购买
下载掌阅APP,畅读海量书库
立即打开
畅读海量书库
扫码下载掌阅APP

参考文献

[1]G J Kunz.ARTeam:Advanced ray tracing with Earth atmospheric models[C].Proc.of SPIE,2002,4718:397-404.

[2]陈福胜,裴晓黎.浅析舰用光电探测系统的几个问题[J].舰船科学技术.2002,5(24):28-33.

[3]Gerard J Kunz,Marcel M Moerman,et al.EOSTAR-an electro-optical sensor performance model for predicting atmospheric refraction,turbulence,and transmission in the marine surface layer[C].Proc.of SPIE.2004,5237:81-93.

[4]Hammel,S and N Platt.Topological Description of Mirage Effects[C].Proc.of SPIE,1995,2573:398-406.

[5]饶瑞中.光在湍流大气中的传输.安徽:安徽科技出版社,2006.

[6]R R Beland.Propagation through atmospheric optical turbulence[J].The Infrared&Electro-Optical Systems Handbook:Atmospheric Propagation of Radiation.Vol.2,edited by F.G.Smith,pp.157-232,SPIE Optical Engineering Press,Bellingham,Wa,USA,1993.

[7]Bill trahan.Infrared refraction and mirages.Naval subface warfare center[R].NSW CDD/MP-94/365.1995.

[8]Irvin W Kay.Atmospheric Ray Tracing for Predicting Mirages[R].IDA/D-1692.1995.

[9]NATO.Infrared Measurements and Modeling for Ship SelfDefence[R].TR-SET-032.2006.

[10]Arie N,de Jong,Hague.TG16 point target detection experiment POLLEX,Livorno 2001[C].Proc.of SPIE.2003,4820:849-861.

[11]J L Forand,G Potvin,D Dion.Cn2 Estimations at POLLEX[C].Proc.of SPIE.2003,5237:13-25.

[12]陈福胜,王江安.现代舰载光电装备与高技术局部海战[J].海军工程学报,1997,4:45-50.

[13]Claverie J,Hurtaud Y.Statistical study of EO propagation parameters in coastal areas[C].Proc.of SPIE,2003,4884:140-149.

[14]J L Forand.MAPTIP:refractive effects in the visible and IR[C].Proc.of SPIE.1996,2828:39-49.

[15]J L Forand.MAPTIP:Canada’s measurements of refraction effects[C].AGARD Conference Proceedings 1995,567:24.

[16]Ernest Bauer.Effects of atmospferic refraction on long-range near-surface.EO sensing over water[R].IDA/D-1815.1996.

[17]Arie N de Jong,Hans winkel.Point target extinction and scintillation as function of range at LAPTEX,Crete[C].Proc.of SPIE,1997,3125:166-179.

[18]D R Jensen,S G Gathman,C R Zeisse.EOPACE(Electroopticai Propagation Assessment in Coastal Environments)Overview and Initial Accomplishments[J].J Aerosol Sci,1999,53-54.

[19]D R Jensen,S G Gathman,C R Zeisse.EOPACE(Electroopticai Propagation Assessment in Coastal Environments)Summary and accomplishments[J].Opt.Eng,2001,40(8):1486-1498.

[20]J L Forand,M Duffy,C R Zeisse,S G Gathman,A N J de Jong and D Dion.Atmospheric effects on low elevation transmission measurements at EOPACE[C].Proc.of SPIE,1997,3125:123-134.

[21]Arie N,de Jong,et al.Two-way multi-band optical/IR transmission measurements in the Persian Gulf-Coastal region[C].Proc.of SPIE,2005,5981:1-12.

[22]Doug Fraedrich,Craig Miller,et al.ShipIR Model Validation Using NATO SIMVEX Experiment Results[R].NRL/FR/5750,2004.

[23]Kenneth aderson,Barbara brooks,et al.The RED experiment[J].BAMS,2004,1355-1367.

[24]J L Forand,G Potvin,D Dion.POLLEX Trial Report[R].DRDC Valcartier,2003.

[25]Arie N,de Jong,et al,Preliminary report on the TG16 POLLEX trial[R].FEL-01-A222,2001.

[26]Karin Stein,Henrik Vogel.IR Propagation in coastal Environment-Results of the VAMPIRA Trial[C].Proc.of SPIE,2006,6364(07):1-10.

[27]K Stein,Seiffer D,K Weiss-Wrana.Results of the EO Measurements during the Experiment PROTROW[R].FGAN-FOM report,2007.

[28]De Jong,A Fritz P.Refraction measurements and modelling over the Chesapeake Bay during the NATO(TG-51)SAPPHIRE trials[C].Proc.of SPIE,2007,6747:1-12.

[29]Arie N de Jong,Piet B W Schwering,Peter J Fritz.Measurement of optical refraction,transmission and turbulence effects in False Bay,South Africa[C].Proc.of SPIE,710803:1-12.

[30]Richter J H.Relevance of decision aids to the new NATO strategy[R].AGARD LS 196,1994,6.1-6.9.

[31]Hitney H V.Richter J H.Pappert K D,et al.Tropospheric radio propagation assessment[C].Proceeding of IEEE,1985,73(2):265-283.

[32]Urick R J.Principles of underwater sound[M].3rd ed.New York:McGraw-Hill,1983.

[33]Etter P C.Underwater acoustic modelling and simulation[M].3rd ed.London:Spon Press,2003.

[34]张仁和.水下声道中的反转点汇聚区(Ⅱ)广义射线理论[J].声学学报,1982,7(2):75-87.

[35]Brown M B.Application of the WKBJ Green's function to acoustic propagation in horizontally stratified oceans[J].J.Acoust.Soc.Am.,1982,71:1427-1432.

[36]Henrick R F,Brannan J R,Warner D B,et al.The uniform WKB modal approach to pulsed and broadband propagation[J].J.Acoust.Soc.Am.,1983,74:1464-1473.

[37]张仁和,何怡,刘红.水平不变海洋声信道中的WKBZ简正波方法[J].声学学报,1994,19(1):1-12.

[38]张仁和,刘红,何怡.水平缓变声道中的WKBZ绝热简正波理论[J].声学学报,1994,19(6):408-417.

[39]Evans R B.A coupled mode solution for acoustic propagation in a waveguide with stepwise depth variations of a penetrable bottom[J].J.Acoust.Soc.Am.,1983,74:188-195.

[40]Evans R B,Gilbert K E.The periodic extension of stepwise coupled modes[J].J.Acoust.Soc.Am.,1985,77:983-988.

[41]Porter M B,Jensen F B,Ferla C M.The problem of energy conservation on one way models[J].J.Acoust.Soc.Am.,1991,89:1058-1067.

[42]Stotts S A.Coupled-mode solutions in generalized ocean environments[J].J.Acoust.Soc.Am.,2002,111:1623-1643.

[43]Jensen F B,Ferla M C.SNAP:The SACLANTCEN normal-mode acoustic propagation model[R].La Spezia:SACLANT Undersea Research Centre,Memo.SM-121,1979.

[44]Miller J F,Wolf S N.Modal acoustics transmission loss(MOATL):a transmission-loss computer program using a mornal-mode model of the acoustic field in the ocean[R].NRL Report 8249,1980.

[45]Porter M P.The KRAKEN normal mode program[R].La Spezia:SACLANT Undersea Research Centre,Memo.SM-245,2001.

[46]Tappert F D.The parabolic approximation method[M]//Keller J B,Papadakis J S.Wave propagation and underwater acoustics.Lecture Notes in Physics,Vol.70.New York:Springer-Verlag,1977:224-287.

[47]Lee D,Papadakis J S.Numerical solutions of the parabolic wave equation:an ordinary-differential-equation approach[J].J.Acoust.Soc.Am.,1980,68:1482-1488.

[48]Lee D,Botseas G,Papadakis J S.Finite-difference solution to the parabolic wave equation[J].J.Acoust.Soc.Am.,1981,70:795-800.

[49]Bongiovanni K P,Siegmann W L.Convergence zone feature dependence on ocean temperature structure[J].J.Acoust.Soc.Am.,1996,100:3033-3041.

[50]A S Monin,A M Obukhov.Basic laws of turbulent mixing in the atmosphere near the ground[J].Tr Inst.Acad.Nauk.Sci.,SSR.Inst.Geophiz.,1954,24:1963-1987.

[51]Liu W T,K B Katsaros,J A Businger.Bulk parameterization of the air-sea exchange of heat and water vapor including the molecular constraints at the interface[J].J.Atmos.Sci,1979,36:1722-1735.

[52]Babin S M,Dockery G D.LKB-based evaporation duct model comparison with buoy data[J].J.of Applied Meteorology,2002,41:434-446.

[53]Fairall,C W,E.F.Bradley,et al.The cool skin and the warm layer in bulk flux calculations[J].J.Geophys.Res,1996a,101:1295-1308.

[54]Fairall,C W,Bradley E F,et al.Bulk parameterization of air-sea fluxes for TOGA COARE[J].J.Geophys.Res,1996b,101:3747-3764.

[55]Fairall C W,Bradley E F,et al.The TOGA COARE bulk flux algorithm[R].1994.

[56]Fairall C W,Bradley E F.Bulk Parameterization of Air-Sea Fluxes:Updates and Verification for the COARE Algorithm[J].Journal of climate,2003,2:571-592.

[57]Beljaars A C M,Holtslag A A M.Flux parameterization over land surfaces for atmospheric models[J].J.Appl.Meteor.,1991,30:327-341.

[58]Godfrey J S,Beljaars.On the turbulent fluxes of buoyancy,heat,and moisture at the air-sea interface at low wind speeds[J].J.Geophys.Res,1991,96:22043-22048.

[59]Marc C Eckardt.Assessing the effects of model error on radar inferred evaporative duct[R].Naval postgraduate school.2000.

[60]Davidson K L,Frederickson P A,Goroch A K.Analysis and validation of an operational bulk surface-layer(evaporation duct)model[C].National Radio Science Meeting(URSI),Boulder,Co.,2000.

[61]L Forand.The L(W)WKD marine boundary layer model7.09.Defence Research Establishment Valcartier,Québec,Canada,report R-9619,1997.

[62]L Forand.The L(W)WKD marine boundary layer model8.0.DRDC Valcartier TM 2007-467,2008.

[63]J Kondo.Air-Sea Bulk Transfer Coefficients in Diabetic Conditions[J].Bound.Layer Meteo.1975,9:91-112.

[64]Beaulieu A.J.Atmospheric Refraction Model and the Effects of Surface Waves[R].DREV R-4661/92,1992.

[65]G J Kunz.A bulk model to predict optical turbulence in the marine surface layer[R].TNO Physics and Electronics Laboratory,The Hague,The Netherlands,report FEL-96-A053,1996.

[66]H A Panofsky,J A Dutton.Atmospheric turbulence:models and methods for engineering applications[M].John Wiley&Sons,New York,USA,1984.397.

[67]A S Gavrilov.Methodes of calculating the structure of the near-water atmospheric layer with reference to radio locatin over the ocean[C].scattering and diffraction of radar signals and their infromation content,1984,31-36.

[68]V K Ivanov,V N Shalyapin,Yu V Levadnyi.Determination of the evaporation duct height from standard meteorogical data[J].Atmospheric and oceanic physics,2007,43(1):36-44.

[69]Jacques Claverie,Denis Dion,Karin Stein.Refraction effects under atmospheric stable conditions in coastal environments[C].Proc.of SPIE,2007,674704:1-10.

[70]M E Thomas,D D Duncan.Atmospheric transmission.The Infrared Electro-optical Systems Handbook[M].SanDiego:SPIE Press,Vol.2,Atmospheric propagation of radiation.1993,1-156.

[71]B Edlén.The dispersion of standard air[J].J Opt.Soc.Am.,1953,43:339-343.

[72]B Edlén.The refractive index of air[J].Meteorol,1966,2:71-80.

[73]Owens.Optical refractive index of air:dependence on pressure,temperature and composition.Appl.Opt.,1967,51-59.

[74]Hill R J,Lawrence R S.Ref ractive index of water vapor in infrared windows[J].Infrared Phys.,1986,26(6):371-376.

[75]P E Ciddor.Refractive index of air:new equations for the visible and near infrared.Appl.Opt.35,1996:1566-1573.

[76]J Claverie,D Dion.Refraction effects and wavelength dependence[C].Proc.of SPIE.2006,636404:1-7.

[77]戴福山.大气波导及其军事应用[M].北京:解放军出版社,2002.

[78]刘爱国,察豪,刘峰.基于雷达海杂波的大气折射率剖面估计技术[J].电波科学学报,2007,(5):867-871.

[79]胡晓华,费建芳,张翔,等.气象条件对大气波导的影响[J].气象科学,2007,(3):349-355.

[80]李诗明,陈陟,乔然,等.海上蒸发波导模型研究进展及面临的问题[J].海洋预报,2005(22):128-139.

[81]蔺发军,刘成国,成思,等.海上大气波导的统计分析[J].电波科学学报,2005,20(1):64-68.

[82]刘成国,黄际英,江长荫.东南沿海对流层大气波导结构的出现规律[J].电波科学学报,2002,17(5):509-513.

[83]Tatarskii V I.Scintillation phenomena,in Wave propagation in random media(scintillation)[M].SanDiego:SPIE&IPP,1992.

[84]Bogushevich A Y.Ultrasonic methods for estimation of atmospheric meteorological and turbulence[J].Parameters Atmos Oceanic Opt,1999,12(2):164-169.

[85]Michael J Vilcheck,Anne E Reed,Harris R Burris,et al.Multiple methods for measuring atmospheric turbulence[C].Proc.of SPIE.2002,4821:300-309.

[86]Mena F Stell,Christopher I Moore,et al.Passive optical monitor for atmospheric turbulence and windspeed[C].Proc.SPIE.2004,5160:422-432.

[87]Campbell scientific inc.http://www.campbellsci.com.

[88]Optical Scientific inc.http://www.opticalscientific.com.

[89]Scintec corporation.http://www.scintec.com.

[90]王介民,王维真,奥银焕,等.复杂条件下湍流通量的观测与分析[J].地球科学进展,2007,22(8):791-797.

[91]张宏升,陈家宜,张霭琛.自制铂丝温度脉动仪与超声风温仪温度脉动观测的对比研究[J].高原气象,1995,14(2):243-250.

[92]翁宁泉,曾宗泳,肖黎明,等.大气光学湍流测量中平均时间和原始数据的筛选[J].强激光与粒子束,2004,16(9):1101-1105.

[93]孙刚,翁宁泉,肖黎明.绵阳地区近地面层大气光学参数的测量与分析[J].大气与环境光学学报,2008,3(1):11-16.

[94]马晓珊,朱文越,饶瑞中.测量折射率结构常数和内尺度的三波长激光闪烁仪[J].大气与环境光学学报,2007,2(1):50-55.

[95]R S Lawrence,J W Strohbehn.A survey of clear-air propagation effects relevant to optical communications[J].Proc.IEEE,1970,58:1523-1545.

[96]R J Hill,S F Clifford.Modified spectrum of atmospherictemperature fluctuations and its application to optical propagation[J].J Opt.Soc.Am.,1978,68:892-899.

[97]J C Wyngaard,Y Izumi,et al.Behavior of the refractive-index-structure parameter near the ground[J].J Opt.Soc.Am.,1971,61:1646-1650.

[98]Wyngaard J C.On Surface Layer Turbulence,in Workshop On Micrometeorology[M].Boston:American Meteorological Society,1973,101-149.

[99]Friehe Carl A.Estimation of the refractive index temperature structure parameter over the ocean[J].Appl.Opt.,1977,16(2):334-340.

[100]Davidson K L,G E Schacher,C W Fairall,et al.Verification of the bulk method for calculating overwater optical turbulence[J].Appl.Opt.,1981,20(17):2919-2924.

[101]E L Andreas.Estimating Cn2 over snow and sea ice from meteorological data[J].J Opt.Soc.Am.,1988(5):481-495.

[102]Frederickson Paul A,K L Davidson,C R Zeisse,et al.Near-surface scintillation in a coastal ocean region[C].Proc.of SPIE.1999,3763:230-239.

[103]Frederickson Paul A,K L Davidson,C R Zeisse,et al.Estimating the refractive index structure parameter(Cn2)over the ocean using bulk methods[J].J Appl.Meteor.2000,39(10):1770-1783.

[104]Steve Doss-Hammel,Eun Oh,et al.A Comparison of Optical Turbulence Models[C].Proc.of SPIE.2004,5550:236-247.

[105]S Cheinet,A P Siebesma.The impact of boundary layer turbulence on optical propagation[C].Proc.of SPIE.2007,67470A:1-12.

[106]A Tunick.The refractive index structure parameter/Atmospheric optical turbluence medel:CN2[R].ARL-TR-1615.1998.

[107]A Tunick.Modeling microphysical influences on optical turbulence in complex areas[J].Meteorol Atmos Phys,2007,96:293-304.

[108]袁仁民,曾宗泳,肖黎明,等.不同方法测量折射率结构常数的比较[J].光学学报,2000,24(6):755-756.

[109]余申伟,方强,等.利用超声风速仪估算近地层光学湍流强度[J].大气与环境光学学报,2007,2(3):184-188.

[110]周孟莲,刘晶儒,蔡跃,等.超声波法测量大气折射率结构常数[J].强激光与粒子束,2005,17(12):1783-1787.

[111]朱文越,赵柱灵,马晓姗,等.同步测量大气折射率结构常数和内尺度的光学方法[J].强激光与粒子束,2005,17(10):1461-1464.

[112]孙刚,翁宁泉,肖黎明.合肥地区大气折射率结构常数高度分布模式[J].强激光与粒子束,2008,20(2):183-189.

[113]孙刚,翁宁泉,肖黎明,等.大气温度分布特性及对折射率结构常数的影响[J].光学学报,2004,24(5):592-596.

[114]袁仁民,曾宗泳,马成胜.利用气象要素估算近地面光学湍流[J].量子电子学报,2001,18(1):87-91.

[115]吴晓庆,王英俭,饶瑞中,等.一维大气边界层光学折射率结构常数数值模式的实验检验[J].强激光与粒子束,2003,15(2):113-116.

[116]吴晓庆,王英俭,曾宗泳,等.近海面气层温度结构常数的模式和测量[J].气象学报,2002,60(1):96-100.

[117]聂群,吴晓庆.近地面层大气折射率结构常数的模式研究[J].强激光与粒子束,2007,19(7):1112-1116.

[118]戴福山,李有宽,胡江凯.利用数值天气预报产品预报海面光学湍流[J].大气与环境光学学报,2008,3(3):161-172.

[119]戴福山,李有宽.利用气象要素估算海洋大气近地层光学湍流[J].光学学报,2007,27(2):191-196.

[120]胡隐樵,张强.论大气边界层的局地相似性[J].大气科学,1993,17(1):10-20.

[121]C R Zeisse,B D Nener,R V Dewees.Measurement of low-altitude infrared propagation[J],Appl.Opt.,2000,39:873-886.

[122]R A Paulus.Validation of the bulk method for overwater optical refractivity[R].AD-A245 029.1991.

[123]B D Nener,N Fowkes,L Borredon.Analytical models of optical refraction in the troposphere[J].J Optical Society of America,2003,20(5):867-877.

[124]W H Lehn.A simple parabolic model for the optics of the atmospheric surface layer[J].Appl.Math.Model,1985(9):447-453.

[125]W H Lehn,M B El-Arini.Computer-graphics analysis of atmospheric refraction[J].Appl.Opt.1978(17):3146-3151.

[126]W H Lehn.Inversion of superior mirage data to compute temperature profiles[J].J Optical Society of America,1983,73(12):1622-1625.

[127]W H Lehn,J S Morrish.A three parameter inferior mirage model for optical sensing of surface layer temperature profiles[J].IEEE Trans.Geosci.Remote Sensing,1986(24):940-946.

[128]Arie N de Jong.Refraction effects of atmospheric inhomogeneities along the path[C].Proc.of SPIE.2004,5237:105-116.

[129]J Claverie,Y Hurtaud,D Dion,L Forand,P Mestayer.Influence of meteorological models on refractivity profiles computation in the marine boundary layer[C].Propagation electromagnetique dans l'atmosphere du decametricque a l'angstrom,1997,11-16.

[130]W H Lehn.Analysis of an infrared mirage sequence[J].Applied Optics.1997,36(21):5217-5224.

[131]Eberhard Tra¨ nkle.Simulation of inferior mirages observed at the Halligen Sea[J].Applied Optics,1999,5(4):64-75.

[132]Andrew T Young.Green-flash home page.http://mintaka.sdsu.edu/1999-2008.

[133]Andrew T Young,George W Kattawar.Sunset science II A useful diagram[J].Applied Optics.1998,37(18):3785-3793.

[134]Stephen Hammel,Nathan Platt.Topological description of mirage effects[C].Proc.of SPIE.2000,2573:398-407.

[135]Doss-Hammel,S Mirages.Magnification and the Refractive Propagation Factor[C].Proc.of SPIE.2002,4820:840-848.

[136]Doss-Hammel,S M,Zeisse,C R,Barrios,A E,et al.Low-Altitude Infrared Propagation in a Coastal Zone:Refraction and Scattering.Applied Optics 41,3706-3724,2002.

[137]Stephen Doss-Hammela,Dimitri Tsintikidisa,et al.Refractive Effects,Turbulence,and the EOSTAR model[C].Proc.of SPIE.2004,5406:733-743.

[138]William P Hooper,Gerald E Nedoluha,Lee U Martin.Retrieval of near-surface temperature profiles from passive and active optical measurements[J].Opt.Eng.,2002,41:1586-1602.

[139]Measurement of optical refraction across the Chesapeake Bay[C].Proc of SPIE.2008,69510P:1-9.

[140]Lee U Martin,William P Hooper.Optical Refraction Measurements Across Chesapeake Bay[R].NRL/MR-7220-02-8617.2002.

[141]Denis Dion.Refraction effects on EO system detection ranges in coastal environment[R].AGARD CP-567.1995,15:1-9.

[142]J Luc Forand.Horizontal non-homogeneous effects in the marine boundary layer,SPIE Volume 3 125,Propagation and Imaging through the Atmosphere,San Diego,1997.

[143]Philip Davis,Eric Branlund,et al.IRTool:an IRST X Windows analysis tool[C].Proc of SPIE.1995,2470:212-223.

[144]Gerard J Kunz,Marianne A C Degache,Marcel M Moerman.Status and developments in EOSTAR,a model to predict IR sensor performance in the marine environment[C].Proc.of SPIE.2004,5572:101-112.

[145]A M J van Eijk,G J Kunz.The introduction of horizontal inhomogeneity of meteorological conditions in the EOSTAR propagation model[C].Proc of SPIE.2006,63030G:1-8.

[146]Denis Dion,et al.IR Boundary Layer Effects Model(IRBLEM)version 5.3,DRDC-Valcartier,2006.

[147]Denis Dion,Dirk Seiffer,Karin Stein,et al.Ray-path deviation under stable and unstable conditions[C].Proc of SPIE.2005,598109:1-8.

[148]张智丰,李向新,彭群生.基于大气传输模型的动态目标红外成像仿真[J].系统仿真学报,2000,12(9):524-527.

[149]黎云,张天序,丁明跃.红外成像大气作用效果模拟[J].华中科技大学学报(自然科学版),2002,30(2):78-81.

[150]陈炳峰,宋志伟,徐晓刚.舰载红外警戒系统工作原理的红外成像模拟[J].现代防御技术,2006,34(3):73-77.

[151]陈福胜,裴晓黎.舰用红外警戒系统作用距离试验数据分析[J].舰船科学技术,2004,26(4):46-51.

[152]王卫华,牛照东,陈曾平.海空背景凝视红外成像系统作用距离研究[J].红外与毫米波学报,2006,25(2):150-152.

[153]Hitney H V,Vieth R.Statistical assessment of evaporation duct propagation[J].IEEE Trans AP,1990,38(6):794-799.

[154]Monion A S,Obukhov A M.Basic law of turbulent mixing in the atmosphere near the ground[J].Trudy Geofizicheskogo Instituta,Akademiya Nauk SSSR,1954,24(151):163-187.

[155]Jeske H.State and limits of prediction methods of radar wave propagation conditions over the sea[C].in:Zancla A,eds.Proc.of Microwave Propagation and Air-Sea Interaction,Boston:D Reidel Publishing Company,1973.

[156]Paulus R A.Practical application of an evaporation duct model[J].Radio Science,1985,20(2):887-896.

[157]Paulus R A.Practical application of the IREPS evaporation duct model[R].Tech.Rep.966,Naval Ocean System Center,1984.

[158]Liu W T,Katsaros K B,Businger JA.Bulk parameterization of air-sea exchanges of heat and water vapor including the molecular constraints at the interface[J].J.of the Atmospheric Sciences,1979,36:1722-1735.

[159]Babin S M,Dockery G D.LKB-based evaporation duct model comparison with buoy data[J].J of Applied Meteorology,2002,41:434-446.

[160]Fairall C W,Bradley E F,Rogers D P,et al.Bulk parameterization of air-sea fluxes for TOGA COARE[J].J.of Geophys.Res.,1996(101):3747-3764.

[161]Godfrey J S,Beljaars A C M.On the turbulent fluxes of buoyancy,heat and moisture at the air-sea interface at low wind speeds[J].J of Geophys.Res.,1991,96(C12):22043-22048.

[162]Babin S M.A new model of the ocean evaporation duct and its comparison with current models[D].University of Maryland at College Park,1996.

[163]Frederickson P A,Davidson K L.An operational bulk evaporation duct model[J].J of Applied Meteorology,2003.

[164]Davidson K L,Frederickson P A,Goroch A K.Analysis and validation of an operational bulk surface-layer(evaporation duct)model[C].National Radio Science Meeting(URSI),Boulder,Co.,2000.

[165]Musson G L,Gauthier S,Bruth E.A simple method to determine evaporation duct height in the sea surface boundary layer[J].Radio Science,1992,27(5):635-644.

[166]Babin S M.Weather and climate effects on disease background levels[J].Johns Hopkins APL Tech.Digest,2003,24(4):343-348.

[167]Patterson W L.Integrated Refractive Effects Prediction System(IREPS)User's Manual Revision PC-2.0[R].Tech.Dig.1874,NOSC,1990.

[168]Konstanze G C,Rowland J R,Dockery G D,et al.SEAWASP:real-time assessment of AN/SPS-1 performance based on in situ shipboard measurements[C].Proc.of Electromagnetic/Electro-Optics Prediction Requirements and Products Symp.,Monterey CA,1997,87-96.

[169]Jordan M S,Philip A D.Verification and validation of the satellite marine-layer/elevated duct height(SMDH)technique[R].NPS-MR-01-001,Naval Postgraduate School,2000.

[170]Lyons S W.Satellite-Derived Refractive duct height estimates[R].Geophysical Sciences Tech.Not.98,Pacific Missile Test Center,1985.

[171]Helvey R,Rosenthal J,Eddington L,et al.Use of satellite imagery and other indicators to assess variability and climatology of oceanic elevated ducts[C].In AGARD/NATO Conf.on Propagation Assessment in Coastal Environments,Bremerhaven,Germany,NATO,1995.

[172]Culbertson G W.Assessment of atmospheric effects on VHF and UHF communications[D].Naval Postgraduate School,1990.

[173]Levy M F,Craig K H.Use of mesoscale models for refractivity forecasting[C].AGARD/NATO Conf.on Remote Sensing of the Propagation Environment,Cesme,Turkey,1992.

[174]Vogel G N.Performance of the navy's second order closure version of the NORAPS in short-range refractivity forecasting during the VOCAR experiment[R].Tech.Rep.NRL/MR/7543-94-7217,Naval Research Laboratory,1995.

[175]Stephen D B,Thompson W T.Mesoscale Modeling of Summertime Refractive Conditions in the Southern California Bight[J].J of Applied Meteorology,1997,36(1):22-31.

[176]Ortenburger L N.World-wide statistics of tropospheric ducting characteristics[R].Tech.Doc.260,Naval Ocean Systems Center,San Diego,1979(ADA071781).

[177]Anderson K D.Worldwide distributions of shipboard surface meteorological observations for EM Propagation Analysis[R].Tech.Doc.1150,NOSC,San Diego,1987(ADA188771).

[178]Patterson W L.Historical Electromagnetic propagation condition database description[R].Tech.Doc.1149,NOSC,1987(ADA189157).

[179]Patterson W L.Ducting climatology summary(DCS)software(Version 2.0,January 1992)read file[CP/DK].SPAWAR,San Diego,1993.

[180]Patterson W L,Hattan G R,Paulus R A,et al.Engineer's refractive effects prediction system(EREPS)Version 3.0[R].Tech.Doc.2648,NCCOSC,RDT&E Div.,San Diego,1994.

[181]Patterson W L.Advanced refractive effects prediction system AREPS[R].Tech.Doc.3028,SPAWAR,San Diego,1998.

[182]Babin S M.Surface height duct distributions for Wallops Island Virginia[J].J of Applied Meteorology,1996,35(1):86-93.

[183]刘成国,黄际英,江长荫,等.用伪折射率和相似理论计算海上蒸发波导剖面[J].电子学报,2001,29(7):970-972.

[184]姚展予,赵柏林,李万彪,等.大气波导特征分析及其对电磁波传播的影响[J].气象学报,2000,58(5):605-616.

[185]Skolnik M.Radar handbook[M].New York:McGraw-Hill Book Co.Inc.,1990,25-35.

[186]James K.Potential Measurement Errors Induced by Atmospheric Refraction[R].Tech.Rep.TR-97/75,NSWCDD,1997(ADA341850).

[187]Pittman T S.A climatology-based model for long-term prediction of radar beam refraction[D].Air Force Institute of Technology,1999(ADA361749).

[188]程显海,邢小星,徐海,等.微波辐射计在电波折射修正中的应用[J].微波学报,1995,11(1):61-65.

[188]江长荫,黄捷.任意大气层折射误差的实用修正方法[J].电子学报,1999,27(3):45-48.

[190]张瑜.电波折射误差实时修正的公式拟合[J].飞行器测控学报,2004,23(1):22-25.

[191]Hitney H V.Refractive Effects from VHF to EHF Part A:Propagation Mechanisms[R].Tech.Rep.N95-14831,1995,4A1-4A13(ADA-712562).

[192]Hitney H V.Refractive Effects from VHF to EHF Part B:Propagation Models[R].Tech.Rep.N95-14832,1995,4B1-4A18(ADA-712562).

[193]Perkeris C L.Wave theoretical interpretation of propagation of 10cm waves in low-level ocean ducts[C].in Proc.of the Institution of Radio Engineers,1947.

[194]Budden K G.The Wave-guide mode theory of wave propagation[M].Englewood Cliffs,New Jersey:Prentice Hall,Inc.,1961.

[195]Baumgartner G B.XWVG:A waveguide program for trilinear tropospheric ducts[R].Tech.Doc.610,NOSC,1983,206.

[196]Marcus S W.A model to calculate EM fields in tropospheric duct environments at frequencies through SHF[J].Radio Sci.,1982(17):895-901.

[197]Che J P.Analysis of constant phase contours of evaporation duct mode functions for waveguide mode propagation[R].ADA-257634.

[198]Baumgartner G B,Hitney H V,Pappert R.Duct propagation modeling for the integrated refractive effect prediction system(IREPS)[J].Proc.IEE Part-F,1983,130(7):630-642.

[199]Ko H W,Sari J W,Skura J P.Anomalous microwave propagation through atmospheric ducts[J].John Hopkins APL Tech.Digest,1983,4(2):12-26.

[200]Barrios A E.A terrain Parabolic equation model for propagation in the troposphere[J].IEEE Trans.AP,1994,42(2):90-98. mWgeTH72OZil10GWQ+Cv/X3pKxPhh98TJihHUtuNr5W8kNkd6U031niIFKXfVLuD

点击中间区域
呼出菜单
上一章
目录
下一章
×