14 October 2014 Detection of seagrass scars using sparse coding and morphological filter
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Abstract
We present a two-step algorithm for the detection of seafloor propeller seagrass scars in shallow water using panchromatic images. The first step is to classify image pixels into scar and non-scar categories based on a sparse coding algorithm. The first step produces an initial scar map in which false positive scar pixels may be present. In the second step, local orientation of each detected scar pixel is computed using the morphological directional profile, which is defined as outputs of a directional filter with a varying orientation parameter. The profile is then utilized to eliminate false positives and generate the final scar detection map. We applied the algorithm to a panchromatic image captured at the Deckle Beach, Florida using the WorldView2 orbiting satellite. Our results show that the proposed method can achieve <90% accuracy on the detection of seagrass scars.
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Ender Oguslu, Ender Oguslu, Sertan Erkanli, Sertan Erkanli, Victoria J. Hill, Victoria J. Hill, W. Paul Bissett, W. Paul Bissett, Richard C. Zimmerman, Richard C. Zimmerman, Jiang Li, Jiang Li, } "Detection of seagrass scars using sparse coding and morphological filter", Proc. SPIE 9240, Remote Sensing of the Ocean, Sea Ice, Coastal Waters, and Large Water Regions 2014, 92400G (14 October 2014); doi: 10.1117/12.2069325; https://doi.org/10.1117/12.2069325
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