| 995 | 1 | 1 |
| 下载次数 | 被引频次 | 阅读次数 |
对代表性的偏振探测技术及其在军事领域中的主要应用给出了总结。首先,介绍了利用琼斯矩阵和穆勒矩阵进行偏振探测的基本原理;其次,就4种常见的偏振探测技术的实现方法及其优缺点进行了讨论,包括分时偏振成像技术和同时偏振成像技术(包括分振幅偏振成像、分孔径偏振成像、分焦平面偏振成像技术);然后,介绍了偏振探测技术在目标探测、图像去雾、导航、地雷探测等军事方面的典型应用;最后,指出了偏振探测技术目前存在的难点问题以及未来发展展望。
Abstract:Representative polarization detection technologies and its applications in military were summarized. Firstly, the basic principles of polarization detection using Jones matrix and Muller matrix were introduced. Secondly, four common polarization detection techniques, including the division-of-time polarization imaging as well as the division-of-amplitude polarization imaging, the aperture-divided polarization imaging and the division-of-focal-plane polarization imaging of the simultaneous polarization imaging, and their advantages and disadvantages were discussed. Then, typical applications of polarization detection technology in the military field, such as target detection, image dehazing, navigation and landmine detection, were introduced. Finally,the current difficulties and an outlook on the development of polarization detection technology were provided.
[1]李淑军,姜会林,朱京平,等.偏振成像探测技术发展现状及关键技术[J].中国光学,2013, 6(6):803-809.LI S J,JIANG H L,ZHU J P,et al.Development status and key technologies of polarization imaging detection[J]. Chinese Optics 2013, 6(6):803-809.
[2]姜会林,付强,段锦,等.红外偏振成像探测技术及应用研究[J].红外技术,2014,36(5):345-349.JIANG H L, FU Q, DUAN J, et al. Research on infrared polarization imaging detection technology and application[J]. Infrared Technology, 2014,36(5):345-349.
[3] JONES R C.A new calculus for the treatment of optical systems:Description and discussion of the calculus[J]. Journal of the Optical Society of America,1941,31(7):488-493.
[4] STOKES G G. On the change of refrangibility of light[J]. Philosophical Transactions of the Royal Society of London,1852,142:463-562.
[5]何启浩.斯托克斯矢量和穆勒矩阵在偏振光中的应用研究[J].西南民族大学学报(自然科学版),2018, 44(5):526-529.HE Q H.Application of Stokes vector and Mueller matrix in polarized light[J]. Journal of Southwest Minzu University(Natural Science Edition),2018,44(5):526-529.
[6] BROSSEAU C. Fundamentals of polarized light:A Statistical Optics Approach[M]. Hoboken, NJ,USA:John Wiley&Sons,Inc.,1998:210-211.
[7]戴万田,王锦津,谢欣,等.偏振探测技术的应用需求发展研究[J].光电技术应用,2023,38(5):6-12,82.DAI W T,WANG J J,XIE X,et al.Requirements and development of polarization detection technology[J]. Electro-Optic Technology Application,2023,38(5):6-12,82.
[8]罗海波,张俊超,盖兴琴,等.偏振成像技术的发展现状与展望[J].红外与激光工程,2022, 51(1):109-118.LUO H B,ZHANG J C,GAI X Q,et al.Development status and prospects of polarization imaging technology[J]. Infrared and Laser Engineering,2022,51(1):109-118.
[9]李智渊,翟爱平,冀莹泽,等.光学偏振成像技术的研究、应用与进展[J].红外与激光工程,2023,52(9):298-313.LI Z Y, ZHAI A P, JI Y Z, et al. Research,application and progress of optical polarization imaging technology[J]. Infrared and Laser Engineering,2023,52(9):298-313.
[10] GOLOUB P, CHEPFER H, HERMAN M, et al. Use of polarization for cloud study[C]//Proceeding of the Optical Engineering and Instrumentation. Washington, D. C., USA:SPIE, 1997,3121:330-341.
[11] BRéON F M, DESCHAMPS P Y. Optical and physical parameter retrieval from POLDER measurements over the ocean using an analytical model[J]. Remote Sensing of Environment, 1993, 43(2):193-207.
[12]莫春和,段锦,付强,等.国外偏振成像军事应用的研究进展(下)[J].红外技术,2014,36(4):265-270.MO C H, DUAN J, FU Q, et al. Review of polarization imaging technology for international military application(II)[J]. Infrared Technology,2014,36(4):265-270.
[13]王洪亮.中波红外光谱偏振成像技术及系统研究[D].长春:中国科学院大学(中国科学院长春光学精密机械与物理研究所),2018:62-66.WANG H L. Study on polarization imaging technology and system of medium-wave infrared spectropolarimetric imaging technology[D]. Changchun:University of Chinese Academy of Sciences(Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences), 2018:62-66.
[14]孙晓兵,乔延利,洪津.可见和红外偏振遥感技术研究进展及相关应用综述[J].大气与环境光学学报,2010,5(3):175-189.SUN X B,QIAO Y L,HONG J.Review of polarization remote sensing techniques and applications in the visible and infrared[J]. Journal of Atmospheric and Environmental Optics, 2010, 5(3):175-189.
[15] AZZAM R M A, DE A. Optimal beam splitters for the division-of-amplitude photopolarimeter[J].Journal of the Optical Society of America,A:Optics, Image Science, and Vision, 2003, 20(5):955-958.
[16] EI-SABA A M, AZZAM R M A. Design and analysis of a beam splitter for the equipartition of infrared input power[C]//SPIE’s International Symposium on Optical Science, Engineering, and Instrumentation. Washington, D. C., USA:SPIE,1999,3754:336-345.
[17] AZZAM R M A, SUDRADJAT F F. Singlelayer-coated beam splitters for the division-of-amplitude photopolarimeter[J]. Applied Optics, 2005,44(2):190-196.
[18]程敏熙,何振江,黄佐华.分振幅法偏振光斯托克斯参量测量系统[J].光电工程,2008,35(5):93-97.CHENG M X,HE Z J,HUANG Z H.Polarimeter system of stokes parameters based on divisionof-amplitude[J].Opto-Electronic Engineering,2008,35(5):93-97.
[19]殷玉龙,孙晓兵,宋茂新,等.分振幅型全Stokes同时偏振成像系统波片相位延迟误差分析[J].物理学报,2019,68(2):102-114.YIN Y L,SUN X B,SONG M X,et al.Phase delay error analysis of wave plate of division-ofamplitude full Stokes simultaneous polarization imaging system[J]. Acta Physica Sinica, 2019, 68(2):102-114.
[20]李松,张然,陈永台,等.分振幅偏振成像相机标定方法研究[J].光子学报,2020, 49(7):141-148.LI S, ZHANG R, CHEN Y T, et al. Calibration methods of amplitude-division polarization imaging camera[J]. Acta Photonica Sinica, 2020, 49(7):141-148.
[21]王琪,梁静秋,梁中翥,等.分孔径红外偏振成像仪光学系统设计[J].中国光学,2018,11(1):92-99.WANG Q, LIANG J Q, LIANG Z Z, et al.Design of decentered aperture-divided optical system of infrared polarization imager[J]. Chinese Optics,2018,11(1):92-99.
[22]刘尊辈,蔡毅,刘福平,等.分孔径紫外多波段成像光学系统设计[J].中国光学,2021, 14(6):1476-1485.LIU Z B,CAI Y,LIU F P,et al.Aperture-divided ultraviolet multiband imaging optical system[J].Chinese Optics,2021,14(6):1476-1485.
[23] NORDIN G P,MEIER J T,DEGUZMAN P C,et al.Micropolarizer array for infrared imaging polarimetry[J]. Journal of the Optical Society of America A,1999,16(5):1168-1174.
[24] ZHANG Z G, DONG F L, CHENG T, et al.Nano-fabricated pixelated micropolarizer array for visible imaging polarimetry[J].The Review of Scientific Instruments,2014,85(10):105002.
[25]李佳昕,白廷柱,崔志刚,等.像素偏振成像系统的耦合实现[J].红外与激光工程,2019, 48(9):119-125.LI J X, BAI T Z, CUI Z G, et al. Coupling implementation of pixel polarization imaging system[J].Infrared and Laser Engineering,2019,48(9):119-125.
[26] VAN DER LAAN J D, SCRYMGEOUR D A,KEMME S A, et al. Detection range enhancement using circularly polarized light in scattering environments for infrared wavelengths[J]. Applied Optics,2015,54(9):2266-2274.
[27] HARCHANKO J S, CHENAULT D B. Watersurface object detection and classification using imaging polarimetry[C]//Optics and Photonics 2005.Washington, D. C., USA:SPIE, 2005, 5888:588815.
[28]TYO J S, GOLDSTEIN D L, CHENAULT D B, et al. Review of passive imaging polarimetry for remote sensing applications[J].Applied Optics,2006,45(22):5453-5469.
[29] RATLIFF B M, LEMASTER D A, MACK R T,et al.Detection and tracking of RC model aircraft in LWIR microgrid polarimeter data[C]//SPIE Optical Engineering and Applications. Washington,D.C.,USA:SPIE,2011,8160:816002.
[30]王军,丁娜,李建军,等.红外偏振成像对伪装目标的探测识别研究[J].应用光学,2012, 33(3):441-445.WANG J, DING N, LI J J, et al. Infrared polarization imaging:Detection and recognition of camouflage target[J]. Journal of Applied Optics,2012,33(3):441-445.
[31]高天元,周扬.分振幅偏振成像实验装置的研究[J].长春理工大学学报(自然科学版),2017,40(3):9-12.GAO T Y, ZHOU Y. Experimental verification of simultaneous polarization imaging detection[J].Journal of Changchun University of Science and Technology(Natural Science Edition), 2017, 40(3):9-12.
[32]贺虎成.分孔径同时偏振成像光学系统的研究[D].苏州:苏州大学,2014:115-123.HE H C. Study on optical system of simultaneous and complete polarization imaging[D].Suzhou:Soochow University,2014:115-123.
[33] CHENAULT D B, PEZZANITI J L. Polarization imaging through scattering media[C]//International Symposium on Optical Science and Technology. Washington, D. C., USA:SPIE, 2000,4133:124-133.
[34] NAMER E,SHWARTZ S,SCHECHNER Y Y.Skyless polarimetric calibration and visibility enhancement[J].Optics Express,2009,17(2):472-493.
[35]赵永峰.水下分焦平面偏振成像系统及图像处理方法[D].大连:大连交通大学,2022:60-62.ZHAO Y F. Underwater division of focal plane polarization imaging system and image processing methods[D]. Dalian:Dalian Jiaotong University,2022:60-62.
[36] ROSSEL S,WEHNER R,et al.Rolarization vision inbees[J].Nature,1986,323:128-131.
[37] MA T,HU X P,ZHANG L L,et al.An evaluation of skylight polarization patterns for navigation[J].Sensors,2015,15(3):5895-5913.
[38] HEGEDU S R,AKESSON S,GáBOR H,et al.Polarization patterns of thick clouds:overcast skies have distribution of the angle of polarization similar to that of clear skies[J]. Journal of the Optical Society of America, A:Optics Image Science&Vision,2007,24(8):2347-2403.
[39] HEGEDU S R,AKESSON S,GáBOR H,et al.Anomalous celestial polarization caused by forest fire smoke:why do some insects become visually disoriented under smoky skies[J]. Applied Optics,2007,46(14):2717-2726.
[40]闫皓,梁建琦,唐军.大气偏振度PM2.5粒子浓度特性[J].科学技术与工程,2017, 17(13):107-114.YAN H,LIANG J Q,TANG J.The characteristics of atmospheric polarization and PM2.5 particle concentration[J].Science Technology and Engineering,2017,17(13):107-114.
[41]崔岩,张西光,周鑫昌,等.气溶胶对天空光偏振分布的影响[J].光学学报,2019,39(6):9-16..CUI Y, ZHANG X G, ZHOU X C, et al. Effect of aerosol on polarization distribution of sky light[J].Acta Optica Sinica,2019,39(6):9-16.
[42]周军,刘莹莹.基于自然偏振光的自主导航新方法研究进展[J].宇航学报,2009,30(2):409-414.ZHOU J, LIU Y Y. Research progress of polarized skylight navigation[J].Journal of Astronautics,2009,30(2):409-414.
[43] FORSSELL G,HALLBERG T.Calibrated sensitive polarization measurement methods in the regions 3~5μm and 8~12μm, corrected for contributions to the detector signal from the polarizer[C]//Proceedings of SPIE. Washington, D. C.,USA:SPIE,2002,4481:257-269.
[44] WANG X, XIA R Q, JIN W Q, et al. Technology progress of infrared polarization imaging detection[J]. Infrared and Laser Engineering, 2014(10):3175-3182.
[45]周强国,黄志明,周炜.偏振成像技术的研究进展及应用[J].红外技术,2021,43(9):817-828.ZHOU Q G, HUANG Z M, ZHOU W. Research progress and application of polarization imaging technology[J]. Infrared Technology, 2021, 43(9):817-828.
[46] DEAS R M,PLAYLE N A,LONG K J.Trial of a vehicle mounted UK electro-optic countermine sensor system as part of a UK/US collaborative program[C]//Defense and Security Symposium.Washington, D. C., USA:SPIE, 2007, 6553:655314.
基本信息:
DOI:
中图分类号:O436.3;TP391.41;E91
引用信息:
[1]李林,张国清,周战荣等.偏振探测成像技术研究进展及其军事应用[J].火箭军工程大学学报,2024,38(05):109-118.
基金信息:
火箭军工程大学青年基金(2021QN-B039)