Advanced optical instrumentation for remote sensing of the earth"s surface from space
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Advanced optical instrumentation for remote sensing of the earth"s surface from space

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Published by SPIE in Bellingham, Wash., USA .
Written in English

Subjects:

  • Earth sciences -- Remote sensing -- Congresses.,
  • Optical instruments.,
  • Earth -- Surface -- Remote sensing -- Congresses.

Book details:

Edition Notes

Other titlesECO2, ECO two.
StatementG. Duchossois, Frank L. Herr, R. Zander, chairs/editors ; the Congress of EPS-European Physical Society, Europtica--the European Federation for Applied Optics, SPIE--the International Society for Optical Engineering ; cooperating organizations, ANRT--Association Nationale de la Recherche Technique ... [et al.].
SeriesSPIE proceedings series -- v. 1129, Proceedings of SPIE--the International Society for Optical Engineering -- v. 1129.
ContributionsDuchossois, George E., Herr, Frank L. 1948-, Zander, R., European Physical Society., European Federation for Applied Optics., Association nationale de la recherche technique., European Congress on Optics.
The Physical Object
Paginationviii, 146 p. :
Number of Pages146
ID Numbers
Open LibraryOL14090130M
ISBN 10081940165
LC Control Number89062611

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Quantitative remote sensing is based on the precise calibration of sensors and the atmospheric correction of remote sensing data. This chapter introduces the atmospheric effects on the process of remote sensing imaging and atmospheric correction to specifically discuss the utilization of atmospheric correction in processing remote sensing data. IN: Advanced optical instrumentation for remote sensing of the earth's surface from space; Proceedings of the Meeting, Paris, France, Apr. 27, 28, (A ). Bellingham, WA, Society of Photo-Optical Instrumentation Engineers, , p. Research supported by the Department of Education of Belgium. (SPIE Homepage) Publication Date. It covered the latest developments, experiments and results on the theory, instrumentation and applications of space optics. The book is split into five main sections: The first covers optical remote sensing system design, the second focuses on advanced optical system design, and the third addresses remote sensor calibration and measurement. Mehrez Zribi is a Director of Research in CNRS/France. Since October , he has been with the Centre d’Etudes Spatiales de la Biosphère, Toulouse. His research interests include land surface characterization for hydrology applications, remote sensing signal .

Optical Remote Sensing of Ocean Hydrodynamics Author: Victor Raizer Optical Remote Sensing is one of the main technologies used in sea surface monitoring. Recent Books in Geoscience and Remote Sensing. The technology engages electromagnetic sensors to measure and monitor changes in the earth’s surface and atmosphere. The book opens. The book discusses the instruments and principles that support a wide range of systems: optical, thermal, and radar. The text focuses on satellites-including power, data storage, and telemetry systems-because this knowledge is important for the development of new remote sensing systems. Measurements of atmospheric trace gases have been performed during the first Spacelab mission on board the Space Shuttle. The principle of the observations is infrared absorption spectroscopy using the solar occultation imeldaclyde.com: N. Papineau, C. Camy-Peyret, M. Ackerman. ACE consists of a suite of instruments in which the primary element is an infrared Fourier Transform Spectrometer (FTS) coupled with an auxiliary 2-channel visible ( nm) and a near infrared imager ( nm). The FTS is a high-resolution ( cm-1) instrument operating .

This special issue focuses on innovative technology used in remote sensing of the terrestrial or land surface. The Earth Observation Technology Cluster is an initiative to promote development and communication in this field (imeldaclyde.com). Optical remote sensing spans the range of electromagnetic wavelengths from the visible to the thermal infrared (IR) making images from both reflected and emitted radiation from the Earth's surface and overlying atmosphere. The past twenty-five years have seen InSAR progress, from its initial development as a new and pioneering remote sensing tool for measuring Earth topography and surface deformation, to a mature technology that now provides crucial constraints on a broad and diverse range of . 6 October Remote Sensing Of The Earth's Atmosphere By Infrared Absorption Spectroscopy - An Update Of The Advanced Optical Instrumentation for Remote Sensing of the Earth's Surface from Space; () https An Update Of The Atmos Program", Proc. SPIE , Advanced Optical Instrumentation for Remote Sensing of the Earth's Author: R. Zander, M. R. Gunson, C. B. Farmer.