Optical Properties and Remote Sensing of Inland and Coastal Waters
Auteurs : Bukata Robert P., Jerome John H., Kondratyev Alexander S., Pozdnyakov Dimitry V.
Optical Properties and Remote Sensing of Inland and Coastal Waters discusses the methodology and the theoretical basis of remote sensing of water. It presents physical concepts of aquatic optics relevant to remote sensing techniques and outlines the problems of remote measurements of the concentrations of organic and inorganic matter in water. It also details the mathematical formulation of the processes governing water-radiation interactions and discusses the development of bio-optical models to incorporate optically complex bodies of water into remote sensing projects.
Optical Properties and Remote Sensing of Inland and Coastal Waters derives and evaluates the interrelationships among inherent optical properties of natural water, water color, water quality, primary production, volume reflectance spectra, and remote sensing. This timely and comprehensive text/reference addresses the increasing tendency toward multinational and multidisciplinary climate studies and programs.
Robert P. Bukata, John H. Jerome, Alexander S. Kondratyev, Dimitry V. Pozdynakov
Date de parution : 06-2020
15.6x23.4 cm
Thèmes d’Optical Properties and Remote Sensing of Inland and... :
Mots-clés :
Optical Cross Section Spectra; Cross Section Spectra; cross; Downwelling Irradiance; section; Upwelling Irradiance; spectra; Air Water Interface; air; Solar Zenith Angle; interface; Inherent Optical Properties; downwelling; Volume Reflectance; irradiance; Apparent Optical Property; John H; Jerome; Upwelling Radiance Spectrum; Kirill Ya; Kondratyev; Volume Scattering Function; Dimitry V; Pozdnyakov; Doc Concentration; Optical Cross Section; Chlorophyll Concentrations; Total Attenuation Coefficient; Irradiance Level; Scalar Irradiance; DCM; Sky Irradiance; Beam Attenuation Coefficient; CIE Chromaticity; Secchi Depth; SM; Photic Depth; Aerosol Optical Depth
