应用光学
 
首页 |  关于杂志 |  作者园地 |  编委会 |  征订启事 |  联系我们 |  产研合作 |  新闻公告 | 光电动态 | 
English
应用光学 2011, Vol. 32 Issue (6) :1059-1066    DOI:
光电系统与工程 最新目录 | 下期目录 | 过刊浏览 | 高级检索 << Previous Articles | Next Articles >>
水下目标光电探测技术及其进展
陈超;杨鸿儒;吴磊;黎高平
西安应用光学研究所,陕西 西安 710065
CHEN Chao; YANG Hong-ru; WU Lei; LI Gao-ping
Xi-an Institute of Applied Optics, Xi-an 710065, China

Download: PDF (1802KB)   HTML (1KB)   Export: BibTeX or EndNote (RIS)      Supporting Info
文章导读 null
摘要 随着电子技术、激光技术和信号处理技术的发展,光电探测技术应用于水下目标探测方面的研究重新成为热点。介绍了距离选通、激光线扫描、条纹管成像、载波调制、布里渊散射、偏振差分成像技术的原理、特点以及国内外发展现状,重点分析和比较了国内外已有水下目标光电探测系统的性能水平和应用前景,指出水下目标光电探测技术的最新进展以及发展趋势。
Service
把本文推荐给朋友
加入我的书架
加入引用管理器
Email Alert
RSS
作者相关文章
陈超
杨鸿儒
吴磊
黎高平
关键词水下目标   光电探测   距离选通   激光线扫描   条纹管成像     
Abstract: With the developments of electronics, laser and signal processing, electro-optical systems for underwater targets detection is becoming an extensively investigated subject. The technical scheme, status, typical systems for underwater target detection with electro-optical technology were summarized,especially for range-gated imaging, laser line scanning and streak tube imaging technologies. The recent developments and trends in underwater targets detection were introduced. It is proved that the electro-optical detection technology has great potential in underwater target detection.
Keywordsunderwater target,   electro-optical detection,   range-gated,   laser line scanning,   streak tube imaging     
通讯作者 陈超(1980-),男,重庆开县人,工程师,博士研究生,主要从事光学测试技术等方面的研究工作。     Email: cyrus8081@163.com
引用本文:   
陈超, 杨鸿儒, 吴磊等 .水下目标光电探测技术及其进展[J]  应用光学, 2011,V32(6): 1059-1066
CHEN Chao, YANG Hong-Ru, WU Lei etc .Underwater target detection with electro-optical system[J]  Journal of Applied Optics, 2011,V32(6): 1059-1066
链接本文:  
http://www.yygx.net/CN/     或     http://www.yygx.net/CN/Y2011/V32/I6/1059
 
[1] DAI Rui,GONG Wen-ping,SHI Jin-wei, et al. Submerged objects detection based on Brillouin scattering[J]. Laser & Optoelectronics Progress. 2008,45(2):64-68.(in Chinese with an English abstract)
[2] ROWE M P, PUGH E N, JR., et al. Polarizationdifference imaging: a biologically inspired technique for observation through scattering media[J]. Opt. Lett.,1995,20(6):608-610.
[3] DUNTLEY S Q. Light in the sea[J]. J. Opt. Soc. Am.,1963,53:214-233.
[4] TYO J S, ROWE M P, PUGH E N, et al. Target detection in optically scattering media by polarization-difference imaging[J]. Appl. Opt., 1996,35(11): 1855-1870.
[5] LLOYD J M, TUBRIDY L H. Notional U.S. Navy ocean optical environmental measurement requirements[J]. SPIE, 2001, 4488:8-12.
[6] TULLDAHL H M, STEINVALL K O. Analytical waveform generation from small objects in lidar bathymetry[J]. Appl. Opt., 1999, 38(6): 1021-1039.
[7] CAIMI F M. Technical challenges and recent developments in underwater imaging[J]. SPIE 2383:408-418.
[8] ZANEVELD J R V. Robust underwater visibility parameter[J]. Opt. Express,2003,11(23): 2997-3009.
[9] STETTNER R, BAILEY H.Staring underwater laser radar(SULAR) 3-D imaging[J]. SPIE, 2001,4377:57-64.
[10] FEIGELS V I, KOPILEVICH Y I. Russian airborne lidar systems:comparative analysis and new ideas[J]. SPIE, 1999, 3761:130-141.
[11] FEIGELS V J. Lidars for oceanological research: Criteria for comparison, main limitations, perspectives[J]. SPIE, Ocean Optics Xl,1992,1750:473-484.
[12] WEBER V L. A new method for the observation of underwater objects through rough sea surface[J]. SPIE,6615:66150J-1-9.
[13] DOLINA I S, DOLIN L S, LEVIN I M, et al. Inverse problems of lidar sensing of the ocean[J]. SPIE, 6615:66150C-1-10.
[14] STEINVALL O, ANDERSSON P, ELMQVIST M. Image quality for range-gated systems during different ranges atmospheric conditions[J]. SPIE,2006, 6396: 639607-1-17.
[15] VOLLMERHAUSEN R, JACOBS E, DEVITT N, et al. Modeling the target acquisition performance of laser-range-gated imagers[J]. SPIE,2003, 5076:101-111.
[16] KULPT J, GARVIS D, KENNEDY R, et al. Development and testing of a synchronous-scanning underwater imaging system capable of rapid two-dimensional frame imaging[J]. Appl. Opt., 1996,32(19): 3520-3530.
[17] 郑冰,孙骁禾,粟京. 一种水下激光成像的新方法[J].中国海洋大学学报,2006,36(1):119-122.
ZHENG Bing, SUN Xiao-He, SU Jing. A new underwater laser imaging method[J]. Periodicai of Ocean University of China, 2006,36(1):119-122.(in Chinese with an English abstract)
[18] 张博,刘智深,丁田夫.水下激光线扫描探测系统的设计及试验[J].青岛海洋大学学报,2004,34(4):655-661.
ZHANG Bo,LIU Zhi-shen,DING Tian-fu. Design and experiment of an underwater laser line scanning system[J]. Periodicai of Ocean University of China, 2004,34(4):655-661.(in Chinese with an English abstract)
[19] GLECKLER A D. Multiple slit streak tube imaging lidar(MS-STIL) applications[J]. SPIE, 2000,4035:266-278.
[20] OSOFSKY S T. Characterization of a vertical blurring effect unique to streak tube imaging lidar[J]. SPIE,2002,4488:1-7.
[21] 孙剑峰,郜键,魏靖松,等. 条纹管激光成像雷达水下探测成像研究进展[J]. 红外与激光工程,2010,39(5):811-814.
SUN Jian-feng, GAO Jian, WEI Jing-song, et al. Research development of under-water detection imaging based on streak tube imaging lidar[J]. Infrared and Laser Engineering, 2010,39(5):811-814.(in Chinese with an English abstract)
[22] FOURNIER G R, BONNIER D, FORAND J L. et al. Range-gated underwater laser imaging system[J]. Opt. Engineering, 1993, 32(9):2185-2190.
[23] MCLEAN E A, BURRIS H R, JR., et al. Short-pulse range-gated optical imaging in turbid water[J]. Appl. Opt., 1995, 34(21):4343-4351.
[24] BUSCK J. Underwater 3-D optical imaging with a gated viewing laser radar[J]. Optical Engineering, 2005,44(11):116001-1-7.
[25] WEIDEMANN A, FOURNIER G R,FORAND L,et al. In harbor underwater threat detection/identification using active imaging[J]. SPIE,2005,5780:59-70.
[26] 刘广荣, 黄睿, 金伟其, 等.水下探测光电成像技术及其进展[J]. 光学技术,2004,30(6):732-737.
LIU Guang-rong, HUANG Rui, JIN Wei-qi, et al. Recent developments in underwater imaging technique [J]. Optical Technique, 2004,30(6):732-737.(in Chinese with an English abstract)
[27] 孙健,张晓晖,葛卫龙,等.距离选通激光水下成像系统的门控信号对图像质量的影响[J].光学学报,2009,29(8):2185-2190.
SUN Jian, ZHANG Xiao-hui, GE Wei-long, et al. Relation between imaging quality and gate-control signal of underwater range-gated imaging system[J].Acta Optica Sinica,2009,29(8):2185-2190.(in Chinese with an English abstract)
[28] 李燕,杨鸿儒,王学武,等.距离选通变增益光电倍增管探测系统的设计[J].应用光学,2009:30(6):1040-1044
[29] LI Yan, YANG Hong-ru, WANG Xue-wu, et al. Design of range-gated gain-control photomultiplier [J].Journal of Applied Optics,2009,30(6):1040-1044.(in Chinese with an English abstract) 浏览
[30] 陈超,杨鸿儒,吴磊,等. 基于距离选通成像系统的水下目标探测技术研究[J]. 应用光学,2011,36(4):753-757
CHEN Chao, YANG Hong-ru, WU Lei, et al. Research of underwater objects detection using range-gated Imaing system[J]. Applied Optics, 2011,36(4):753-757.(in Chinese with an English abstract)
[31] 刘宇,郭城,张保民. 三代像增强器的高速选通控制设计[J]. 南京理工大学学报,2010,34(1):131-135.
LIU Yu, GUO Cheng, ZHANG Bao-min. Design of high-speed gated circuit for third image intensifier[J]. Journal of Nanjing University of Science and Technology, 2010,34(1):131-135.(in Chinese with an English abstract)
[32] 张毅,柏连发,陈钱,等.循环步进延时距离选通水下微光三维成像[J]. 南京理工大学学报,2007,31(6):753-757.
ZHANG Yi, BAI Lian-fa, CHEN Qian, et al. Circular step advance delay gate-ranged underwater 3D imaging[J]. Journal of Nan jing University of Science and Technology, 2007,31(6):753-757.(in Chinese with an English abstract)
[33] 杨述斌,彭复员. 激光水下距离选通成像门控实验研究[J].激光杂志,2010,31(3):10-11.
YANG Shu-bin, PENG Fu-yuan. Gating-control experiment scheme design for laser underwater range gate imaging system[J]. Laser Journal, 2010,31(3):10-11. (in Chinese with an English abstract)
[34] 张威,杨克成,傅博,等. 基于图像亮度特性统计的水下距离选通成像自动增益控制方法[J]. 光学与光电技术,2010,8(4):52-55.
ZHANG Wei, YANG Ke-cheng, FU Bo, et al. A method of AGC based on image illumination characteristic statistics for underwater range-gated imaging systems[J].Optics&Optoelectronic Technology, 2010,8(4):52-55.(in Chinese with an English abstract)
[35] MULLEN L, HERCZFELD P R, CONTARINO V M. Modulated pulse LIDAR system for shallow underwater target detection[J]. IEEE, 1994, 14(6): 835-839.
[36] MULLEN L, CONTARINO V M, LAUXA A, et al. Modulated laser line scanner for enhanced underwater imaging[J]. SPIE, 1999, 3761: 2-9.
[37] MULLEN L J, ZEGE E P, KATSEV I L, et al. Modulated lidar system:Experiment vs.theory[J]. SPIE, 2001,4488: 25-35.
[38] PELLEN F, OLIVARD P, GUERN Y, et al. Radiofrequency modulation on optical carrier for target detection enhancement in sea-water[J]. SPIE, 2001,4488: 13-24.
[39] 戴瑞,弓文平,石锦卫,等.基于布里渊散射的水下目标探测[J]. 激光与光电子学进展,2008,45(2):64-68.
[40] DAI Rui,GONG Wen-ping,SHI Jin-wei, et al. Submerged objects detection based on Brillouin scattering[J]. Laser & Optoelectronics Progress. 2008,45(2):64-68.(in Chinese with an English abstract)
[41] ROWE M P, PUGH E N, JR., et al. Polarizationdifference imaging: a biologically inspired technique for observation through scattering media[J]. Opt. Lett.,1995,20(6):608-610.
[42] TYO J S, ROWE M P, PUGH E N, et al. Target detection in optically scattering media by polarization-difference imaging[J]. Appl. Opt., 1996,35(11): 1855-1870.
[43] STETTNER R, BAILEY H.Staring underwater laser radar(SULAR) 3-D imaging[J]. SPIE, 2001,4377:57-64.
[1] 翟洋,朱日宏,沈华,顾金良.多光谱瞬态测温计用于动力发射系统火焰测试[J]. 应用光学, 2011,32(4): 698-704
[2] 陈超,杨鸿儒,黎高平,吴磊,俞兵,杨斌,吴宝宁,张博妮,吴李鹏.基于距离选通成像系统的水下目标探测技术研究[J]. 应用光学, 2011,32(4): 664-666
[3] 王刚,徐强,刘洋,王虎,梁晓东 ,李艳,陈志学.激光辐照引起的材料温度场和热应力场的瞬态分布[J]. 应用光学, 2011,32(4): 801-805
[4] 范大鹏, 鲁亚飞, 范世珣,洪华杰,张智永.光电探测伺服系统设计与制造:挑战与对策[J]. 应用光学, 2011,32(3): 377-384
[5] 刘海波.光电预警探测技术研究[J]. 应用光学, 2011,32(1): 45-48
[6] 徐立君,蔡红星,李昌立,毕娟,金光勇,张喜和.强激光辐照下光电探测器响应性能的研究[J]. 应用光学, 2010,31(6): 1018-1022
[7] 杨耿,安宝林,薛晋生,刘宇,范燕平.基于“猫眼效应”的狙击手光电探测仪[J]. 应用光学, 2010,31(5): 860-864
[8] 肖雅婷, 陈哲, 张凌童, 张军, 覃家荣, 潘昊.基于侧边抛磨光纤的全光纤在线光功率监测器[J]. 应用光学, 2010,31(4): 620-625
[9] 李燕, 杨鸿儒, 王学武, 李旭东, 吴磊, 俞兵.距离选通变增益光电倍增管探测系统的设计[J]. 应用光学, 2009,30(6): 1040-1044
[10] 胡志强;姚合宝;蒋军彪;王松伟;朱冠芳.激光陀螺光电探测器光窗的设计[J]. 应用光学, 2008,29(4): 576-579
[11] 宗思光;王江安;王雨虹;苗海.激光声源特性研究及海洋应用[J]. 应用光学, 2008,29(3): 408-411
[12] 刘全喜;齐文宗;郝秋龙;赵方东.激光辐照光伏型光电探测器热效应的有限元分析[J]. 应用光学, 2007,28(3): 275-279
[13] 李健军;郑小兵;张伟.基于纠缠光子方法测量光电探测器量子效率的研究[J]. 应用光学, 2007,28(2): 216-220
[14] 刘凌云;黄德修;刘小英;龚荣洲.阵列光纤在牙色测量系统中的应用[J]. 应用光学, 2005,26(3): 23-26
[15] 冯俊艳;冯其波;匡萃方.高精度激光三角位移传感器的技术现状[J]. 应用光学, 2004,25(3): 33-36
Copyright 2010 by 应用光学