>
您好,欢迎来到奕枫仪器 水环境仪器站点!

HydroScat 后向散射仪文献目录

发布人:pli 来源: 发布时间:2016-11-30 14:21:01
  • 1.  Dariusz Stramski, Rick A. Reynolds, Mati Kahru, et al. Estimation of Particulate Organic Carbon in the Ocean from Satellite Remote Sensing. Science,1999, 285 (5425): 239 - 242
  •  
  • 2.  David McKee,Alex Cunningham.Evidence for wavelength dependence of the scattering phase function and its implication for modeling radiance transfer in shelf seas. Applied Optics,  2005, 1(44):126-135
  •  
  • 3.  Ryszard Hapter, Slawomir Kaczmarek, and Joanna Ston. Bio-optical relationships and ocean color algorithms for the north polar region of the Atlantic. Geophysical research, 2003,108(C5,3143):1-17
  •  
  • 4.  G. H. Tilstone, G. F. Moore, K. Sørensen. et al. Regional Validation of MERIS Chlorophyll products in North Sea coastal waters. Development of Generic Earth Observation Technologies,2001
  •  
  • 5.    M. A. Moline, T. Bergmann, W. P. Bissett, J. et al. Integrating Optics And Biology: Estimation Of Bioluminescence Leaving Radiance From An Autonomous Vertical Profiler.1-10
  •  
  • 6.    Stavn, Robert H., Spiering, Bruce A.,Gould, Richard W...d Biogeo-Optics:Backscattering Cross Sections for Suspended Mineral and Organic Matter in the Coastal and Near-Coastal Ocean. Physical And Dynamic Oceanography Optics,2004,10
  •  
  • 7.    EJ D'Sa, RL Miller. Bio-optical properties in waters influenced by the Mississippi River during low flow conditions. Remote Sensing of Environment, 2003,538-549
  •  
  • 8.    Donald C. Pierson, Niklas Strömbeck. Estimation of radiance reflectance and the concentrations of optically active substances in Lake Mälaren, Sweden, based on direct and inverse solutions of a simple model. The Science of The Total Environment,2001,1-3,14(268):171-188
  •  
  • 9.    E.N. Flory, P.S. Hill T.G. Milligan et al. The relationship between floc area and backscatter during a spring phytoplankton bloom. Deep Sea Research Part I: Oceanographic Research Papers, 2004, 51(2):213-223
  •  
  • 10. Mark A. Moline,Shelley M. Blackwell.Episodic physical forcing and the structure of phytoplankton communities in the coastal waters of New Jersey. Geophysical Research,2004,109(C12S05):1-17
  •  
  • 11. Mark A. Moline,Robert Arnone, Trisha Bergmann.et al. Variability in spectral backscatter estimated from satellites and its relation to in situ measurements in optically complex coastal waters . Remote Sensing, 2004,25(7):1465 – 1468
  •  
  • 12. David McKee, Alex Cunningham,Susanne Craig. Semi-empirical correction algorithm for AC-9 measurements in a coccolithophore bloom. Applied Optics,2003, 42(21):4369-4374
  •  
  • 13. T.Suresh, Elgar Desa, Antonio Mascaranahas, S.G. et al. An empirical method to estimate bulk particulate refractive index for ocean satellite applications. Remote Sensing of the Marine Environment, 6406, 1-11
  •  
  • 14. Fernando Gilbes , Roy A. ArmstrongInherent. Water Optical Properties At The Caribbean Time Series Station (Cats).1-13
  •  
  • 15. Mark A. Mollne, Robert Arnone, Trisha Bergmann. Variability in spectral backscatter estimated from satellites and its relation to ill sitll measurements in optically complex coastal waters.
  •  
  • 16. Tiit Kutser, David Jupp Cape. Tribulation–Coral Reef Studies,2001,128-149
  •  
  • 17. A. Hatcher, P. Hill, J. Grant. et al. Spectral optical backscatter of sand in suspension: effects of particle size, composition and colour. Marine Geology, 2000,168 (2000) :115-128
  •  
  • 18. Hubert Loisel , Xavier Me´riaux. Investigation of the optical backscattering to scattering ratio of marine particles in relation to their biogeochemical composition in the eastern English Channel and southern North Sea. Optical properties of marine particles, 2007, 52(2):739–752
  •  
  • 19. David McKee, Alex Cunningham, Susanne Craig. Estimation of Absorption and Backscattering Coefficients from in Situ Radiometric Measurements: Theory and Validation in Case II Waters. Applied Optics, 2003, 42(15) :2804-2810
  •  
  • 20. David McKee, Malik Chami, Ian Brown, et al. Role of measurement uncertainties in observed variability in the spectral backscattering ratio: a case study in mineral-rich coastal waters. Applied Optics, 2009, 48(24) :4663-4675
  •  
  • 21. Anu Reinart, Birgot Paavel, Don Pierson. Inherent and apparent optical properties of Lake Peipsi, Estonia. Boreal Environment Research, 2004, 9:429-445
  •  
  • 22. Robert A. Maffione , David R. Dana. Instruments and methods for measuring the backward-scattering coefficient of ocean waters. Applied Optics, 1997,36( 24): 6057-6067
  •  
  • 23. Alex Cunningham, David McKee, Susanne Craig. Fine-scale variability in phytoplankton community structure and inherent optical properties measured from an autonomous underwater vehicle Marine Systems,2003,43(1-2):51-59
  •  
  • 24. E. Boss, W. S. Pegau, M. Lee. et al. Particulate backscattering ratio at LEO 15 and its use to study particle composition and distribution. Geophysical Research, 2004, 109(C01014):1-10
  •  
  • 25. Kadija Oubelkheir, Arnold Dekker, Vittorio Brando. et al. The Australian Meris Validation Project (Ao595): First Results.
  •  
  • 26. Cécile Dupouy, Locean (Lodyc).Méthodologie des mesures optiques.
  •  
  • 27. Jørgensen, P.V., Tilstone, G. , Høkedal, J. et al.  Intercomparison of spectral backscattering coefficients measured in-situ using several Hydroscat instruments – Results from PlymCal-2 and Revamp cruises.
  •  
  • 28. Joel A. Quiñones Rivera. Bio-Optical Variability in Mayaguez Bay during the Rainy Season.
  •  
  • 29. R.V. Raque˜no, N.G. Raque˜no, A.D. Weidemann. et al. Megacollect 2004: Hyperspectral Collection Experiment Over the Waters of the Rochester Embayment.
  •  
  • 30. Giulietta S, Charles R. SIMBIOS Project 2000 Annual Report. SAIC General Sciences Corporation, Beltsville, Maryland
  •  
  • 31. Montes-Hugo, M. A. , Gould, Richard W. , Arnone, Robert A. Beyond the First Optical Depth: Fusing Optical Data From Ocean Color Imagery and Gliders. Conference proceedings, 2009
  •  
  • 32. P. Ammenberg , P. Flink , T. Lindell. et al. Bio-optical modelling combined with remote sensing to assess water quality. Remote Sensing, 2002,23(8): 1621 – 1638
  •  
  • 33. Ladner, Sherwin D. , Arnone, Robert A. , Gould, Richard W. et al. Variability in the Backscattering to Scattering and F/Q Ratios Observed in Natural Waters. Physical And Dynamic Oceanography Optics, Conference proceeding, 18-22 Nov 2002
  •  
  • 34. Malgorzata Stramska, Dariusz Stramski, SJawomir Kaczmarek. et al. Seasonal and regional differentiation of bio-optical properties within the north polar Atlantic. Geophysical Research,2006,111(C08003):1-16
  •  
  • 35. Arnold G. Dekker, Vittorio Ernesto Brando, Janet M. Anstee. Retrospective seagrass change detection in a shallow coastal tidal Australian lake. Remote Sensing of Environment,2005,97(4):
    415-433
  •  
  • 36. Tiit Kuster, Arnole G.Dekker,William Skirving.Modeling spectral discrimination of Great Barrier Reef benthic communities by remote sensing instrments. American Society of Limnology and Oceanography,2003,491-510
  •  
  • 37. Sherwin D. Ladner, Robert A. Arnone,  Richard W. Gould. et al. Variability in the Backscattering to Scattering and F/Q Ratios Observed in Natural Waters
  •  
  • 38. Jennifer P. Cannizzaro, Kendall L. Carder, F. Robert Chen. A novel technique for detection of the toxic dinoflagellate, Karenia brevis, in the Gulf of Mexico from remotely sensed ocean color data.Continental Shelf Research,2008,28(1): 137-158
  •  
  • 39. Barbara Bulgarelli, Giuseppe Zibordi, Jean-François Berthon. Measured and Modeled Radiometric Quantities in Coastal Waters: Toward a Closure. Applied Optics, 2003, 42(27):5365-5381
  •  
  • 40. Y. Huot , A. Morel , M. S. Twardowski. et al.Particle optical backscattering along a chlorophyll gradient in the upper layer of the eastern South Pacific Ocean. Biogeosciences Discussions 2007,4(6): 4571-4604
  •  
  • 41. M A Montes-Hugo, Richard W Gould, Robert A Arnone. et al. Beyond the First Optical Depth: Fusing Optical Data From Ocean Color Imagery and Gliders. Conference proceedings,2009,1
  •  
  • 42. Y. Huot, A. Morel, M. S. Twardowski, et al.Particle optical backscattering along a chlorophyll gradient in the upper layer of the eastern South Pacific Ocean. Biogeosciences Discuss, 2007,4:4571–4604
  •  
  • 43. Oscar Schofield, Trisha Bergmann, Mathew J. Oliver. et al.Inversion of spectral absorption in the optically complex coastal waters of the Mid-Atlantic Bight. Geophysical Research, 2004, 109(C12S04):1-12

FastBallast压载水合规监测系统 水中二氧化碳传感器 V-Lux 多参数荧光计 enviroFlu-HC 水中油多环芳香烃(PAHs) 荧光计 NICO地表水硝酸盐测量仪 OPUS UV地表水硝酸盐及亚硝酸盐测量仪 地表水硝酸盐测量 LabSTAF 单周转活性叶绿素荧光计 110型水位水温计 120-LTC水位水质计 575 MP1读数表式水位水质计 575-LTC读数表式水位水质计 S200在线数字控制器 S200余氯&pH分析仪 S200溶解臭氧分析仪 S200二氧化氯分析仪 S200 TUr 低量程浊度计 BABYNOX固定式采样器 AQUITOP壁挂式采样器 AQUINOX固定式采样器 AQUIBOX便携式采样器 AQUIFROID便携式制冷采样器 TRIPOD水质多参数传感器 Skidsens污垢监测仪 PONSEL溢流传感器 PHEHT pH & ORP传感器 OPTOD荧光法溶氧传感器 NTU浊度传感器 MES5污泥浓度与污泥界面仪 EHAN氧化还原电位ORP传感器 CTZN感应式电导率传感器 C4E四电极电导率传感器 APW污泥界面仪 STAC CL高氯分析仪 PRIM LIGHT & ADVANCED紧凑型可见光光度计 UVILINE 9300/9600 水质分光光度计 UVILINE 910/940 水质分光光度计 STAC 水质在线预警系统 PASTEL UV便携式水质有机物分析仪 ODEON手持式多参数水质分析仪 TOX mini便携式生物毒性分析仪 iTOXcontrol生物毒性在线综合监测系统 BACTcontrol大肠杆菌在线分析仪 ALGControl藻类荧光在线监测仪 PSICAM点光源积分腔吸收计 QFT-ICAM定量过滤技术积分腔吸收计 SUNSTONE SCIENTIFIC 台式数字在线全息显微镜 水体富集采样器 Autoholo潜水式原位数字全息成像系统 Aquasonde自容式多参数水质分析仪 Ramses 高光谱辐射测量仪 ERAS 回声重复声源系统 AWRAMS 水面高光谱辐射自动云台测量系统 TriOS RPMS自由落体式高光谱辐射剖面测量系统 AWRMMS 水面高光谱辐射移动测量系统 NEPH浸没式浊度传感器 ECHEM 数字ORP传感器 enviroFlu-BT苯系物荧光传感器 OPUS 硫化物在线监测仪 TriOS LISA 光谱法TOC在线监测仪 【安装作业】太湖漫山站水面辐射自动云台测量系统 UV254 SAC254 SUVA在废水监测中应用 内部比较WISP-3和其他的辐射计(TriOS Ramses, ASD FieldSpec, and TACCS) WALRUS高光谱浮标式辐射计测量方法 水体光学特性测量在环境领域的应用 2009-2011年度hydroscat后向散射发表文献节选 Hydroscat6用于我国东海和黄海总悬浮颗粒物反演 Hydroscat-6用于我国东海和黄海固有光学特性研究 HydroScat 后向散射仪文献目录 HydroRad水下光谱仪已发表文献 归一化离水辐射率和遥感反射率的测量 光散射、光吸收和光衰减 一类水体与二类水体 水体表观光学特性AOP与固有光学特性IOP 辐照度(Irradiance)和辐亮度(Radiance) 浊度基本概念及浊度传感器原理 溢油监测中各种油类基础概念 英国CTG公司藻类初级生产力及水质传感器应用 地下水及地下水污染 英国地质研究所使用UviLux荧光计评估地下水污染及风险因素 UviLux在利菲河下游河口检测碳氢化合物含量 船舶废气清洁系统EGC(Exhaust Gas Cleaning) 海洋初级生产力,海洋原始生产力 石油污染与持久性有机污染物 POPs 持久性有机污染物 Persistent Organic Pollutants,POPs) FLS-A 荧光激光雷达溢油监测文献 国外WQM长期定点观测应用 CYCLE-PO4测量数据图形 地下水污染防治难在何处 防汛减灾测报“利器” 对抗暴雨袭击 第12届中国水文水资源技术与装备展(奕枫)精彩回顾 第12届中国水文水资源技术与装备展(奕枫)精彩回顾 PSICAM点光源积分腔吸收计 QFT-ICAM定量过滤技术积分腔吸收计 【安装作业】太湖漫山站水面辐射自动云台测量系统 中国海洋湖沼学会藻类学分会换届大会暨第二十次学术讨论 中国海洋湖沼学会藻类学分会换届大会暨第二十次学术讨论 2019青岛国际海洋科技展圆满落幕—奕枫仪器应邀参展 2019青岛国际海洋科技展圆满落幕—奕枫仪器应邀参展 奕枫仪器发布手持式船载水面之上法光谱测量系统 奕枫仪器仪器租赁业务正式启动 奕枫仪器受邀参加“第三届全国海洋光学高峰论坛” 奕枫仪器应邀再次访问欧洲仪器生产商 奕枫仪器在18届水色遥感大会发布新产品剖面光谱仪 奕枫仪器应邀参加第三届生物气溶胶国际研讨会 奕枫仪器研发的首款剖面光谱仪海试成功 美国WETLabs公司总裁CASEY MOORE先生到访奕枫仪器 奕枫仪器访问英国AQUAread公司 切尔西科技集团对奕枫仪器进行友好访问 切尔西科技集团对奕枫仪器进行友好访问 奕枫仪器应邀赴英国参加Ocean Business 2015及AQE 2015 奕枫仪器应邀赴英国参加Ocean Business 2015及AQE 2015 德国TriOS创新性将紫外LED技术用于监测COD BOD TOC 德国TriOS创新性将紫外LED技术用于监测COD BOD TOC 奕枫仪器应邀访问德国TriOS公司并正式签署代理协议 奕枫仪器应邀访问德国TriOS公司并正式签署代理协议 CTG FastOcean FRRf 在藻类初级生产力领域的又一个伟大的一年 CTG FastOcean FRRf 在藻类初级生产力领域的又一个伟大的一年 德国TriOS公司销售总裁Mr. Uwe Voith到访奕枫仪器 德国TriOS公司销售总裁Mr. Uwe Voith到访奕枫仪器 德国TriOS公司销售总裁Mr. Uwe Voith到访奕枫仪器 CTG FastOcean FRRf 在藻类初级生产力领域的又一个伟大的一年 enviroFlu-BT单环芳香烃类传感器在德国TriOS公司问世 enviroFlu HC 水中油传感器获船级社DNV GL认证符合规范MEPC.184(59) 德国TriOS公司宣布:nanoFlu系列荧光计取代microFlu系列 奕枫仪器应邀访问德国TriOS公司并正式签署代理协议 德国TriOS创新性将紫外LED技术用于监测COD BOD TOC 奕枫仪器应邀参加2016上海国际海洋技术与工程设备展览会 第16届水色遥感研讨会交流奕枫发布原位初级生产力测量方案 奕枫仪器应邀参加第四届溢油应急国际研讨会暨展览会 奕枫仪器应邀参加2014中国环境科学学会学术年会产品推介会 奕枫仪器从2014中国环博会IE expo凯旋归来 奕枫仪器应邀参展Oceanology International China 2013 奕枫仪器参加中国环博会IE expo 2013 CTG最新压载水监测仪参展美国第三届压载水管理峰会 FastOcean研究光合作用在海洋环境中的作用 澳大利亚科学家使用FastOcean系统监测近岸海洋“健康” CTG公司色氨酸传感器成功应用于非洲饮用水污染监测 英国CTG公司藻类初级生产力及水质传感器最新应用 CTG船舶洗涤水监测系统获得DNV GL集团认证 英国CTG公司FastOcean藻类荧光仪的最新应用 英国切尔西科技集团Seasoar拖拽式机器人用于马航MH370搜救 Chelsea主动荧光技术专家出席挑战者号海洋科学学会会议 AQUARead公司AP-1000系列探头全新升级为AP-2000 水体固有光学特性测量全系列仪器落户杭州师范大学 多波段荧光在废水及环境监测中应用研讨会 奕枫仪器水质在线监测系统开发完毕 奕枫仪器应邀赴英国参加Ocean Business 2015及AQE 2015 切尔西科技集团对奕枫仪器进行友好访问