Hu and Hong Hua, “Design of an optical see-through multi-focal-plane stereoscopic 3D display using freeform prisms,” OSA 2012 Annual Meeting, October 2012.
79. Yi Qin, Zhenrong Zheng, Hong Hua, “Multi-resolution foveated laparoscope,” OSA 2012 Annual Meeting, October 2012.
80. Hong Hua and Chunyu Gao, “Design of a compact eyetracked optical see-through head-mounted display using freeform optics,” SPIE & IST Electronic Imaging Conference, January 2012.
81. (Distinguished Student Paper Award) Xinda Hu and Hong Hua, “A depth-fused multi-focal-plane display prototype enabling focus cues in stereoscopic displays,” Proc. of 2011 SID International Symposium (Display Week).
82.  (Invited Paper) Hong Hua and Sheng Liu, “Depth-fused multi-focal plane displays enable accurate depth perception,” Proc. of SPIE (Optical Design and Testing IV, Photonics Asia 2010), Vol.  7849, 78490P, October 2010.
83. (Invited Paper) Dewen Cheng, Yongtian Wang, and Hong Hua, “Free form optical system design with differential equations,” Proc. of SPIE (Optical Design and Testing IV, Photonics Asia 2010), Vol 7849, 78490Q, October 2010.
84. (Invited Paper) Dewen Cheng, Yongtian Wang, and Hong Hua, “Large field-of-view and high resolution free-form head-mounted display,” Proc. of SPIE-OSA (International Optical Design Conference 2010), Vol 7652, 76520D, June 2010.
85. (Invited Paper) Hong Hua, Dewen Cheng, Yongtian Wang, and Sheng Liu, “Near-eye displays: state-of-the-art and emerging technologies,” Proc. of SPIE (Three-dimensional Imaging, Visualization, and Display 2010 and Display Technologies for Defense, Security, and Avionics IV), Vol 7690, 769009-1, April 2010.
86. Rui Zhang and Hong Hua, “Design of a compact light engine for FLCOS microdisplays in a p-HMPD system,” Proceedings of 2008 International Symposium of Society of Information Display (SID’2008).
87. Sheng Liu, Chunyu Gao, and Hong Hua, “Illumination design of a multi-touch sensing projection screen for augmented virtual environments,” Proceedings of 2008 International Symposium of Society of Information Display (SID’2008).
88. Rui Zhang and Hong Hua, “Design of a polarized head-mounted projection display using FLCOS microdisplays,” Proceedings of the SPIE International Society for Optical Engineering (Photonic West 2007), Vol. 6489, 64890B, San Jose, USA, January 2007.
89. Sheng Liu, Craig Pansing, and Hong Hua, “Design of a foveated imaging system using a two-axis MEMS mirror,” Proceedings of 2006 International Optical Design Conference, Vol. 6342, 63422W-1-W-8, Vancouver, Canada, June 2006.
90. C. Curatu, J.P. Rolland, and Hong Hua, “Dual purpose lens for an eye-tracked projection head-mounted display,” Proceedings of International Optical Design Conference, Vancouver, Vol. 6342, 63420X, Canada, June 2006.
91. C. Curatu, Hong Hua, and J. P. Rolland, “Projection-based head-mounted display with eye-tracking capabilities,” Proceedings of the SPIE International Society for Optical Engineering, Vol. 5875, San Diego, USA, August 2005.
92. Hong Hua, “An ultra-bright polarized head-mounted projective display,” OSA 2005 Annual Meeting/Frontiers in Optics, Tucson, AZ, October 2005 (Oral presentation).
93. (Invited Paper) Craig Pansing, Hong Hua, and J. P. Rolland, “Optimization of illumination schemes in a head-mounted display integrated with eye tracking capabilities,” Proceedings of the SPIE International Society for Optical Engineering, Vol. 5875, San Diego, USA, August 2005.
94. Leonard Brown, C. Gao, and Hong Hua, “Toward a tangible interface for multi-modal interior design using SCAPE,” 2004 IEEE Workshop on Beyond glove and wand based interaction, March 2004.
95. Y. Ha, Hong Hua, R. Martins, and J. P. Rolland, “Design of a wearable wide-angle projection color display,” Proceedings of 2002 International Optical Design Conference, pp. 67-73, June 2002.
96. Hong Hua, C. Gao, and J. P. Rolland, “Study of the imaging properties of retro-reflective materials used in head-mounted projective displays,” Proceedings of SPIE (Aerosense 2002), Vol. 4711, pp.194-201, April 2002.
97. J. P. Rolland, Hong Hua, and F. Biocca, “Head-mounted projective displays for creating remote collaborative environments,” Proceedings of SPIE (Aerosense 2002), Vol. 4711, April 2002.
98. Hong Hua, F. Biocca, and J. P. Rolland, “Design of an ultra-light head-mounted projective display and its applications in augmented collaborative environments,” Proceedings of SPIE (Electronic Imaging 2002), Vol. 4660, pp.492-497, January 2002.
99. Hong Hua, Leonard Brown, C. Gao, N. Ahuja, J. P. Rolland, F. Biocca. “A head-mounted projective display and its applications in interactive augmented environments,” SIGGRAPH 2001 Conference Abstracts and Applications–Sketches & Applications, August 2001.
100. J. P. Rolland, Hong Hua, C. Gao, and F. Biocca. “Innovative displays for augmented reality applications and remote collaborations”, Proceedings of 2001 Medicine Meets Virtual Reality (MMVR’2001), January 2001.
101. Hong Hua. “Integration of eye tracking capability into optical see-through head-mounted displays,” Proceedings of SPIE (Electronic Imaging 2001), pp. 496-503, January 2001.
102. (Invited Paper) J. P. Rolland, Y. Ha, L. Davis, Hong Hua, C. Gao, F. Biocca, “New paradigm for head-mounted display technology: application to medical visualization and remote collaborative environments,” Proceedings of SPIE, Vol. 4442, August 2001.
103. Hong Hua, C. Gao, J. P. Rolland, “Ultra-light and compact design of head-mounted projective displays with diffractive optical element,” OSA 2000 Annual Meeting, October 2000 (Oral presentation).
104. Hong Hua, C. Gao, and J. P. Rolland, “Design and engineering implementation of head-mounted projective display,” Proceedings of 5^th International Conference on Human Interaction with Complex Systems, April 30-May 2, 2000.
105. Hong Hua, A. Girardot, and J. P. Rolland, “Head-mounted projective display: design and engineering study,” OSA 1999 Annual Meeting, September 1999 (Oral presentation).
106. *Hong Hua, Y. Wang, D. He, “3-D sound techniques in virtual reality,” Transaction on Chinagraph’96, Publishing House of Electronic Industry, pp. 313-319, September 1996.
107. *D. He, Y. Wang, X. Yuan, Hong Hua, “Design of viewing lens used in head-mounted-display system,” Transaction on Chinagraph’96, Publishing House of Electronic Industry, pp. 308-312, September 1996.
108. *Y. Wang, X. Yuan, D. He, Hong Hua, “Design of viewing lens for virtual reality,” Proc. Of SPIE Vol. 2778, pp.71-72, 1996.
109. *D. He, T. Xu, Y. Wang, Hong Hua,“Head-mounted-display system for virtual reality,” Proc. Of SPIE Vol. 2892, pp.126-128, 1996.
110. *D. He, Y. Wang, Hong Hua, “Prototyping techniques: the application of virtual reality in manufacturing,” Proceedings of Ninth CAD & Computer Graphics of China, pp.561-567, 1996.