集成成像三维显示系统显示性能的研究进展

赵星; 王芳; 杨勇; 方志良; 袁小聪

doi:10.3788/CO.20120503.0209

集成成像三维显示系统显示性能的研究进展

doi: 10.3788/CO.20120503.0209

南开大学现代光学研究所光学信息技术科学教育部重点实验室,天津 300071

基金项目:

国家973重点基础研究发展计划资助项目(No.2010CB327702)

详细信息

通讯作者:
赵星

中图分类号: TN27; O439
计量
- 文章访问数: 3733
- HTML全文浏览量: 604
- PDF下载量: 1339
- 被引次数: 0
出版历程
- 收稿日期: 2012-02-14
- 修回日期: 2012-03-16
- 刊出日期: 2012-06-10

Research progress of display performance of integral imaging three-dimensional display system

Key Laboratory of Optical Information Science and Technology of the Ministry of Education, Institute of Modern Optics,Nankai University,Tianjin 300071,China

摘要

摘要: 集成成像三维显示技术是利用透镜阵列获取和显示立体图像的一种三维显示技术。本文首先综述了集成成像三维显示系统的特点,考虑其系统性能主要受分辨率、景深和观看视场角的限制,对近年来集成成像三维显示系统在增大分辨率、景深和观看视场角方面的研究进展做了综合论述,比较分析了各种改进方法的优劣。最后,对我国集成成像三维显示技术的研究现状进行了总结,并简述了本研究小组在该领域取得的若干研究成果。
- 三维显示系统 /
- 集成成像 /
- 分辨率 /
- 景深 /
- 观看视场角
Abstract: Integral imaging technology is a three-dimensional display technology of picking up and displaying stereo images by using a lens array. For its wider applications, this paper overviews the characteristics of integral imaging three dimensional display systems. As the performance of integral imaging three-dimensional display system is limited by the resolution, depth and the viewing angle, the research progresses of enhancing the resolution, depth and the viewing angle in recent years are comprehensively discussed and the relative merits of various methods are compared and analyzed. At the same time, it gives the research present situation of the integral imaging three-dimensional display technology and describes the work by the author's research group in this field.
- three-dimensional display system /
- integral imaging /
- resolution /
- depth /
- viewing angle

HTML全文

参考文献(1)

[1] CHO M,DANESHPANAH M,JAVIDI B. Three-dimensional optical sensing and visualization using integral imaging[J]. Proc. IEEE,2011,99(4):556-575. [2] QI L,WANG Q H,LUO J Y,et al.. Autostereoscopic 3D projection display based on two lenticular sheets[J]. Chin. Opt. Lett.,2012,10(1):011101. [3] 孔令胜,南敬实,荀显超. 平面三维显示技术的研究现状[J]. 中国光学与应用光学 ,2009,2(2):112-118. KONG L S,NAN J S,XUN X C. Research status quo of flat 3D display technology[J]. Chinese J. Opt. Appl. Opt.,2009,2(2):112-118.(in Chinese) [4] 王琼华,王爱红. 三维立体显示综述[J]. 计算机应用 ,2010,30(3):579-588. WANG Q H,WANG A H. Survey on stereoscopic three-dimensional display[J]. J. Computer Application,2010,30(3):579-588.(in Chinese) [5] 谢宏斌,杨勇,赵星,等. 狭缝光栅、柱面透镜光栅及其新构型在三维显示中的应用[J]. 中国光学 ,2011,4(6):562-570. XIE H B,YANG Y,ZHAO X,et al.. Applications of parallax barrier, lenticular lens array and their modified structures to three-dimensional display[J]. Chinese Opt.,2011,4(6):562-570.(in Chinese) [6] WANG Q H,DENG H,JIAO T T. Imitating micro-lens array for integral imaging[J]. Chin. Opt. Lett.,2010,8(5):512-514. [7] KIM S C,KIM C K,KIM E S. Depth-of-focus and resolution-enhanced three-dimensional integral imaging with non-uniform lenslets and intermediate-view reconstruction technique[J]. 3D Research,2011,2(2):1-9. [8] ERDMANN L,GABRIEL K J. High-resolution digital integral photography by use of a scanning microlens array[J]. Appl. Opt.,2011,40(31):5592-5599. [9] JANG J S,JAVIDI B. Improved viewing resolution of three-dimensional integral imaging by use of nonstationary micro-optics[J]. Opt. Lett.,2002,27(5):324-326. [10] KISHK S,JAVIDI B. Improved resolution 3D object sensing and recognition using time multiplexed computational integral imaging[J]. Opt. Express,2003,11(26):3528-3541. [11] JANG J S,OH Y S,JAVIDI B. Spatiotemporally multiplexed integral imaging projector for large-scale high-resolution three-dimensional display[J]. Opt. Express,2004,12(4):557-563. [12] HONG S H,JAVIDI B. Improved resolution 3D object reconstruction using computational integral imaging with time multiplexing[J]. Opt. Express,2004,12(19):4579-4588. [13] KIM Y,JUNG J H,KANG J M,et al.. Resolution-enhanced three-dimensional integral imaging using double display devices / /Lasers and Electro-Optics Society,2007.LEOS 2007.The 20th Annual Meeting of the IEEE,Oct.21-25,2007:356-357. [14] KIM Y,KIM J,KANG J,et al.. Point light source integral imaging with improved resolution and viewing angle by the use of electrically movable pinhole array[J]. Opt. Express,2007,15(26):18253-18267. [15] LIM Y T,PARK J H,KWON K C,et al..Resolution-enhanced integral imaging microscopy that uses lens array shifting[J]. Opt. Express,2009,17(21):19253-19263. [16] WANG Q H,TAO Y H,ZHAO W X,et al.. A full resolution autostereoscopic 3D display based on polarizer parallax barrier[J]. Chin. Opt. Lett.,2010,8(1):22-23. [17] PARK J H,KIM J,KIM Y,et al.. Resolution-enhanced three-dimension/two-dimension convertible display based on integral imaging[J]. Opt. Express,2005,13(6):1875-1884. [18] LIAO H,DOHI T,IWAHARA M. Improved viewing resolution of integral videography by use of rotated prism sheets[J]. Opt. Express,2007,15(8):4814-4822. [19] PARK J S,HWANG D C,SHIN D H,et al.. Enhanced-resolution computational integral imaging reconstruction using an intermediate-view reconstruction technique[J]. Opt. Eng.,2006,45(11):117004. [20] PARK J S,HWANG D C,SHIN D H,et al.. Resolution-enhanced 3D image correlator using computationally reconstructed integral images[J]. Opt. Commun.,2007,276(1):72-79. [21] HYUN J B,HWANG D C,SHIN D H,et al.. Curved computational integral imaging reconstruction technique for resolution-enhanced display of three-dimensional object images[J]. Appl. Opt.,2007,46(31):7697-7708. [22] LEE K J,HWANG D C,KIM S C,et al.. Blur-metric-based resolution enhancement of computationally reconstructed integral images[J]. Appl. Opt.,2008,47(15):2859-2869. [23] SHIN D H,TAN C W,LEE B G,et al.. Resolution-enhanced three-dimensional image reconstruction by use of smart pixel mapping in computational integral imaging[J]. Appl. Opt.,2008,47(35):6656-6665. [24] PIAO Y,KIM E S. Resolution-enhanced reconstruction of far 3-D objects by using a direct pixel mapping method in computational curving-effective integral imaging[J]. Appl. Opt.,2009,48(34):H222-H230. [25] LEE B,JUNG S,MIN S W,et al.. Three-dimensional display by use of integral photography with dynamically variable image planes[J]. Opt. Lett.,2001,26(19):1481-1482. [26] JANG J S,JIN F,JAVIDI B. Three-dimensional integral imaging with large depth of focus by use of real and virtual image fields[J]. Opt. Lett.,2003,28(16):1421-1423. [27] CHOI H,PARK J H,HONG J,et al.. Depth-enhanced integral imaging with a stepped lens array or a composite lens array for three-dimensional display / /Lasers & Electro-Optics Society,2003.LEOS 2003. The 16th Annual Meeting of the IEEE,Oct. 27-28,2003,2:730-731. [28] JANG J S,JAVIDI B. Large depth-of-focus time-multiplexed three-dimensional integral imaging by use of lenslets with nonuniform focal lengths and aperturesizes[J]. Opt. Lett.,2003,28(20):1924-1926. [29] LEE B,MIN S W,JAVIDI B. Theoretical analysis for three-dimensional integral imaging systems with double devices[J]. Appl. Opt.,2002,41(23):4856-4865. [30] JUNG S,HONG J,PARK J H,et al.. Depth-enhanced integral-imaging 3D display using different optical path lengths by polarization devices or mirror barrier array[J]. J. SID,2004,12(4):461-467. [31] HONG J,PARK J H,JUNG S,et al.. Depth-enhanced integral imaging by use of optical path control[J]. Opt. Lett.,2004,29(15):1790-1792. [32] KIM Y,PARK J H,CHOI H,et al.. Depth-enhanced three-dimensional integral imaging by use of multilayered display devices[J]. Appl. Opt.,2006,45(18):4334-4343. [33] KIM Y,CHOI H,KIM J,et al.. Depth-enhanced integral imaging display system with electrically variable image planes using polymer-dispersed liquid-crystal layers[J]. Appl. Opt.,2007,46(18):3766-3773. [34] 王晓蕊,卜庆风,张冬阳,等. 三维集成成像景深提高方法的研究[J]. 激光与光电子学进展 ,2009,46(8):26-30. WANG X R,BU Q F,ZHANG D Y,et al.. Research on enhancement methods for depth of field of three-dimensional integral imaging[J]. Laser & Optoelectronics Progress,2009,46(8):26-30.(in Chinese) [35] PHAM D Q,KIM N,KWON K C,et al.. Depth enhancement of integral imaging by using polymer-dispersed liquid-crystal films and a dual-depth configuration[J]. Opt. Lett.,2010,35(18):3135-3137. [36] PARK J H,JUNG S,CHOI H,et al.. Integral imaging with multiple image planes using a uniaxial crystal plate[J]. Opt. Express,2003,11(16):1862-1875. [37] PARK C K,LEE S S,HWANG Y S. Depth-extended integral imaging system based on a birefringence lens array providing polarization switchable focal lengths[J]. Opt. Express,2009,17(21):19047-19054. [38] MANUEL M C,JAVIDI B,RAL M C,et al.. Integral imaging with improved depth of field by use of amplitude-modulated microlens arrays[J]. Appl. Opt.,2004,43(31):5806-5813. [39] CASTRO A,FRAUEL Y,JAVIDI B. Integral imaging with large depth of field using an asymmetric phase mask[J]. Opt. Express,2007,15(16):10266-10273. [40] BAGHERI S,JAVIDI B. Extension of depth of field using amplitude and phase modulation of the pupil function[J]. Opt. Lett.,2008,33(7):757-759. [41] RAUL M C,AMPARO P,GENARO S,et al.. Optically-corrected elemental images for undistorted Integral image display[J]. Opt. Express,2006,14(21):9657-9663. [42] TOLOSA A,MARTNEZ-CUENCA R,PONS A,et al.. Optical implementation of micro-zoom arrays for parallel focusing in integral imaging[J]. J. Opt. Soc. Am. A,2010,27(3):495-500. [43] ARAI J,KAWAI H,KAWAKITA M,et al.. Depth-control method for integral imaging[J]. Opt. Lett.,2008,33(3):279-281. [44] RAL M C,GENARO S,MANUEL M C,et al.. Enhanced depth of field integral imaging with sensor resolution constraints[J]. Opt. Express,2004,12(21):5237-5242. [45] PARK J H,KIM H R,KIM Y,et al.. Depth-enhanced three-dimensional-two-dimensional convertible display based on modified integral imaging[J]. Opt. Lett.,2004,29(23):2734-2736. [46] LEE B,JUNG S,PARK J H. Viewing-angle-enhanced integral imaging by lens switching[J]. Opt. Lett.,2002,27(10):818-820. [47] PARK J H,JUNG S,CHOI H,et al.. Viewing-angle-enhanced Integral Imaging by elemental image resizing and elemental lens switching[J]. Appl. Opt.,2002,41(32):6875-6883. [48] CHOI H,PARK J H,KIM J,et al.. Wide-viewing-angle 3D/2D convertible display system using two display devices and a lens array[J]. Opt. Express,2005,13(21):8424-8432. [49] KIM Y,KIM J,KANG J M,et al.. Point light source integral imaging with improved resolution and viewing angle by the use of electrically movable pinhole array[J]. Opt. Express,2007,15(26):18253-18267. [50] JUNG S,PARK J H,CHOI H,et al.. Wide-viewing integral three-dimensional imaging by use of orthogonal polarization switching[J]. Appl. Opt.,2003,42(14):2513-2520. [51] JUNG S,PARK J H,CHOI H,et al.. Viewing-angle-enhanced integral three-dimensional imaging along all directions without mechanical movement[J], Opt. Express,2003,11(12):1346-1356. [52] LEE B,JUNG S,PARK J H. 基于液晶偏振开关与液晶屏的三维集成成像[J]. 现代显示,2004(3):25-28,47. LEE B,JUNG S,PARK J H. Three-dimensional integral imaging using LCD and LC polarization switcher[J]. Advanced Display,2004(3):25-28,47.(in Chinese) [53] JANG J S,JAVIDI B. Three-dimensional synthetic aperture integral imaging[J]. Opt. Lett.,2002,27(13):1144-1146. [54] 王红霞,伍春洪,杨扬,等. 计算机生成三维全景图像研究现状与发展[J]. 计算机科学 ,2008,35(6):11-14. WANG H X,WU CH H,YANG Y,et al.. Research and development of computer generated integral image[J]. Computer Science,2008,35(6):11-14. [55] JANG J S,JAVIDI B. Improvement of viewing angle in integral imaging by use of moving lenslet arrays with low fill factor[J]. Appl. Opt.,2003,42(11):1996-2002. [56] MIN S W,JAVIDI B,LEE B. Enhanced three-dimensional integral imaging system by use of double display devices[J]. Appl. Opt.,2003,42(20):4186-4195. [57] KIM Y,PARK J H,CHOI H,et al.. Viewing-angle-enhanced integral imaging system using a curved lens array[J]. Opt. Express,2004,12(3):421-429. [58] KIM Y,PARK J H,MIN S W,et al.. Wide-viewing-angle integral three-dimensional imaging system by curving a screen and a lens array[J]. Appl. Opt.,2005,44(4):546-552. [59] MIN S W,KIM J,LEE B. Wide-viewing projection-type integral imaging system with an embossed screen[J]. Opt. Lett.,2004,29(20):2420-2422. [60] HYUN J B,SHIN D H,KIM E S. Viewing-angle-enhanced display of large-depth 3D images in curved projection integral imaging / /Proceedings of Asia Display 2007,Shanghai,China,Mar. 12-15,2007. [61] HYUN J,HWANG D C,SHIN D H,et al.. Curved projection integral imaging using an additional large-aperture convex lens for viewing angle improvement[J]. ETRI J.,2009,31(2):105-110. [62] SHIN S H,JAVIDI B. Viewing-angle enhancement of speckle-reduced volume holographic three-dimensional display by use of integral imaging[J]. Appl. Opt.,2002,41(26):5562-5567. [63] BAASANTSEREN G,PARK J H,KWON K C,et al.. Viewing angle enhanced integral imaging display using two elemental image masks[J]. Opt. Express,2009,17(16):14405-14417. [64] BAASANTSEREN G,PARK J-H,KIM N,et al.. Wide-viewing angle multi-layer integral imaging display[J]. Digital Holography and Three-Dimensional Imaging,Vancouver,Canada,Apr 30,2009. [65] KIM H,HAHN J,LEE B. The use of a negative index planoconcave lens array for wide-viewing angle integral imaging[J]. Opt. Express,2008,16(26):21865-21880. [66] JANG J Y,LEE H S,CHA S,et al.. Viewing angle enhanced integral imaging display by using a high refractive index medium[J]. Appl. Opt.,2011,50(7):B71-B76. [67] PARK G,HONG J,KIM Y,et al.. Enhancement of viewing angle and viewing distance in integral imaging by head racking[J]. Digital Holography and Three-Dimensional Imaging,Vancouver,Canada,Apr. 30,2009. [68] PARK G,JUNG J H,HONG K,et al.. Multi-viewer tracking integral imaging system and its viewing zone analysis[J]. Opt. Express,2009,17(20):17895-17908. [69] CHOI H,MIN S W,JUNG S,et al.. Multiple-viewing-zone integral imaging using a dynamic barrier array for three-dimensional displays[J]. Opt. Express,2003,11(8):927-932. [70] 贾甲,王涌天,刘娟,等. 计算全息三维实时显示的研究进展[J]. 激光与光电子学进展 ,2012,49(5):050002. JIA J,WANG Y T,LIU J,et al.. Progress of dynamic 3D display of the computer-generated hologram[J]. Laser Optoelectronics Progress,2012,49(5):050002.(in Chinese) [71] ZHANG H,XIE J H,LIU J,et al..Optical reconstruction of 3D images by use of pure-phase computer-generated holograms[J]. Chinese Opt. Lett.,2009,7(12):1101-1103. [72] 谢小燕,刘旭,林远芳. 体三维显示系统中基于几何近似法的灰度偏差研究[J]. 光学学报 ,2009,29(6):1508-1513. XIE X Y,LIU X,LIN Y F. Study on gray scale deviations in three-dimensional volumetric display system based on geometric approximation[J]. Acta Opt. Sinica,2009,29(6):1508-1513.(in Chinese) [73] 彭祎帆,李海峰,刘旭,等. 基于视场拼接的全视差三维显示系统[J]. 光子学报 ,2011,40(9):1405-1408. PENG Y F,LI H F,LIU X,et al.. A full-parallax compact three dimensional display system based on spliced view-field[J]. Acta Photonica Sinica,2011,40(9):1405-1408.(in Chinese) [74] 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) [75] 王爱红,王琼华,李大海,等. 立体显示中立体深度与视差图获取的关系[J]. 光学精密工程 ,2009,17(2):433-438. WANG A H,WANG Q H,LI D H,et al.. Relationship between stereo depth and parallax image captured in stereoscopic display[J]. Opt. Precision Eng.,2009,17(2):433-438.(in Chinese) [76] DENG H,WANG Q H,LI D H. The realization of computer generated integral imaging based on two step pickup method[J]. Photonics and Optoelectronic,2010,1:1-1. [77] 王芳,黎达,赵星,等. 集成成像三维显示系统立体深度的研究[J]. 中国激光 ,2011,38(s1):s109002. WANG F,LI D,ZHAO X,et al.. Study on the stereo depth of integral imaging three-dimensional display system[J]. Chinese J. Lasers,2011,38(s1):s109002.(in Chinese) [78] LI D,ZHAO X,YANG Y,et al.. Tunable viewing scope of three-dimensional integral imaging[J]. Appl. Opt.,2011,50(34):H230-H236. [79] 焦小雪,赵星,杨勇,等. 基于最佳纪录距离的三维集成成像光学获取技术[J]. 光学精密工程 ,2011,19(11):2805-2811. JIAO X X,ZHAO X,YANG Y,et al.. Optical acquiring technique of three-dimensional integral imaging based on optimal pick-up distance[J]. Opt. Precision Eng.,2011,19(11):2805-2811.(in Chinese) [80] 焦小雪,赵星,杨勇,等. 基于三维集成成像相机阵列获取的元素图像校正[J]. 中国激光 ,2012,39(3):0309001. JIAO X X,ZHAO X,YANG Y,et al.. Elemental images correction of camera array pick-up for three-dimensional integral imaging[J]. Chinese J. Lasers,2012,39(3):0309001.(in Chinese) [81] 袁小聪,徐于萍,杨勇,等. 基于相机阵列获取元素图像的集成成像抗串扰参数设计[J]. 光学精密工程 ,2011,19(9):2050-2056. YUAN X C,XU Y P,YANG Y,et al.. Design parameters of elemental images formed by camera array for crosstalk reduction in integral imaging[J]. Opt. Precision Eng.,2011,19(9):2050-2056.(in Chinese) [82] WANG X R,HE L Y,BU Q F. Performance characterization of integral imaging systems based on human vision[J]. Appl. Opt.,2009,48(2):183-188.

施引文献

附加信息(0)

访问统计