Evolution of a Benthic Imaging System From a Towed Camera to an Automated Habitat Characterization System

Evolution of a Benthic Imaging System From a Towed Camera to an Automated Habitat Characterization System

We have an operational and practical digital imaging system that delivers high resolution overlapping still images to a computer system on the bridge of a commercial scallop fishing vessel for immediate viewing, storage, and onboard image processing. This system produces 100 nautical mile long optic...

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Bibliographische Detailangaben
Hauptverfasser: Taylor, Richard, Vine, Norman, York, Amber, Lerner, Steve, Hart, Dvora, Howland, Jonathan, Prasad, Lakshman, Mayer, Larry, Gallager, Scott
Format: Report
Sprache:eng
Schlagworte:
Acoustic Detection and Detectors
ACOUSTIC IMAGES
AUTOMATION
BENTHIC COMMUNITY STRUCTURE
Biological Oceanography
CONTINENTAL SHELVES
Cybernetics
DIGITAL IMAGES
Ecology
FIELD STUDIES
FIELD TESTS
HABITAT CHARACTERIZATION
HABITATS
IMAGE PROCESSING
IMAGE REGISTRATION
Optical Detection and Detectors
OPTICAL IMAGES
SEDIMENT CHARACTERISTICS
SENTINEL STUDY SITES
SHELLFISH
SIDE LOOKING SONAR
SURVEYS
SYMPOSIA
TARGET CLASSIFICATION
Test Facilities, Equipment and Methods
TRAINING DATA
WATER COLUMN PROPERTIES
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Beschreibung
Zusammenfassung:We have an operational and practical digital imaging system that delivers high resolution overlapping still images to a computer system on the bridge of a commercial scallop fishing vessel for immediate viewing, storage, and onboard image processing. This system produces 100 nautical mile long optical transects of benthic taxa, communities, and associated substrate each day. It is intended to provide fisheries managers with accurate scallop population density estimates and habitat characterization. We call the instrument HabCam for habitat mapping camera system. Joint operations with NOAA vessels conducting annual scallop surveys has allowed for nearly direct comparison between estimates of scallop abundance by survey dredge and the HabCam imaging system. For 47 transects conducted jointly during 2007, dredge efficiency ranged from 10 to 80% with a mean of 40% (SD 23.9%) depending on area, substrate, tow direction relative to current, and mean distance between the dredge tow track and the HabCam imaging track. Integration of synoptically collected acoustical (675 kHz sidescan, 175 kHz synthetic aperture side scan and 300 kHz multibeam) and optical imaging has allowed for direct registration and comparison of sampling modalities, ground truthing of acoustical data, and extrapolation of information gained at small scale (1m) but high spatial resolution (1 mm) with optics to large scale (200 m) acoustical data sets. What was initially developed as a scallop survey tool has become an instrument system capable of providing information on habitat characterization, estimates of megafauna abundance, biodiversity, and species richness. A project called the Northeast Bentho-pelagic Observatory (NEBO) is using HabCam to evaluate these ecological parameters at sentinel study sites to document mechanistically how and why benthic community composition is changing over time. A key element in the development of HabCam as a tool for habitat characterization is the automated process Prepared in collaboration with the National Marine Fisheries Service, Los Alamos National Laboratory, and Center for Coastal and Ocean Mapping, University of New Hampshire. Presented at the MTS/IEEE Oceans 2008 Conference, Ocean, Poles and Climate: Technological Challenges, in Quebec City, Canada on 15-18 Sep 2008 and published in proceedings of the same. ISBN 978-1-4244-2620-1. See also ADM002176. The original document contains color images.