[1]罗秀娟,马彩文,张羽,等.低轨道运动目标傅里叶望远镜发射器设计[J].深圳大学学报理工版,2011,28(No.4(283-376)):325-329.
 LUO Xiu-juan,MA Cai-wen,ZHANG Yu,et al.Design proposal of a Fourier telescopy transmitter for moving objects in low earth orbit[J].Journal of Shenzhen University Science and Engineering,2011,28(No.4(283-376)):325-329.
点击复制

低轨道运动目标傅里叶望远镜发射器设计()
分享到:

《深圳大学学报理工版》[ISSN:1000-2618/CN:44-1401/N]

卷:
第28卷
期数:
2011年No.4(283-376)
页码:
325-329
栏目:
光电工程
出版日期:
2011-07-20

文章信息/Info

Title:
Design proposal of a Fourier telescopy transmitter for moving objects in low earth orbit
文章编号:
1000-2618(2011)04-0325-05
作者:
罗秀娟马彩文张羽司庆丹
中国科学院西安光学精密机械研究所,西安 710119
Author(s):
LUO Xiu-juanMA Cai-wenZHANG Yuand SI Qing-dan
Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Science, Xi’an 710119, P.R.China
关键词:
傅里叶望远镜主动成像激光长基线干涉低轨道运动目标跟踪空间高分辨率空间探测
Keywords:
Fourier telescopyactive imaginglaserlong-baseline interferometrylow earth orbit satellitemoving target tracking systemhigh spatial resolutionspace exploration
分类号:
TH 743;TN 249
文献标志码:
A
摘要:
为高分辨率探测与识别空间低轨道运动目标,提出一套傅里叶望远镜发射器阵列配置方案及单个发射器设计方案.该发射器系统整合了大气畸变测量系统、反馈控制校正系统及目标跟踪系统;利用大气湍流波前矫正跟踪技术实现对快速运动目标的准确跟踪;通过同时发射多束干涉激光扫描目标的方法提高成像速度;对激光束干涉及其在湍流大气中斜程传播等情况进行计算机仿真.理论分析和仿真结果表明,该方案可满足低轨道运动目标快速成像对傅里叶望远镜发射器的设计要求.
Abstract:
For the purpose of using high-resolution to detect and identify low earth orbit (LEO) moving space objects,a proposal of the Fourier telescopy transmitter array disposition was presented, and a single transmitter was designed.The proposed transmitter system integrated the atmospheric aberration measurement system,the feedback control system, and the target tracking system. It used atmospheric turbulence wave-front correction and correlative tracking techniques to achieve accurate tracking of fast moving objects, simultaneously emitted multiple interference laser beams sweeping across the target to improve imaging speed, and carried out computer simulation on interference between laser beam pairs and laser propagation along slant paths through turbulence atmosphere.Theoretical analysis and simulation results show that the design from the proposal is reasonably feasible and meets the goal of the rapid LEO objects imaging on Fourier telescopy transmitter design.

参考文献/References:

[1] Holmes R B,Ma S,Bhowmik A,等.透过扰动媒介成像的合成孔径技术分析与仿真[J].美国光学学会杂志A辑:光学、图像科学与视觉,1996,13(2):351-364.(英文版)
[2] Holmes R B,Brinkley T.傅里叶望远镜深空目标图像重建[C]// 数字图像恢复与合成Ⅳ会议论文集.贝灵厄姆(美国):国际光学工程学会, 1999,3815:11-22.(英文版)
[3] Gamiz V L,Holmes R B,Czyzak S R,等.GLINT项目纵览及其潜在的科学任务[C]// 图像技术与望远镜会议论文集.贝灵厄姆(美国):国际光学工程学会, 2000,4091:304-315.(英文版)
[4] Mandrosov V I,Camiz V I.附加高阶噪声的强不均匀大气中的高分辨傅里叶望远镜成像[C]// 学大气传播和自适应系统VII论文集.贝灵厄姆(美国):国际光学工程学会,2004,5572:49-56.(英文版)
[5] Cuellar E L,Stapp J,Cooper J.傅里叶望远镜成像系统的实验室和外场试验验证[C]// 非传统成像会议论文集.圣地亚哥(美国):国际光学工程学会,2005,5896:58960D-1-58960D-15.(英文版)
[6] Mathis J,Stapp J,Cuellar E L.傅里叶望远镜成像系统接收单元外场试验性能[C]// 非传统成像会议论文集.圣地亚哥(美国):国际光学工程学会,2005,5896:58960F-1-58960F-12.(英文版)
[7] 康美玲,杨春平,吴健.基于傅里叶望远镜的不完全频谱图像的重建[C]// MIPPR 2009:自动目标识别与图像分析会议论文集.宜昌:国际光学工程学会,2009,7495:74954G-1-74954G-7.(英文版)
[8] 刘欣悦,董磊,王建立.稀疏采样傅里叶望远镜成像[J].光学精密工程,2010,18(3):521-527
[9] Stapp J,Spivey B,Chen L,等.低地球轨道目标傅里叶望远镜成像仿真[C]// 非传统成像Ⅱ论文集.圣地亚哥(美国):国际光学工程学,2006,6307:630701-1-630701-11.(英文版)
[10] Spivey B,Stapp J,Sandler D.用于快速运动目标的傅里叶望远镜相位闭合及目标重建算法[C]// 非传统成像Ⅱ论文集.圣地亚哥(美国):国际光学工程学会,2006,6307:630702-1-630702-16.(英文版)
[11] Cuellar E L,Cooper J,Mathis J,等.多光束傅里叶望远镜成像系统的实验室验证[C]// 非传统成像Ⅳ论文集.圣地亚哥(美国):国际光学工程学,2008,7094:70940G-1-70940-12.(英文版)
[12] 陈宝刚,张景旭,杨飞,等.傅里叶望远镜外场实验聚光镜子镜支撑模块的设计[J].中国光学与应用光学,2009,2(4):329-333.


[1] Holmes R B,Ma S,Bhowmik A,Greninger C,et al.Analysis and simulation of a synthetic-aperture technique for imaging through a turbulent medium[J].Journal of the Optical Society of America A:Optics,Image Science,and Vision, 1996,13(2):351-364.
[2] Holmes R B,Brinkley T.Reconstruction of images of deep space objects using Fourier telescopy[C]// Digital Image Recovery and Synthesis IV. Bellingham (USA):SPIE,1999,3815:11-22.
[3] Gamiz V L,Holmes R B,Czyzak S R,et al.GLINT program overview and potential science objectives[C]// Imaging Technology and Telescopes.Bellingham (USA):SPIE,2000,4091:304-315.
[4] Mandrosov V I,Camiz V I.High-resolution Fourier-telescopy imaging in strongly inhomogeneous atmosphere under high level of additive noises[C]// Optics in Atmospheric Propagation and Adaptive Systems VII.Bellingham (USA):SPIE,2004,5572:49-56.
[5] Cuellar E L,Stapp J,Cooper J.Laboratory and field experimental demonstration of a Fourier telescopy imaging system[C]// Unconventional Imaging.San Diego (USA):SPIE,2005,5896:58960D-1-58960D-15.
[6] Mathis J,Stapp J,Cuellar E Louis.Field experiment performance of the receiver elements for a Fourier telescopy imaging system[C]// Unconventional Imaging.San Diego (USA):SPIE,2005,5896:58960F-1-58960F-12.
[7] KANG Mei-ling,YANG Chun-ping,WU Jian.Reconstruction of uncompleted frequency spectrum images based on Fourier telescopy[C]// MIPPR 2009:Automatic Target Recognition and Image Analysis.Yichang:SPIE,2009,7495:74954G-1-74954G-7.
[8] LIU Xin-yue,DONG Lei,WANG Jian-li.Fourier telescopy imaging via sparse sampling[J].Optics and Precision Engineering,2010,18(3):521-527.(in Chinese)
[9] Stapp J,Spivey B,Chen L,et al.Simulation of a Fourier telescopy imaging system for objects in low earth orbit[C]// Unconventional Imaging Ⅱ.San Diego(USA):SPIE,2006,6307:630701-1-630701-11.
[10] Spivey B,Stapp J,Sandler D.Phase closure and object reconstruction algorithm for Fourier Telescopy applied to fast-moving targets[C]// Unconventional Imaging Ⅱ.San Diego(USA):SPIE,2006,6307:630702-1-630702-16.
[11] Cuellar E L,Cooper J,Mathis J,et al.Laboratory demonstration of a multiple beam Fourier telescopy imaging system[C]// Unconventional Imaging IV.San Diego (USA):SPIE,2008,7094:70940G-1-70940G-12.
[12] CHEN Bao-gang,ZHANG Jing-xu,YANG Fei,et al.Design of segment support module of collecting light mirror in Fourier telescope for field experiment[J].Chinese Journal of Optics and Applied Optics,2009,2(4):329-333.(in Chinese)

备注/Memo

备注/Memo:
收稿日期:2010-07-22;修回日期:2011-05-24
基金项目:中国科学院知识创新工程试点项目(o954961213)
作者简介:罗秀娟(1964-),女(汉族),江西省南康市人,中国科学院研究员.E-mail:xj_luo@opt.ac.cn
更新日期/Last Update: 2011-07-21