Mathematics in Remote Sensing: Based on the Proceedings of a Conference Organized by the Institute of Mathematics and Its Applications on Mathematics and Its Applications in Remote Sensing Held at Danbury, Essex, in May 1986S. R. Brooks This volume presents an up-to-date survey of the mathematical techniques of use in the generation of data and extraction of information from satellite observation. It presents a state-of-the-art account of what is possible with today's mathematical tools and offers a perspective on the capabilities of future remote sensing systems. |
Contents
Problems in passive remote sensing of the Earths land | 17 |
Errors and uncertainties in feature recognition by | 37 |
The dynamics of Braggscattering waves on the sea surface | 57 |
Copyright | |
8 other sections not shown
Other editions - View all
Common terms and phrases
algorithms analysis angle application approach approximation assumed assumption classification compared complex component condition considered consistent contribution correlation corresponding defined depends derived described detection developed direction distribution edge effect equation error estimate example field Figure filter Fourier frequency function give given graph greyscale hexagonal important integral intensity interpretation labelling limited linear mean measurements method noise object observations obtained ocean operator parameters particular Pattern pixels polygons possible practice present probability problem produce projection properties radar range recognition reconstruction REFERENCES reflected region relation remote sensing represented resampling rough sampling satellite scale scattergram scattering scene scheme segments short shown shows simulation space spatial speckle spectral spectrum statistics structure surface techniques texture theory tile transform values waves zeros