Remote sensing applications in meteorology and climatology
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Remote sensing applications in meteorology and climatology
(NATO ASI series, ser. C . Mathematical and physical sciences ; v. 201)
D. Reidel Pub. Co., c1987
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Note
"Proceedings of the NATO Advanced Study Institute on Remote Sensing Applications in Meteorology and Climatology, Dundee, Scotland, August 17-September 6, 1986."-- T.p. verso
"Published in cooperation with NATO Scientific Affairs Division."
Includes index
Description and Table of Contents
Description
This was the fourth postgraduate summer school on remote sensing to be held in Dundee. These summer schools were originated by, and continue to remain in, the programme of EARSel (European Association of Remote Sensing Laboratories) Working Group 3 on Education and Training in Remote Sensing. The first of these summer schools was held in 1980 on "Remote Sensing in Meteorology, Oceanography and Hydrology". This was followed in 1982 by a more specialised summer school on "Remote Sensing Applications in Marine Science and Technology" which built on the foundation laid in 1980 and then concentrated on the marine applications of remote sensing techniques. The present summer school was another follow-up of the original 1980 summer school but this time concentrating on the atmospheric rather than the marine applications of remote sensing techniques. The 1984 summer school had not specifically involved atmospheric and marine applications but had been involved with the use of remote sensing in the field of civil engineering. This year's summer school was extremely successful. First of all, this was due to our sponsors, for without their very significant material contributions there would have been no summer school. These sponsors included the Scientific Affairs Division of NATO, together with the European Association of Remote Sensing Laboratories, the Council of Europe, the European Space Agency, the German Aerospace Establishment (DFVLR) and the Natural Environment Research Council.
Table of Contents
1 Cloud Formations Seen by Satellite.- 2 Factors Affecting Feature Differentiation: The Impact and Source of Variance in the Upwelling Radiance Field.- 3 The Physical Principles Controlling the Remote Sensing Process.- 4 Sensors to Record Atmospheric and Terrestrial Information: Principles of Collection and Analysis.- 5 Data Reception, Archiving and Distribution.- 6 Microwave Instruments and Methods.- 7 Image Processing, Pattern Recognition and Artificial Intelligence.- Operational Applications.- 8 Vertical Sounding from Satellite.- 9 The Impact of Satellite Data on Global Numerical Weather Prediction.- 10 Use of Radar and Satellite Imagery for the Measurement and Short-Term Prediction of Rainfall in the United Kingdom.- Research Applications.- 11 The Application of Remote Sensing Data in Atmospheric Chemistry.- 12 Studies of Synoptic and Mesoscale Atmospheric Features from Satellites.- 13 The Visualisation of the Ceaseless Atmosphere.- 14 Information Extraction from Meteorological Satellite Image Sequences.- 15 Cloud Motion Analysis of Cyclones within Cold Air Masses.- 16 Multispectral Classification of Cloud, Fog and Haze.- Air-Sea Interactions.- 17 The Ocean and the Atmosphere.- 18 Remote Sensing of Sea-Surface Winds.- Climatology.- 19 Cloud Climatologies from Space and Applications to Climate Modelling.- 20 Climatology from Space: Data Sets for Climate Monitoring and Climate Modelling.- 21 Surface Energy Budget, Surface Temperature and Thermal Inertia.- Future Systems.- 22 The Along-track Scanning Radiometer with Microwave Sounder.- 23 Plans for ERS-1 Data Acquisition, Processing and Distribution.- 24 Remote Sensing in the Space Station and Columbus Programmes.- Colour Section.- List of Participants.
by "Nielsen BookData"