军用自动立体显示技术研究
摘要
不需要立体眼镜的自动立体显示技术对军方而言非常重要,本项目主要集中在光学原理探索、样机的研制和测量方法研究。
首先研究了较为成熟的几种立体显示方法的光学原理,包括:屏后线光源、屏前遮光光栅、屏前柱透镜阵列等立体显示技术,并对它们进行了评价和比较。采用屏后线光源技术作为基本的技术方案,重点研究了照明平面到像素平面的距离、线光源的周期、左右眼的观察区域、光源的张角、光源的宽度、像素间隙、像素厚度、玻璃的折射率等因素对立体显示效果的影响,给出了理论公式;编写了模拟计算的程序,对立体显示效果进行仿真。然后设计了立体显示器。讨论了自动立体显示模块的光学结构,给出了部分设计图纸;研究了几种立体显示的信号格式和3D卡的基本结构。在此基础上,制作出了立体显示器。详细研究了立体显示模块制作过程中防眩层的处理以及TN盒的粘贴等具体工艺,给出了增效片的技术方案;介绍了屏加固技术。最后根据用户的要求进行了改造和加固;引入了“3D分离度”来反映立体效果,并对立体显示器进行了测试,给出了具体的测量结论。
With the autostereoscopic displays, the users can watch 3D pictures and movies, and no headgears needed, so they are very useful to militaries.
The disquisition was about the optical principles, the manufacture, and the measurements. Some kinds of technology about autostereoscopic displays have been studied, and then the Parallax Illumination has been selected, and investigated. Some expressions have been derived. To simulate the system, the ray tracing programs have developed. The structures of autostereoscopic displays have been designed, some drawings are presented. The stereo video signal and related circuits have been researched. Some details about manufacture have been bringing forward. At last the autostereoscopic displays have been finished. To satisfy the military, the displays have ameliorated. The displays have been measured. The 3D division is instead of the crosstalk, it is easy for measurement. The research is useful, and the autostereoscopic display can satisfy the mass production.
首先研究了较为成熟的几种立体显示方法的光学原理,包括:屏后线光源、屏前遮光光栅、屏前柱透镜阵列等立体显示技术,并对它们进行了评价和比较。采用屏后线光源技术作为基本的技术方案,重点研究了照明平面到像素平面的距离、线光源的周期、左右眼的观察区域、光源的张角、光源的宽度、像素间隙、像素厚度、玻璃的折射率等因素对立体显示效果的影响,给出了理论公式;编写了模拟计算的程序,对立体显示效果进行仿真。然后设计了立体显示器。讨论了自动立体显示模块的光学结构,给出了部分设计图纸;研究了几种立体显示的信号格式和3D卡的基本结构。在此基础上,制作出了立体显示器。详细研究了立体显示模块制作过程中防眩层的处理以及TN盒的粘贴等具体工艺,给出了增效片的技术方案;介绍了屏加固技术。最后根据用户的要求进行了改造和加固;引入了“3D分离度”来反映立体效果,并对立体显示器进行了测试,给出了具体的测量结论。
With the autostereoscopic displays, the users can watch 3D pictures and movies, and no headgears needed, so they are very useful to militaries.
The disquisition was about the optical principles, the manufacture, and the measurements. Some kinds of technology about autostereoscopic displays have been studied, and then the Parallax Illumination has been selected, and investigated. Some expressions have been derived. To simulate the system, the ray tracing programs have developed. The structures of autostereoscopic displays have been designed, some drawings are presented. The stereo video signal and related circuits have been researched. Some details about manufacture have been bringing forward. At last the autostereoscopic displays have been finished. To satisfy the military, the displays have ameliorated. The displays have been measured. The 3D division is instead of the crosstalk, it is easy for measurement. The research is useful, and the autostereoscopic display can satisfy the mass production.
引文
[1]Siegmund Pastoor, Matthias Wopking. 3-D Display: A Review of Current Technologies [J]. Displays, 1997, 17:100-110.
[2]Mark Finlay, Keith A. Blanton. Real-world fractals [M]. M&T Publishing. 1995. 121.
[3]Jesse B Eichenlaub. An Autostereoscopic Display for Use With a Personal Computer [J]. SPIE, Stereoscopic Displays and Applications, 1990, Vol. 1256: 156-163.
[4]Jesse B Eichenlaub. Further Advances in Autostereoscopic at Dimension Technology inc [J]. SPIE, Stereoscopic Displays and Applications Ⅲ, 1992, Vol. 1669:163-175
[5]王静端.军用虚拟现实模拟显示器[J].液晶与显示,1997,12(3):223—225.
[6]郑素花,陈宇,朴燕,等.一种低成本的立体显示头跟踪装置[J].液晶与显示,2000,15(3):202—208.
[7]Eichenlaub J B.Progress in autostereoscopic display technology at Dimension Technologies Inc[A].Proc SPIE(Vol 1457)[C]. 1991.290-301.
[8]Eichenlaub J B.A lightweight,compact 2D/3D autostereoscopic LCD backlight for games,monitor, and notebook application [A].Proc SPIE(Vol 3295) [C]. 1998. 180-185.
[9]Woodgate G J,Ezra D,Harrold J,etal. Autostereoscopic 3D display systems with observer tracking [J]. Signal Processing: Image Communication, 1998, 14: 131-145.
[10]Trucco E, Verri A.Introductory techniques for 3-D computer vision [M].New Jersey, USA:Prentice-Hall, 1998.134-176.
[11]Bos K J. Reducing the accommodation and convergence difference in stereoscopic three-dimensional displays by using correction lenses [J].Opt Eng,1998,37 (3):1078-1080.
[12]Redert A. 3-D scene reconstruction with viewpoint adapta tionon stereo displays [J]. IEEE Transactions on Circuits and Systems for Video Technology, 2000, 10 (4):550-562.
[13]http://mrl.nyu.edu/~perlin/courses/fal198/projects/autostereo.html
[14]http://www.business-sites.philips.corn/3dsolutions/about/Index.html
[15]http://www.media.mit.edu/research/ResearchPubWeb.pl?ID=0
[16]http://www.d-peak.com/display/bjzs.asp
[17]谢崇凯.TFT-LCD液晶显示器的工作原理,http://www.newmaker.com/disp_art/124/12061.html
[18]http://www.d-peak.com/display/bgqd.asp
[19]http://www.agpartsworldwide.com/commerce/info/repair.jsp;jsessionid BD7AD5EBF23A439D6036C7F5FEE62859?czuid=1160809764799
[20]GJB 546A-1996 电子及电气元件试验方法
[21]GJB 1543-1992 军用光学仪器验收规范
[22]GB/T 5080.1-1986 设备可靠性试验 总要求
[23]GB/T5080.2-1986 设备可靠性试验试验 周期设计导则
[24]GJB 150.1-86 军用设备环境试验方法 总则
[25]GJB 150.2-86 军用设备环境试验方法 低气压(高度)试验
[26]GJB 150.3-86 军用设备环境试验方法 高温试验
[27]GJB 150.4-86 军用设备环境试验 低温试验
[28]GJB 150.5-86 军用设备环境试验方法 温度冲击试验
[29]GJB 150.6-86 军用设备环境试验方法 温度—高度试验
[30]GJB 150.7-86 军用设备环境试验方法 太阳辐射试验
[31]GJB 150.8-86 军用设备环境试验方法 淋雨试验
[32]GJB 150.9-86 军用设备环境试验方法 湿热试验
[33]GJB 150.10-86 军用设备环境试验方法 霉菌试验
[34]GJB 150.11-86 军用设备环境试验方法 盐雾试验
[35]GJB 150.12-86 军用设备环境试验方法 砂尘试验
[36]GJB 150.13-86 军用设备环境试验方法 爆炸性大气试验
[37]GJB 150.14-86 军用设备环境试验方法 浸渍试验
[38]GJB 150.15-86 军用设备环境试验方法 加速度试验
[39]GJB 150.16-86 军用设备环境试验方法 振动试验
[40]GJB 150.17-86 军用设备环境试验方法 噪声试验
[41]GJB 150.18-86 军用设备环境试验方法 冲击试验
[42]GJB 150.19-86 军用设备环境试验方法 温度—湿度—高度试验
[43]GJB 150.21-87 军用设备环境试验方法 风压试验
[44]GJB 150.22-87 军用设备环境试验方法 积冰/冻雨试验
[45]GJB 150.23-91 军用设备环境试验方法 倾斜和摇摆试验
[46]GJB 150.24-92 军用设备环境试验方法 温度—湿度—振动—高度试验
[47]GJB 150.25-92 军用设备环境试验方法 振动—噪声—温度试验
[48]GJB 360-87 电子及电气元件试验方法
[49]GJB 368-87 装备维修性通用规范
[50]GJB 1407-1992 可靠性增长试验
[51]GJB 151A-1997 军用设备和分系统电磁发射和敏感度要求
[52]GJB 152A-1997 军用设备和分系统电磁发射和敏感度测量
[53]GJB 1389-1992 系统电磁兼容性要求
[54]GJB 2646-1996 军用计算机安全评估准则
[55]GJB 179A-1996 计数抽样检查程序及表
[56]GJB 3404-1998 电子元器件选用管理要求
[57]MIL-STD-462D 电磁干扰特性测量
[58]http://www.cnpdb.com/doc/2006-08/1156609904d1608.shtml
[59]阮卫泓,吴蔚华,液晶显示屏(LCD)的亮度启动特性,http://www.tirt.gov.cn/CN/News/2005-12/EnableSite_ReadNews627191135612800.html
[60]WILLIAMS. Techniques illuminate backlight LCDs with high efficiency [J]. EDN Jan., 1994, 6:89-90, 94.
[61]王元庆,CCFL的亮度特性及其驱动电路分析,液晶与显示[J], 2004年6月,202-207
[62]王元庆,脉宽调制亮度调节方式下冷阴极荧光灯性能的实验研究[J],发光学报,25卷第4期,455-459。
[63]WILLIAMS. Designing supplies for powering LCD backlighting [J]. EDN Oct., 1992, 29:125-136.
[64]YANA T, HANZAWA F, WATANABE Y. An intelligent inverter for a high-power LCD backlight [J]. Journal of the SID, 1999, 7(3) :163-166.
[65]王元庆.机载液晶显示器的光学特性分析[J].现代显示.2002; No1.15-20
[66]总装备部情报所内部资料。
[67]孙春雷 有源液晶显示器加固技术探讨[J].湖南轻工业高等专科学校学报.2002年14卷4期,20-24.
[68]邵喜斌.液晶显示技术的最新进展[J].液晶与显示,2000,15(3):303-305.
[69]陈颖慧,刘雪峰.液晶显示技术及其在现代军事中的应用[J].兵工自动化,2001,20(4):203-206.
[70]Hopper, Darrel G. Cockpit display requirements & specification [J]. Proceeding of SPIE-The ISOE, 1993; 1988:64-73
[71]Hopper, Darrel G. Requirements for AML CDs in U.S military applications[J], proceedings of SPIE The ISOE, 1995;2462:130-141
[72]Buford T; George S; Altadonna Lynn P; Blowers Dan. F-15 air navigation multiple indicator (ANMD prototype) development program [J]. Proceedings of SPIE-The I S O E, 1995; 2462:211-216
[73]Farrell J F: Wright J C. High performance AM-LCD designs for military/severe environment[C]. In: Proceedings of the 1995 2nd Int Workshop on AMLCD. 123-124
[74]Moil Yumi; Tanahashi Kohsei; Tsuji Satoshi. Quantitative evaluation of visual performance of liquid crystal displays[C]. Proceedings of SPIE Algorithms and Systems for Optical Information Processing Ⅳ, 11/2000; 4113:242-249
[75]Lawrence E Tannas Evolution of Flat-Panel Display. Proceedings of the [J]IEEE, April 1994; 82(4):123-129.
[76]Kalluri Sarma, William Hancock. Adapting AMLCDs for Cockpit Applications [C]. In:SID, 2000 Int Symposium, Seminar & Exhibition 281-288.
[77]信息产业部 计算机用液晶显示器通用规范
[2]Mark Finlay, Keith A. Blanton. Real-world fractals [M]. M&T Publishing. 1995. 121.
[3]Jesse B Eichenlaub. An Autostereoscopic Display for Use With a Personal Computer [J]. SPIE, Stereoscopic Displays and Applications, 1990, Vol. 1256: 156-163.
[4]Jesse B Eichenlaub. Further Advances in Autostereoscopic at Dimension Technology inc [J]. SPIE, Stereoscopic Displays and Applications Ⅲ, 1992, Vol. 1669:163-175
[5]王静端.军用虚拟现实模拟显示器[J].液晶与显示,1997,12(3):223—225.
[6]郑素花,陈宇,朴燕,等.一种低成本的立体显示头跟踪装置[J].液晶与显示,2000,15(3):202—208.
[7]Eichenlaub J B.Progress in autostereoscopic display technology at Dimension Technologies Inc[A].Proc SPIE(Vol 1457)[C]. 1991.290-301.
[8]Eichenlaub J B.A lightweight,compact 2D/3D autostereoscopic LCD backlight for games,monitor, and notebook application [A].Proc SPIE(Vol 3295) [C]. 1998. 180-185.
[9]Woodgate G J,Ezra D,Harrold J,etal. Autostereoscopic 3D display systems with observer tracking [J]. Signal Processing: Image Communication, 1998, 14: 131-145.
[10]Trucco E, Verri A.Introductory techniques for 3-D computer vision [M].New Jersey, USA:Prentice-Hall, 1998.134-176.
[11]Bos K J. Reducing the accommodation and convergence difference in stereoscopic three-dimensional displays by using correction lenses [J].Opt Eng,1998,37 (3):1078-1080.
[12]Redert A. 3-D scene reconstruction with viewpoint adapta tionon stereo displays [J]. IEEE Transactions on Circuits and Systems for Video Technology, 2000, 10 (4):550-562.
[13]http://mrl.nyu.edu/~perlin/courses/fal198/projects/autostereo.html
[14]http://www.business-sites.philips.corn/3dsolutions/about/Index.html
[15]http://www.media.mit.edu/research/ResearchPubWeb.pl?ID=0
[16]http://www.d-peak.com/display/bjzs.asp
[17]谢崇凯.TFT-LCD液晶显示器的工作原理,http://www.newmaker.com/disp_art/124/12061.html
[18]http://www.d-peak.com/display/bgqd.asp
[19]http://www.agpartsworldwide.com/commerce/info/repair.jsp;jsessionid BD7AD5EBF23A439D6036C7F5FEE62859?czuid=1160809764799
[20]GJB 546A-1996 电子及电气元件试验方法
[21]GJB 1543-1992 军用光学仪器验收规范
[22]GB/T 5080.1-1986 设备可靠性试验 总要求
[23]GB/T5080.2-1986 设备可靠性试验试验 周期设计导则
[24]GJB 150.1-86 军用设备环境试验方法 总则
[25]GJB 150.2-86 军用设备环境试验方法 低气压(高度)试验
[26]GJB 150.3-86 军用设备环境试验方法 高温试验
[27]GJB 150.4-86 军用设备环境试验 低温试验
[28]GJB 150.5-86 军用设备环境试验方法 温度冲击试验
[29]GJB 150.6-86 军用设备环境试验方法 温度—高度试验
[30]GJB 150.7-86 军用设备环境试验方法 太阳辐射试验
[31]GJB 150.8-86 军用设备环境试验方法 淋雨试验
[32]GJB 150.9-86 军用设备环境试验方法 湿热试验
[33]GJB 150.10-86 军用设备环境试验方法 霉菌试验
[34]GJB 150.11-86 军用设备环境试验方法 盐雾试验
[35]GJB 150.12-86 军用设备环境试验方法 砂尘试验
[36]GJB 150.13-86 军用设备环境试验方法 爆炸性大气试验
[37]GJB 150.14-86 军用设备环境试验方法 浸渍试验
[38]GJB 150.15-86 军用设备环境试验方法 加速度试验
[39]GJB 150.16-86 军用设备环境试验方法 振动试验
[40]GJB 150.17-86 军用设备环境试验方法 噪声试验
[41]GJB 150.18-86 军用设备环境试验方法 冲击试验
[42]GJB 150.19-86 军用设备环境试验方法 温度—湿度—高度试验
[43]GJB 150.21-87 军用设备环境试验方法 风压试验
[44]GJB 150.22-87 军用设备环境试验方法 积冰/冻雨试验
[45]GJB 150.23-91 军用设备环境试验方法 倾斜和摇摆试验
[46]GJB 150.24-92 军用设备环境试验方法 温度—湿度—振动—高度试验
[47]GJB 150.25-92 军用设备环境试验方法 振动—噪声—温度试验
[48]GJB 360-87 电子及电气元件试验方法
[49]GJB 368-87 装备维修性通用规范
[50]GJB 1407-1992 可靠性增长试验
[51]GJB 151A-1997 军用设备和分系统电磁发射和敏感度要求
[52]GJB 152A-1997 军用设备和分系统电磁发射和敏感度测量
[53]GJB 1389-1992 系统电磁兼容性要求
[54]GJB 2646-1996 军用计算机安全评估准则
[55]GJB 179A-1996 计数抽样检查程序及表
[56]GJB 3404-1998 电子元器件选用管理要求
[57]MIL-STD-462D 电磁干扰特性测量
[58]http://www.cnpdb.com/doc/2006-08/1156609904d1608.shtml
[59]阮卫泓,吴蔚华,液晶显示屏(LCD)的亮度启动特性,http://www.tirt.gov.cn/CN/News/2005-12/EnableSite_ReadNews627191135612800.html
[60]WILLIAMS. Techniques illuminate backlight LCDs with high efficiency [J]. EDN Jan., 1994, 6:89-90, 94.
[61]王元庆,CCFL的亮度特性及其驱动电路分析,液晶与显示[J], 2004年6月,202-207
[62]王元庆,脉宽调制亮度调节方式下冷阴极荧光灯性能的实验研究[J],发光学报,25卷第4期,455-459。
[63]WILLIAMS. Designing supplies for powering LCD backlighting [J]. EDN Oct., 1992, 29:125-136.
[64]YANA T, HANZAWA F, WATANABE Y. An intelligent inverter for a high-power LCD backlight [J]. Journal of the SID, 1999, 7(3) :163-166.
[65]王元庆.机载液晶显示器的光学特性分析[J].现代显示.2002; No1.15-20
[66]总装备部情报所内部资料。
[67]孙春雷 有源液晶显示器加固技术探讨[J].湖南轻工业高等专科学校学报.2002年14卷4期,20-24.
[68]邵喜斌.液晶显示技术的最新进展[J].液晶与显示,2000,15(3):303-305.
[69]陈颖慧,刘雪峰.液晶显示技术及其在现代军事中的应用[J].兵工自动化,2001,20(4):203-206.
[70]Hopper, Darrel G. Cockpit display requirements & specification [J]. Proceeding of SPIE-The ISOE, 1993; 1988:64-73
[71]Hopper, Darrel G. Requirements for AML CDs in U.S military applications[J], proceedings of SPIE The ISOE, 1995;2462:130-141
[72]Buford T; George S; Altadonna Lynn P; Blowers Dan. F-15 air navigation multiple indicator (ANMD prototype) development program [J]. Proceedings of SPIE-The I S O E, 1995; 2462:211-216
[73]Farrell J F: Wright J C. High performance AM-LCD designs for military/severe environment[C]. In: Proceedings of the 1995 2nd Int Workshop on AMLCD. 123-124
[74]Moil Yumi; Tanahashi Kohsei; Tsuji Satoshi. Quantitative evaluation of visual performance of liquid crystal displays[C]. Proceedings of SPIE Algorithms and Systems for Optical Information Processing Ⅳ, 11/2000; 4113:242-249
[75]Lawrence E Tannas Evolution of Flat-Panel Display. Proceedings of the [J]IEEE, April 1994; 82(4):123-129.
[76]Kalluri Sarma, William Hancock. Adapting AMLCDs for Cockpit Applications [C]. In:SID, 2000 Int Symposium, Seminar & Exhibition 281-288.
[77]信息产业部 计算机用液晶显示器通用规范