Synopses & Reviews
This introduction to the use of radar for remote sensing of natural surfaces provides the reader with a thorough grounding in practical applications, focusing particularly on terrestrial studies that may be extended to other planets. An historical overview of the subject is followed by an introduction to the nomenclature and methodology pertaining to radar data collection, image interpretation and surface roughness analysis. The author presents a summary (illustrated with examples from the natural environment) of theoretical explanations for the backscatter properties of continuous rough surfaces, collections of discrete objects, and layered terrain.
Review
"...this text belongs in the library of anyone interested in radar remote sensing. It is a well-written, comprehensive text that can easily be understood by someone expressing an ititial interest in the field, and contains sufficient information and analysis to keep the seasoned radar analyst interested. The author is to be congratulated on his achievement." Geomatica
Review
"The author's intention is to fill a perceived gap in the literature on radar backscatter analysis. The text meets this goal and would be suitable for a variety of university level courses in remote sensing. For the student of remote sensing data analysis, this text is well suited as a mid-level introduction to the specifics of radar remote sensing beyond the basic principles that should be acquired from a general subject primer...This well organized and written text is recommended..." The Leading Edge
Review
"A well-organized treatment." Choice
Synopsis
A 2002 introduction to radar remote sensing of terrestrial surfaces, including data collection and image interpretation.
Table of Contents
1. Historical overview; 2. Radar scattering terminology; 3. Roughness and dielectic properties; 4. Radar data collection and analysis; 5. Theoretical treatment of scattering by rough surfaces; 6. Radar scattering from continuous rough surfaces; 7. Radar scattering from collections of objects and layered terrain; 8. Planetary radar studies: The Moon, Mercury, and asteroids; 9. Planetary radar studies: Venus and Mars; List of symbols; References.