A remote sensing near infrared suspended sediment algorithm is developed from first
principles and applied to Compact Airborne Spectrographic Imagery (CASI) data flown
over the Humber Estuary. Laboratory measurements were used as the basis for the
algorithm development, with the resulting spectra indicating that the ideal wavelength for a
suspended sediment algorithm is the near infrared. The resulting algorithm took the form
of a waveband ratio which was subsequently validated with a semi-analytical water optics
model based on the absorption/scattering properties of the optically active constituents.
The model was then used to derive a global water-leaving radiance algorithm, which is
independent of the sediment type. The algorithm was applied to the CASI data collected
during August and September 1993, and the resulting SPM maps were compared with
contemporaneous in-situ measurements. The in-situ measurements include calculations of
the diffuse attenuation coefficient (Kd), which was correlated with the SPM concentration.
Further developments to the algorithm through the use of an atmospheric correction are
outlined.
Date of Award | 1996 |
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Original language | English |
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Awarding Institution | |
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Remote Sensing Of Suspended Sediment
LAVENDER, S. J. (Author). 1996
Student thesis: PhD