Detection and Dispersion of Thick and Film-Like Oil Spills in a Coastal Bay Using Satellite Optical Images

The spatial distribution of an oil spill and its temporal dispersion within a coastal bay were investigated using high-resolution optical images. A neural network (NN) method was applied to Landsat and DubaiSat-2 images to detect the oil spill. We conducted field observations to measure spectral cha...

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Bibliographic Details
Published inIEEE journal of selected topics in applied earth observations and remote sensing Vol. 9; no. 11; pp. 5139 - 5150
Main Authors Lee, Min-Sun, Park, Kyung-Ae, Lee, Hyung-Rae, Park, Jae-Jin, Kang, Chang-Keun, Lee, Moonjin
Format Journal Article
LanguageEnglish
Published IEEE 01.11.2016
Subjects
Accidents
Dispersion
Earth
Ekman drift
neural network (NN) method
oil spill
Oils
Remote sensing
Satellites
Sea measurements
Synthetic aperture radar
tidal current
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Summary:The spatial distribution of an oil spill and its temporal dispersion within a coastal bay were investigated using high-resolution optical images. A neural network (NN) method was applied to Landsat and DubaiSat-2 images to detect the oil spill. We conducted field observations to measure spectral characteristics of the oil spill and the oil-free sea surface. We were able to detect and eliminate pixels corresponding to ships and ship shadows on the satellite image, resulting in successful oil spill detection. A new recursive NN method using a near-infrared band was developed to classify oil types into thick or film-like oil and to estimate their areal extents. To understand potential causes of the temporal evolution of the oil spill, we performed numerical modeling with atmospheric and oceanic inputs. Overall, trajectories of oil particles controlled by tidal currents showed good agreement with the detection results from satellite data. Slight discrepancies occurred between satellite data and results from the model simulation using only tidal currents, particularly in the southeastward dispersion or in the spreading of film-like oils into the northern inner channels. This was attributed to the effect of wind-driven Ekman drift. This study suggests that tidal currents played an important role in the temporal dispersion of oil in the bay during initial phases, when wind conditions were relatively weak, and that the Ekman drift became the dominant control on oil movement during periods of weak tidal currents and strong winds.
ISSN:1939-1404
2151-1535
DOI:10.1109/JSTARS.2016.2577597