基于全息光学元件的增强现实3D显示系统 下载: 754次
[1] Azuma R T. A survey of augmented reality[J]. Presence: Teleoperators and Virtual Environments, 1997, 6(4): 355-385.
[2] Milgram P, Takemura H, Utsumi A, et al. Augmented reality: A class of displays on the reality-virtuality continuum[C]. SPIE, 1994, 2351: 282-292.
[3] Azuma R, Baillot Y, Behringer R, et al. Recent advances in augmented reality[J]. IEEE Computer Graphics and Applications, 2001, 21(6): 34-47.
[4] Feng Y, Du W, Guan X, et al. Realization of multilayer occlusion between real and virtual scenes in augmented reality[C]. 10th International Conference on Computer Supported Cooperative Work in Design, 2006: 1-5.
[5] Kiyokawa K, Billinghurst M, Campbell B, et al. An occlusion-capable optical see-through head mount display for supporting co-located collaboration[C]. Proceedings of the 2nd IEEE/ACM International Symposium on Mixed and Augmented Reality, IEEE Computer Society, 2003: 133-141.
[6] Yamashita M, Sakane S. Adaptive annotation using a human-robot interface system PARTNER[C]. IEEE International Conference on Robotics and Automation, 2001, 3: 2661-2667.
[7] Hua H, Gao C, Biocca F, et al. An ultra-light and compact design and implementation of head-mounted projective displays[C]. Virtual Reality, IEEE, 2001: 175-182.
[8] Billinghurst M, Kato H, Poupyrev I. The MagicBook: A transitional AR interface[J]. Computers & Graphics, 2001, 25(5): 745-753.
[9] Hong K, Yeom J, Jang C, et al. Full-color lens-array holographic optical element for three-dimensional optical see-through augmented reality[J]. Optics Letters, 2014, 39(1): 127-130.
[10] Takaki Y, Urano Y, Kashiwada S, et al. Super multi-view windshield displays for long-distance image information presentation[J]. Optics Express, 2011, 19(2): 704-716.
[11] Hong J, Min S W, Lee B. Integral floating display systems for augmented reality[J]. Applied Optics, 2012, 51(18): 4201-4209.
[12] Zhao W X, Wang Q H, Wang A H, et al. Autostereoscopic display based on two-layer lenticular lenses[J]. Optics Letters, 2010, 35(24): 4127-4129.
[13] Deng H, Wang Q H, Xiong Z L, et al. Magnified augmented reality 3D display based on integral imaging[J]. Optik-International Journal for Light and Electron Optics, 2016, 127(10): 4250-4253.
[14] 刘尧, 邓欢, 罗成高, 等. 基于光孔阵列的集成成像三维显示方法[J]. 光学学报, 2014, 34(9): 0910004.
[15] 唐文华, 李述利, 王君, 等. 一种基于集成成像生成计算全息图的方法[J]. 中国激光, 2014, 41(2): 0209022.
[16] 张光勇, 章鹤龄, 任永禄. RSP-I型红敏光致聚合物全息干板特点、性能及使用方法[Z/OL]. 北京: 首都师范大学, 1993[2016-05-05]. http://www.docin.com/p-1018783001.html.
[17] Yu M W. Opticalholography and its applications[M]. Beijing: Beijing Institute of Technology Press, 1996: 138-140.
[18] Zhang G Y, Zhang H L, Ren Y L. The features and application of red-sensitive photopolymer holographic dry plate[J]. Optical Technique, 1993, 19(5): 38-40.
[19] Ma X K, Zhang H Y, Mao W H. Characteristics of red sensitive photopolymer plate[J]. Physics Experimentation, 2005, 25(10): 40-42.
[20] Klein W R. Theoretical efficiency of Bragg devices[J]. Proceedings of the IEEE, 1966, 54(5): 803-804.
余文涛, 张汉乐, 邓欢, 王琼华, 李大海. 基于全息光学元件的增强现实3D显示系统[J]. 中国激光, 2016, 43(10): 1009001. Yu Wentao, Zhang Hanle, Deng Huan, Wang Qionghua, Li Dahai. Augmented Reality Three-Dimensional Display System Based on Holographic Optical Element[J]. Chinese Journal of Lasers, 2016, 43(10): 1009001.