Recent progress in aerial electro-optic payloads and their key technologies

[1] 吴东法.无人机载侦察雷达系统发展浅析 .(2005-08-04) http://www.defence.org.cn/article-13-31535.html. [2] 刘洵,王国华,毛大鹏,等. 军用飞机光电平台的研发趋势与技术剖析[J]. 中国光学与应用光学,2009,2(4):269-288. LIU X,WANG G H,MAO D P,et al.. Developing trend and technological analysis of warplane optoelectronic platforms[J]. Chinese J. Opt. Appl. Opt.,2009,2(4):269-288.(in Chinese) [3] 尚玉全,曾云,腾涛,等. CMOS图像传感器及其研究[J]. 半导体技术,2004,29(8):19-24. SHANG Y Q,ZENG Y,TENG T,et al.. CMOS image sensor and its research[J]. Semiconductor Technology,2004,29(8):19-24.(in Chinese) [4] PETRIE G,WALKER A S. Airborne digital imaging technology:a new overview[J]. The Photogrammetric Record,2007,22(119):203-225. [5] GORIN B A. Slide oblique real-time orthophotography with the 9k×9k digital framing camera[J]. SPIE,2003,5109:86-97. [6] MATHEWS B. An ultra high resolution, electro-optical framing camera for reconnaissance and other applications using a 9216 by 9216 pixel, wafer scale, focal plane array[J]. SPIE,1998,3431:144-154. [7] AMRAeS M J G. Raytheon AN/AAS-52 Multispectral Targeting System A(MTS-A) . Jane's Electro-Optic Systems 2008-2009.14th ed. Virginia:Jame's Information Group Inc.,2008-2009:636-637. [8] AMRAeS M J G. Raytheon AN/DAS-1 Multispectral Targeting System B(MTS-B) . Jane's Electro-Optic Systems 2008-2009.14th ed. Virginia:Jame's Information Group Inc.,2008-2009:637-638. [9] DALY M. GA-ASI MQ-1B and RQ-1A Predator . Jame's Unmanned Aerial Vehicles and Targets ISSUE31-2008.Virginia:Jane's Information Group Inc.,2008:273-277. [10] DALY M. GA-ASI MQ-9B Reaper, Predator B and Mariner . Jame's Unmanned Aerial Vehicles and Targets ISSUE31-2008.Virginia:Jane's Information Group Inc.,2008:278-282. [11] AMRAeS M J G. Lockheed martin F-35 Electro-Optical Targeting System(EOTS) . Jane's Electro-Optic Systems 2008-2009.14th ed. Virginia:Jame's Information Group Inc.,2008-2009:522-523. [12] AMRAeS M J G. Goodrich DB-110 dual-band reconnaissance system . Jane's Electro-Optic Systems 2008-2009.14th ed. Virginia:Jame's Information Group Inc.,2008-2009:578-579. [13] IYENGAR M,LANGE D. The Goodrich 3rd generation DB-110 system:operational on tactical and unmanned aircraft[J]. SPIE,2006,6209:620909. [14] LANGE D,IYENHAR M,MAVER L,et al.. The Goodrich 3rd generation DB-110 system:successful flight test on the F-16 aircraft[J]. SPIE,2006,6546:654607. [15] LENGE D,ALBRAMS W,IYENGAR M,et al.. The Goodrich DB-110 system:multi-band operation today and tomorrow[J]. SPIE,2003,5109:22-36. [16] BEUVILLE E,ACTON D,CORRALES E,et al.. High performance large infrared and visible astronomy arrays for low background applications:instruments performance data and future developments at raytheon[J]. SPIE,2007,6660:6660CB. [17] KING D F,GRAHAM J S,KENNEDY A M,et al.. 3rd-generation MW/LWIR sensor engine for advanced tactical systems[J]. SPIE,2008,6940:69402R. [18] GAULFIELD J,FLETCHER C L,GRAHAM R W,et al.. Advanced IRFPAs for next generation sensors[J]. SPIE,2004,5406:178-183. [19] FISCHER R E,SIEGEL L R,KORNISKI R J,et al.. New developments in optical correction for non-spherical windows and domes[J]. SPIE,1994,2286:471-479. [20] MANOLAKIS D,MARDEN D,SHAW G A. Hyperspectral image processing for automatic target detection applications[J]. Lincoln Lab. J.,2003,14(1):79-116. [21] LARROQUE S. Stabilisation for image quality[J]. SPIE,2002,4824:66-71. [22] MASTER M K. Inertially stabilized platforms for optical imaging systems[J]. IEEE Contr. Syst. Mag.,2008,28(1):47-64. [23] COOK L G. Pointable optical system with cude optics having a short on-gimbal path lengt: US,20090237784 . 2009-09-24. [24] OWENS J. GPUs:Engines for future high performance computing .(2004-11-30) http://www.ece.ucdavis.edu/~jowens/talks.owens-hpec04-gpgpu.pdf. [25] 杨培根 .国外激光雷达的发展 .(2008-06-19) http://www.defence.org.cn/article-1-43656.html. [26] 倪树新. 新体制成像激光雷达发展评述[J]. 激光与红外,2006(S1):732-736. NI SH X. Review on development of the new imaging laser radar systems[J]. Laser & Infrared,2006(S1):732-736.(in Chinese) [27] GSCHWENDTNER A B,KEICHER W E. Development of coherent laser radar at Lincoln Laboratory[J]. Lincoln Lab. J.,2000,12(2):383-396. [28] MARINO R M,DAVIS W R,JIGSAW J. A foliage-penetrating 3D imaging laser radar system[J]. Lincoln Lab. J.,2005,15(1):23-36. [29] CHO P,ANDERSON H,HATCH R,et al.. Real-time 3D ladar imaging[J]. Lincoln Lab. J.,2006,16(1):147-164.