增强现实型近眼显示系统及其军事应用
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- 英文论文题名:Augmented Reality Near-Eye Display and Its Military Applications
- 论文作者:朱恩成 ; 韩剑 ; 钟子全 ; 李如意 ; 蒋超 ; 赵君
- 英文论文作者:ZHU En-cheng ; HAN Jian ; ZHONG Zi-quan ; LI Ru-yi ; JIANG Chao ; ZHAO Jun ; Science and Technology on Information Systems Engineering Laboratory ; Beijing Institute of Control and Electronic Technology
- 年:2017
- 作者机构:北京控制与电子技术研究所信息系统工程重点实验室;
- 论文关键词:近眼显示系统 ; 增强现实 ; 自由曲面棱镜 ; 光波导
- 英文论文关键词:Near-Eye Display System ; Augmented Reality ; Free-from Prism ; Optical Waveguide
- 会议召开时间:2017-07-03
- 会议录名称:第五届中国指挥控制大会论文集
- 语种:中文
- 分类号:E939
- 学会代码:ZHKZ
- 会议名称:第五届中国指挥控制大会
- 会议地点:中国北京
- 主办单位:中国指挥与控制学会
- 学会名称:中国指挥与控制学会
- 页数:6
- 文件大小:1999k
- 原文格式:D
- 会议级别:全国
摘要
本文通过调研各种国际领先的工程技术方案,介绍了增强现实型近眼显示系统的基本原理与发展方向;根据核心光学系统的区别,讨论了投影式、自由曲面棱镜式、自由空间反射式、光波导式等主流增强现实型近眼显示器的光学技术途径的差异;分析了该类型系统在测发控、战机火控、单兵作战、航天任务以及潜水导航等军事领域的应用前景。
The basic principle and development direction of the augmented reality near-eye display system are introduced by investigating various international leading engineering technology solutions; According to the difference of the core optical system, the projection type, the free-form surface prism type, the free space reflection type, the optical waveguide type of near-eye display are discussed; The application prospect of this type of system in military field such as launch and control system, fighter fire control, soldier combat, space mission and diving navigation is analyzed.
The basic principle and development direction of the augmented reality near-eye display system are introduced by investigating various international leading engineering technology solutions; According to the difference of the core optical system, the projection type, the free-form surface prism type, the free space reflection type, the optical waveguide type of near-eye display are discussed; The application prospect of this type of system in military field such as launch and control system, fighter fire control, soldier combat, space mission and diving navigation is analyzed.
引文
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[3]Li Hua,Zhang Xin,Shi Guangweiet al.Review and analysis of avionic helmet-mounted displays[J].Optical Engineering,2013,52(11):110901.
[4]郭功剑.数字头盔显示及其关键技术研究[D].浙江大学,2010.
[5]卢东杰.基于FFSP的大视场视透式头戴显示器光学系统的设计[D].电子科技大学,2011.
[6]Wilmington I.K.,Valera M.S.,Paper No 18.2:Waveguide-Based Display Technology[M].2013:278-280.
[7]Alexander A.,Optical waveguide technology and its application in head-mounted displays[M].2012:83830E.
[8]刘辉,郑臻荣,李海峰,等.半透膜阵列式平板显示设计[J].光电工程,2012,39(5):145-150.
[9]Kobayashi S.,Head-mounted display device[P]:Google Patents,2013.
[10]Choi Hong K.,14-2:Invited Paper:Enabling Technologies for Wearable Smart Headsets[M].2016:153-156.
[11]Sugawara Mitsuru,Suzuki Makoto,Miyauchi Nori,14-5L:Late-News Paper:Retinal Imaging Laser Eyewear with Focus-Free and Augmented Reality[M].2016:164-167.
[12]Schowengerdt Brian T.,Johnston Richard S.,Melville C.Davidet al,47.4:Invited Paper:3D Displays using Scanning Laser Projection[M].Blackwell Publishing Ltd,2012:640-643.
[13]Gao Chunyu,Lin Yuxiang,Hua Hong.Optical see-through head-mounted display with occlusion capability[J].Proceedings of SPIE Defense,Security\&Sensing—Head and helmet-mounted displays XIX:design and applications,2013,8735:87350F.
[14]Hoshi Hiroaki,Taniguchi Naosato,Morishima Hidekiet al,Off-axial HMD optical system consisting of aspherical surfaces without rotational symmetry[M].1996:234-242.
[15]Cheng Dewen,Wang Yongtian,Hua Honget al.Design of an optical see-through head-mounted display with a low f-number and large field of view using a freeform prism[J].Appl.Opt.,2009,48(14):2655-2668.
[16]Rolland J.,Thompson K.,See-through head worn displays for mobile augmented reality[M],2011.
[17]周海宪.头盔显示技术的发展[J].红外技术,2002,24(6):1-7.
[18]Sarayeddine K.,Mirza K.,Key challenges to affordable see-through wearable displays:the missing link for mobile AR mass deployment[M].International Society for Optics Photonics,2013:87200D.
[19]Kress Bernard,Shin Meimei,Diffractive and holographic optics as optical combiners in head mounted displays[M]:ACM,2013:1479-1482.
[20]Levola Tapani,Laakkonen Pasi.Replicated slanted gratings with a high refractive index material for in and outcoupling of light[J].Opt.Express,2007,15(5):2067-2074.
[21]Mukawa Hiroshi,Akutsu Katsuyuki,Matsumura Ikuo.et al,8.4:Distinguished Paper:A full color eyewear display using holographic planar waveguides[M]:SID,2008:89-92.
[2]Atac Robert,Low-cost helmet-mounted cueing system for A-10C[M],2009:732608.
[3]Li Hua,Zhang Xin,Shi Guangweiet al.Review and analysis of avionic helmet-mounted displays[J].Optical Engineering,2013,52(11):110901.
[4]郭功剑.数字头盔显示及其关键技术研究[D].浙江大学,2010.
[5]卢东杰.基于FFSP的大视场视透式头戴显示器光学系统的设计[D].电子科技大学,2011.
[6]Wilmington I.K.,Valera M.S.,Paper No 18.2:Waveguide-Based Display Technology[M].2013:278-280.
[7]Alexander A.,Optical waveguide technology and its application in head-mounted displays[M].2012:83830E.
[8]刘辉,郑臻荣,李海峰,等.半透膜阵列式平板显示设计[J].光电工程,2012,39(5):145-150.
[9]Kobayashi S.,Head-mounted display device[P]:Google Patents,2013.
[10]Choi Hong K.,14-2:Invited Paper:Enabling Technologies for Wearable Smart Headsets[M].2016:153-156.
[11]Sugawara Mitsuru,Suzuki Makoto,Miyauchi Nori,14-5L:Late-News Paper:Retinal Imaging Laser Eyewear with Focus-Free and Augmented Reality[M].2016:164-167.
[12]Schowengerdt Brian T.,Johnston Richard S.,Melville C.Davidet al,47.4:Invited Paper:3D Displays using Scanning Laser Projection[M].Blackwell Publishing Ltd,2012:640-643.
[13]Gao Chunyu,Lin Yuxiang,Hua Hong.Optical see-through head-mounted display with occlusion capability[J].Proceedings of SPIE Defense,Security\&Sensing—Head and helmet-mounted displays XIX:design and applications,2013,8735:87350F.
[14]Hoshi Hiroaki,Taniguchi Naosato,Morishima Hidekiet al,Off-axial HMD optical system consisting of aspherical surfaces without rotational symmetry[M].1996:234-242.
[15]Cheng Dewen,Wang Yongtian,Hua Honget al.Design of an optical see-through head-mounted display with a low f-number and large field of view using a freeform prism[J].Appl.Opt.,2009,48(14):2655-2668.
[16]Rolland J.,Thompson K.,See-through head worn displays for mobile augmented reality[M],2011.
[17]周海宪.头盔显示技术的发展[J].红外技术,2002,24(6):1-7.
[18]Sarayeddine K.,Mirza K.,Key challenges to affordable see-through wearable displays:the missing link for mobile AR mass deployment[M].International Society for Optics Photonics,2013:87200D.
[19]Kress Bernard,Shin Meimei,Diffractive and holographic optics as optical combiners in head mounted displays[M]:ACM,2013:1479-1482.
[20]Levola Tapani,Laakkonen Pasi.Replicated slanted gratings with a high refractive index material for in and outcoupling of light[J].Opt.Express,2007,15(5):2067-2074.
[21]Mukawa Hiroshi,Akutsu Katsuyuki,Matsumura Ikuo.et al,8.4:Distinguished Paper:A full color eyewear display using holographic planar waveguides[M]:SID,2008:89-92.
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