[1] LEITH E N,UPATNIEKS J. Reconstructed wavefronts and communication theory[J]. J. Opt. Soc. Am.,1962,52(10):1123-1130.
[2] MASAHIRO Y,HIROAKI S,TOSHIO H,et al.. Automatic recording method for holographic three-dimensional animation[J]. J. Opt. Soc. Am.,1992,A9(7):1200-1205.
[3] KETCHEL B P,HEID C A,WOOD G L,et al.. Three-dimensional color holographic display[J]. Appl. Opt.,1999,38(29):6159-6166.
[4] 姜太平,沈春林,谭皓. 真三维立体显示技术[J]. 中国图象图形学报 ,2003,8(4):361-366. JIANG T P,SHEN CH L,TAN H. Overview of the true three-dimension volumetric display technologies[J]. J. Image and Graphics,2003,8(4):361-366.(in Chinese)
[5] PARK J H,HONG K H,LEE B H. Recent progress in three-dimensional information processing based on integral imaging[J]. Appl. Opt.,2009,48(34):H77-H94.
[6] FUMIO O,JUN A,MASAHIRO K. Wave optical analysis of integral method for three-dimensional images[J]. Opt. Lett.,2007,32(4):364-366.
[7] LIAO H,TAKEYOSHI D,KEISUKE N. Autostereoscopic 3D display with long visualization depth using referential viewing area based integral photography[J]. Visualization Computer Graphics,2010,17(11):1690-1701.
[8] PIAO Y. Cross-interference reduction using spatial mapping for integral imaging //Computer Sci. Information Technol.(ICCSIT),2010 3rd IEEE International Conference on,July 9-11,2010,Chengdu,China,2010:212-216.
[9] CHOI H,PARK J,KIM J. Wide-viewing-angle 3D/2D convertible display system using two display devices and a lens array[J]. Opt. Express,2005,13(21):8424-8432.
[10] SON J Y,JAVIDI B. Three-dimensional imaging methods based on multiview images[J]. Display Technol.,2005,1(1):125-140.
[11] JOHNSON R B,JACOBSEN G A. Advances in lenticular lens arrays for visual display[J]. SPIE,2005,5874:587401.
[12] 周磊,陶宇虹,王琼华,等.立体显示用柱面透镜光栅的设计[J]. 光子学报 ,2009,38(1):30-33. ZHOU L,TAO Y H,WANG Q H,et al.. Design of lenticular lens in autostereoscopic display[J]. Acta Photonica Sinica,2009,38(1):30-33.(in Chinese)
[13] SEXTON I. Parallax barrier display systems //Stereoscopic Television IEEE Colloquium on,Oct 15,1992,London,UK,1992:5/1-5/5.
[14] PARK D H,KIM K G,LEE C H,et al.. Lenticular stereoscopic imaging and displaying techniques with no special glasses . Proc. of IEEE International Conference on Image ProcessingICIP'95,Oct 23-26,1995,Washington,USA,1995,3:137-140.
[15] SON J Y,SAVELJEV V V,KIM J S,et al.. Viewing zones in three-dimensional imaging systems based on lenticular, parallax-barrier, and microlens-array plates[J]. Appl. Opt.,2004,43(26):4985-4992.
[16] CHEN C H, HUANG Y P,CHUANG S C,et al.. Liquid crystal panel for high efficiency barrier type autostereoscopic three-dimensional displays[J]. Appl. Opt.,2009,48(18):3446-3454.
[17] HIROTSUGU Y,MAKOTO K,SYUJI M,et al.. Enlargement of viewing area of stereoscopic full-color led display by use of a parallax barrier[J]. Appl. Opt.,2002,41(32):6907-6919.
[18] HARUO I,MINORU Y,DAISUKE T,et al.. 50-inch autostereoscopic full-color 3D TV display system[J]. SPIE,1992,1669:176-185.
[19] TAO Y H,WANG Q H,GU J,et al.. Autostereoscopic three-dimensional projector based on two parallax barriers[J]. Opt. Lett.,2009,34(20):3220-3222.
[20] ZHAO W X,WANG Q H,WANG A H,et al.. Autostereoscopic display based on two-layer lenticular lenses[J]. Opt. Lett.,2010,35(24):4127-4129.
[21] 朱燕林,陈瑞改,谢佳,等. 光栅式自由立体显示器中莫尔条纹的形成规律[J]. 液晶与显示 ,2009,24(6):911-915. ZHU Y L,CHEN R G,XIE J,et al.. Principle of Morié fringe in autostereoscopic display based on parallax barrier and lenticular lens[J]. Chinese J. Liquid Crystals and Displays,2009,24(6):911-915.(in Chinese)
[22] WANG Q H,TAO Y H,LI D H,et al.. 3D autostereoscopic liquid crystal display based on lenticular lens[J]. Chinese J. Electron Devices,2008,31(1):296-298.
[23] WANG Q H,LI X F,ZHOU L,et al.. Cross-talk reduction by correcting the subpixel position in a multiview autostereoscopic three-dimensional display based on a lenticular sheet[J]. Appl. Opt.,2011,50(7):B1-B5.
[24] HIDEKI M,HIROYASU N,NAOSATO T,et al.. Rear-cross-lenticular 3D display without eyeglasses[J]. SPIE,1998,3295:193-202.
[25] JUN A,FUMIO O,MASAHIRO K,et al.. Integral three-dimensional television using a 33-megapixel imaging system[J]. J. Display Technol.,2010,6(10):422-430.
[26] YUICHI T,TAKAFUMI K,KEITA T,et al.. TransCAIP:A live 3D TV system using a camera array and an integral photography display with interactive control of viewing parameters[J]. IEEE T. Vis. Comput. Gr.,2009,15(5):841-852.
[27] WANG Q H,DENG H,JIAO T T,et al.. Imitating micro-lens array for integral imaging[J]. Chinese Opt. Lett.,2010,8(5):512-514.
[28] KIM S S,SON K H,SAVELJEV V V,et al.. Printed 3D multi-view images[J]. J. Opt. Society Korea,2001,5(1):29-31.
[29] SON J Y,SAVELJEV V V,KWACK K D,et al.. Characteristics of pixel arrangements in various rhombuses for full-parallax three-dimensional image generation[J]. Appl. Opt.,2006,45(12):2689-2696.
[30] SON J Y,SAVELJEV V V,JAVID B,et al.. A method of building pixel cells with an arbitrary vertex angle[J]. Opt. Eng.,2005,44(2):024003.
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