Research progress in focal plane array for real-time laser three dimensional imaging
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摘要: 研究了应用于实时激光三维成像的焦平面阵列技术,介绍了目前国际上几种常用的焦平面阵列实现原理与技术特点,并对其优点与不足进行了分析,同时对表征焦平面阵列的主要性能指标以及其对最终成像系统的影响进行了定性分析。根据对现有技术的对比分析,提出基于雪崩光电二极管(APD)阵列和读出电路(ROIC)集成的探测器方案在灵敏度和作用距离等方面具有一定优势,是实现实时三维成像焦平面阵列较为理想的技术。作者认为在未来十几年内,激光三维成像焦平面阵列规模有望超过1 024 pixel1 024 pixel,像元尺寸可降低到15 m。Abstract: In this article, we introduce several main Focal Plane Array(FPA) structures used nowadays and try to find their advantages and shortcomings. Several main parameters used to describe the performance of FPA and their influences on system performance are described. On the analysis and comparison for existing FPA technologies, it suggests that the integrated detecting scheme based on a Avalanche Photodiode(APD) and a Read-out Integrated Circuit(ROIC) will be an ideal real-time three dimensional imaging technology due to its advantages in sensitivity and operation ranges. It also indicates that in the near future, the scale of FPA can exceed 1 024 pixel1 024 pixel with a pixel pitch of 15 m.
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[1] 郭裕兰,万建伟,鲁敏,等. 激光雷达目标三维姿态估计[J]. 光学 精密工程,2012,20(4):843-850. GUO Y L,WAN J W,LU M,et al.. Three Dimensional orientation estimation for ladar target[J].Opt. Precision Eng.,2012,20(4):843-850.(in Chinese) [2] 张健,张雷,曾飞,等. 机载激光3D探测成像系统的发展现状[J]. 中国光学,2011,4(3):213-232 ZHANG J,ZHANG L,ZENG F,et al.. Development status of airborne 3D imaging lidar systems[J]. Chinese Optics,2011,4(3):213-232.(in Chinese) [3] 乔培玉,何昕,魏仲慧,等.高斯滤波器在子弹三维图像特征提取中的应用[J]. 液晶与显示,2012,(5):708-712. QIAO P Y,HE X,WEI ZH H. Application of gaussian filter in extracting bullet feature of 3-D bullet image[J]. Chinese J. Liquid Crystals and Displays,2012,(5):708-712.(in Chinese) [4] 周娜,安志勇,谭清中. 基于激光雷达的形面扫描技术研究[J]. 光学与光电技术,2011,9(5):58-60. ZHOU N,AN ZH Y,TAN Q ZH. Research on profile measurement technology based on the laser radar[J]. Opt. Optoelectronic Technology,2011,9(5):58-60.(in Chinese) [5] 邢建芳,龚华军,张赵行,等. 三维数据场在扫描式体显示器中的可视化[J]. 液晶与显示,2012,(4):529-534. XING J F,GONG H J,ZHANG ZH X,et al.. Visualization of 3D datasets based on swept-volume display[J]. Chinese J. Liquid Crystals and Displays,2012,(4):529-534.(in Chinese) [6] LUAN X M. Experimental investigation of photonic mixer device and development of TOF 3D ranging systems based on PMD technology [D]. Siegen:University of Siegen,2001. [7] RINGBECK T,HAGEBEUKER B. A 3D time of flight camera for object detection [EB/OL].(2007-07-12) [2013-02-22].http://www.ifm.com/obj101D-Paper-PMS.pdf. [8] STONE W C,JUBERTS M,DAGALAKIS N,et al.. Performance analysis of next-generation LADAR for manufacturing, construction, and mobility [EB/OL].(2004-05-06) [2013-02-11].http://fire.nist.gov/bfrlpubs/buildO4/artO32.html. [9] AULL B F,LOOMIS A H, YOUNG D J,et al.. Geiger-mode avalanche photodiodes for three-dimensional imaging[J]. Lincoln Laboratory J.,2002,13(2):335-350. [10] DRIES J C,MARTIN T,HUANG W,et al.. InGaAs/InP avalanche photodiodes arrays for eye safe three-dimensional imaging[J]. SPIE,2003,5074:11-17. [11] YOUNGER R D,MCINTOSH K A,CHLUDZINSKI J W,et al.. Crosstalk analysis of integrated geiger-mode avalanche photodiode focal plane arrays [EB/OL].(2009-04-01) [2013-02-11].http://dspace.mit.edu/handle/1721.1/52684. [12] FIGER D F,LEE J,HANOLD B J,et al.. A photon-counting detector for exoplanet missions[J].SPIE,2011,8151:81510K [13] NICLASS C,FAVI C,KLUTER T,et al.. A 128 128 single-photon image sensor with column-level 10-bit time-to-digital converter array[J]. IEEE J. Solid-State Circuits,2008,43(12):2977-2989. [14] WILLIAMS G M.Limitations of geiger-mode arrays for flash LADAR applications[J].SPIE,2010,7684:768414. [15] NASA Space Shuttle Mission STS-127[EB/OL].[2013-02-22].http://www.nasa.gov/pdf/358018main-sts127-presskit.pdf. [16] de BORNIOL E,CASTELEIN P,GUELLEC F,et al.. A 320x256 HgCdTe avalanche photodiode focal plane array for passive and active 2D and 3D imaging[J]. SPIE,2011,8012:801232. [17] BORNIOL E,ROTHMAN J,GUELLEC F,et al.. Active Three-dimensional and thermal imaging with a 30μm pitch 320×256 HgCdTe avalanche photodiode focal plane array[J]. Opt. Eng.,2012,51(6):06305. [18] YOUMANS D G. Linear-mode avalanche photo-diode detectors with a quasi deterministic gain component:statistical model studies[J]. SPIE,2011,8037:803716 [19] JACK M,WEHNER J,EDWARDS J,et al.. HgCdTe APD-based linear-mode photon counting components and LADAR receivers[J]. SPIE,2011,8033:80330M. [20] BECK J D,SCRITCHFIELD R,MITRA P,et al.. Linear mode photon counting with the noiseless gain HgCdTe e-APD[J]. SPIE,2011,8033:80330N. [21] BALCERAK R,HORN S. Progress in the development of Vertically Integrated Sensor Arrays[J]. SPIE, 2005,5783:384-391. [22] MCMANAMON P F. Review of ladar:A historic, yet emerging, sensor technology with rich phenomenology[J]. Opt. Eng.,2012,51(6):060901. [23] GATT P,JOHNSON S,NICHOLS T. Geiger-mode avalanche photodiode ladar receiver performance characteristics and detection statistics[J]. Appl. Opt.,2009,48(17):3261-3276. [24] GATT P,JOHNSON S,NICHOLS T. Dead-time effects on Geiger-mode APD performance[J]. SPIE,2007,6550:65500I
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