Crosstalk Simulation of LED Autostereoscopic Display Based on TracePro Software

ZENG Xiang-yao

doi:10.3788/fgxb20194007.0898

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Crosstalk Simulation of LED Autostereoscopic Display Based on TracePro Software

Device Fabrication and Physics | 更新时间：2020-08-12

- Crosstalk Simulation of LED Autostereoscopic Display Based on TracePro Software
- Chinese Journal of Luminescence Vol. 40, Issue 7, Pages: 898-906(2019)
- 作者机构：
  
  中国(福建)自由贸易试验区厦门片区管委会,福建厦门,361006
- 作者简介：
- 基金信息：
  
  863"
- DOI：10.3788/fgxb20194007.0898
  CLC： TN27
- Received：18 April 2019，
  
  Revised：03 May 2019，
  
  Published Online：05 May 2019，
  
  Published：05 July 2019
- 稿件说明：
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曾祥耀,. 基于TracePro的狭缝光栅自由立体LED显示器件的串扰仿真[J]. 发光学报, 2019,40(7): 898-906

ZENG Xiang-yao,. Crosstalk Simulation of LED Autostereoscopic Display Based on TracePro Software[J]. Chinese Journal of Luminescence, 2019,40(7): 898-906
曾祥耀,. 基于TracePro的狭缝光栅自由立体LED显示器件的串扰仿真[J]. 发光学报, 2019,40(7): 898-906 DOI： 10.3788/fgxb20194007.0898.

ZENG Xiang-yao,. Crosstalk Simulation of LED Autostereoscopic Display Based on TracePro Software[J]. Chinese Journal of Luminescence, 2019,40(7): 898-906 DOI： 10.3788/fgxb20194007.0898.

摘要

利用TracePro仿真软件对狭缝光栅自由立体LED显示器件的串扰进行仿真。首先，通过对狭缝光栅的设计原理分析，并基于LED模块的发光像素面积2 mm2 mm，黑矩阵的面积1 mm1 mm，设定最佳观看距离为5 m的两视点狭缝光栅自由立体LED显示器件，计算出光栅的狭缝宽度和挡光宽度都为2.87 mm。其次，利用这些参数，通过TracePro软件建立狭缝光栅自由立体LED显示器件的仿真模型，通过仿真运算得到左、右视频的光照度分布图，并通过归一化发现它们的光照度均匀性较差，观看时会导致"眩晕"现象。最后，借助自由立体显示器件串扰的测量方法，根据仿真左、右视频照度分布图的交叉曲线，定性分析了仿真结果，并结合Orign 9.1软件定量对仿真的串扰值进行计算，得出其串扰值为42.4%。这为进一步优化狭缝光栅自由立体LED显示器件的设计和性能提供了理论依据和技术支持。

Abstract

In this article

an optical software of TracePro was used to simulate the crosstalk of LED autostereoscopic display. Based on analyzing the design theory of two viewing-point LED autostereoscopic display

the LED model lighting pixel area is 2 mm2 mm

and the black matrix area is 1 mm1 mm. Assuming that the best view distance is 5 m

we calculate the silt and barrier width are both 2.87 mm. With these parameters

we can model the crosstalk of LED autostereoscopic display to compute and qualitatively analyze the illuminance of left and right view. With normalizing the illuminance

we found different uniformity distribution will cause dizzy phenomenon. Finally

according to the measurement method of crosstalk and the crosstalk of left and right simulation illuminance

we also get the crosstalk value of the LED autostereoscopic display

which is 42.4% obtained by Origin 9.1 software. This supplies the theory and technology method to improve the design and performance of LED autostereoscopic display.

关键词

Keywords

references

TSAI C H,CHEN W L,HSU W L. 32.4:Invited paper:the pursuit of high-definition 3D display technology[J]. SID Symp. Digest Tech. Pap., 2008,39(1):456-459.

JAVIDI B,OKANO F,SON J Y. Three-dimensional Imaging,Visualization,and Display [M]. New York:Springer, 2009:3-100.

MPHEP W,HUANG Y P,SHIEH H P D. Enhancing the brightness of parallax barrier based 3D flat panel mobile displays without compromising power consumption[J]. J. Disp Technol., 2010,6(2):60-64.

李继军,聂晓梦,李根生,等. 平板显示技术比较及研究进展[J]. 中国光学, 2018,11(5):695-710. LI J J,NIE X M,LI G S, et al.. Comparison and research progress of flat panel display technology[J]. Chin. Opt.,2018,11(5):695-710. (in Chinese)

SAVELJEV V,PALCHIKOVA I. Analysis of autostereoscopic three-dimensional images using multiview wavelets[J]. Appl. Opt., 2016,55(23):6275-6284.

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)

张雷,杨勇,赵星,等. 基于小发散角的投影式集成成像三维显示再现深度的拓展[J]. 光学精密工程, 2012,20(6):1159-1165. ZHANG L,YANG Y,ZHAO X, et al.. Enhancement of field depth for projection-type integral imaging three-dimensional display based on small diverging angle[J]. Opt. Precision Eng., 2012,20(6):1159-1165. (in Chinese)

GAO Q K,LIU J,HAN J, et al.. Monocular 3D see-through head-mounted display via complex amplitude modulation[J]. Opt. Express, 2016,24(15):17372-17383.

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]. Chin. Opt., 2011,4(6):562-570. (in Chinese)

CHEN J S,CHU D P. Realization of real-time interactive 3D image holographic display[Invited] [J]. Appl. Opt., 2016,55(3):A127-A134.

杨兰,曾祥耀,邹卫东,等. 基于插值算法的立体显示的图像合成与嵌入式实现[J]. 发光学报, 2016,37(10):1237-1244. YANG L,ZENG X Y,ZUO W D, et al.. Image synthesis and realization of embedded 3D display system based on interpretation algorithm[J]. Chin. J. Lumin., 2016,37(10):1237-1244. (in Chinese)

曾祥耀,赵焱,郭太良,等. 立体显示在虚拟/增强现实技术中的应用与发展[J]. 电视技术, 2017,41(9-10):135-140. ZENG X Y,ZHAO Y,GUO T L, et al.. Application and development of stereoscopic display in virtual/augmented reality technology[J]. Video Eng., 2017,41(9-10):135-140. (in Chinese)

薛钊鸿,孙梓瀚,成泽锐,等. 基于人眼检测优化的立体人机交互技术的研究[J]. 液晶与显示, 2018,33(11):958-964. XUE Z H,SUN Z H,CHENG Z R, et al.. 3 D human-machine interaction based on human eye detection[J]. Chin. J. Liq. Cryst. Disp., 2018,33(11):958-964. (in Chinese)

PARK S G,YAMAGUCHI Y,NAKAMURA J, et al.. Long-range 3D display using a collimated multi-layer display[J]. Opt. Express, 2016,24(20):23052-23062.

YAMAMOTO H,KIMURA T,MATSUMOTO S, et al.. Viewing-zone control of large full-color LED display for 3-D and digital signage[C]. Proceedings of 2009 IEEE Industry Applications Society Annual Meeting,Houston,TX,USA, 2009:1-7.

NISHIMURA H,ABE T,YAMAMOTO H, et al.. Development of 140-inch autostereoscopic display by use of full-color LED panel[C]. Proceedings of SPIE Light-emitting Diodes:Research,Manufacturing,and Applications XI,San Jose,California,United States, 2007:64861B.

顾升学,王琼华. 优势眼在光栅3D显示中的影响[J]. 液晶与显示, 2018,33(7):590-595. GU S X,WANG Q H. Influence of dominant eye in three-dimension lenticular display[J]. Chin. J. Liq. Cryst. Disp., 2018,33(7):590-595. (in Chinese)

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.

LV G J,WANG Q H,ZHAO W X, et al.. 3D display based on parallax barrier with multiview zones[J]. Appl. Opt., 2014,53(7):1339-1342.

LV G J,ZHAO W X,WANG J, et al.. Shared pixel based parallax barrier 3D display with high brightness[J]. Optik, 2014,125(8):1984-1986.

YAMAMOTO H,NISHIMURA H,ABE T, et al.. Large stereoscopic LED display by use of parallax barrier of aperture grille type (Invited Paper)[J]. Chin. Opt. Lett., 2004,12(6):060006-1-5.

YAMAMOTO H,HAYASAKI Y,NISHIDA N. Large stereoscopic LED display by use of a parallax barrier[M]. JAVIDI B,OKANO F,SON J Y. Three-dimensional Imaging,Visualization,and Display, New York,NY:Springer, 2009:183-206.

ZENG X Y,ZHOU X T,GUO T L, et al.. Crosstalk reduction in large-scale autostereoscopic 3D-LED display based on black-stripe occupation ratio[J]. Opt. Commun., 2017,389:159-164.

ZENG X Y,YANG L,ZHOU X T, et al.. Pixel arrangement optimization of two-dimensional light-emitting diode panel for low-crosstalk autostereoscopic light-emitting diode displays[J]. Opt. Eng., 2017,56(6):063104.

CHEN E G,CAI J,ZENG X Y, et al.. Ultra-large moir-less autostereoscopic three-dimensional light-emitting-diode displays[J]. Opt. Express, 2019,27(7):10355-10369.

Lambda Research Corporation. TracePro software[saftuare] [EB/OL].[2013-09-10]. http://www.lambdares.com.

张帅,文尚胜,马丙戌,等. 适用于植物照明的高均匀度LED面光源设计[J]. 发光学报, 2018,39(3):403-413. ZHANG S,WEN S S,MA B X, et al.. High uniformity LED panel-light for plant lighting[J]. Chin. J. Lumin., 2018,39(3):403-413. (in Chinese)

Lambda Research Corporation. TracePro User's Manual 7.0[M]. Littleton:Lambda Research Corporation, 2010.

李晶,李建军. 光栅式自由立体显示器空间视区建模与串扰计算[J]. 液晶与显示, 2017,32(5):394-401. LI J,LI J J. Modeling and crosstalk calculation methods of spatial viewing zones for the autostereoscopic display device based on parallax barrier or lenticular lens[J]. Chin. J. Liq. Cryst. Disp., 2017,32(5):394-401. (in Chinese)

夏振平,程成. 基于视觉显著性的立体显示灰阶串扰量化[J]. 液晶与显示, 2017,32(1):62-68. XIA Z P,CHENG C. Visual saliency based gray-to-gray crosstalk evaluation in stereoscopic displays[J]. Chin. J. Liq. Cryst. Disp., 2017,32(1):62-68. (in Chinese)

Information Display Measurements Standard.(Version 1.03),[standard]. Society for information display[EB/OL].[2013-05-15]. http://www.icdm-sid.org/.

KIM S K,YOON S K,YOON K H. Crosstalk minimization in autostereoscopic multiveiw 3D display by eye tracking and fusion (overlapping) of viewing zones[C]. Proceedings of Three-dimensional Imaging,Visualization,and Display 2012,Baltimore,Maryland,United States, 2012:838410.

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