{ "tag": 18764, "title": "SfM Quantitative Underwater Imaging Device with 5 cameras (SQUID-5) \u2013 Field data from periodic surveys of the Florida Keys and other select shallow water environments", "pubdate": "20231130", "sername": null, "series_name": null, "issue": "DOI:10.5066\/P9M3NYWI", "publish": null, "publisher_name": null, "onlink": "https:\/\/cmgds.marine.usgs.gov\/catalog\/pcmsc\/DataServices\/rscc\/SQUID\/SQUID5_DCP_metadata.faq.html", "format": null, "email": null, "descript": "The U.S. Geological Survey (USGS) Remote Sensing Coastal Change (RSCC) and Processes Impacting Seafloor Change and Ecosystem Services (PISCES) projects collect underwater imagery of coral reefs and other scientifically interesting, submerged environments using the novel SfM (Structure-from-Motion) Quantitative Underwater Imaging Device with 5 cameras (SQUID-5) system. This sensor collects imagery with optimized endlap\/sidelap and precise position information to create high-resolution orthomosaics, three-dimensional (3D) point clouds, and digital elevation\/surface models (DEMs\/DSMs) using SfM photogrammetry methods. These products are valuable for measuring submerged topographic and ecological change, and for understanding reef vulnerability and response to disturbance events. This is an ongoing collection of underwater imagery surveys of coral reefs and other clear water environments. Shallow water (approximately 2-10 meters [m] depth) digital imagery is acquired using the \"SfM Quantitative Underwater Imaging Device with 5 cameras\" (SQUID-5) towed surface sensor system. The system consists of five synchronized rigidly connected downward-looking digital cameras with overlapping views of the seafloor, along with a custom integrated survey-grade Global Navigation Satellite System (GNSS) receiver.", "lang": null, "journal": null, "pwid": null, "originator": [ { "name": "Kranenburg, Christine J.", "role": "Author" }, { "name": "Hatcher, Gerald A.", "role": "Author" }, { "name": "Warrick, Jonathan A.", "role": "Author" }, { "name": "Ritchie, Andrew C.", "role": "Author" }, { "name": "Zawada, David G.", "role": "Author" }, { "name": "Yates, Kimberly K.", "role": "Author" }, { "name": "Triezenberg, Peter J.", "role": "Author" }, { "name": "Buscombe, Daniel D.", "role": "Author" } ], "index_term": [ { "thcode": 2, "code": "174", "name": "coastal ecosystems", "scope": "Biological communities and habitats within the narrow zones of land between the margin of oceans or seas and large landmasses." }, { "thcode": 2, "code": "1799", "name": "coastal processes", "scope": "Processes unique to coastal areas including longshore transport, beach erosion, storm surge, shoreline change, delta formation, barrier island migration, beach stabilization by vegetation" }, { "thcode": 2, "code": "291", "name": "earth sciences", "scope": "Broad term for all science related to the study of the earth." }, { "thcode": 2, "code": "311", "name": "ecology", "scope": "Study of the relations between living plants and animals and their environment." }, { "thcode": 2, "code": "447", "name": "geography", "scope": "Study of the earth's landforms, topography, and climate, the distribution of flora and fauna, and the distribution, culture, and activities of human populations." }, { "thcode": 2, "code": "451", "name": "geologic processes", "scope": "All types of processes involving geological structures." }, { "thcode": 2, "code": "464", "name": "geology", "scope": "Study of the planet earth, its composition, structure, physical and chemical processes, and history since its origin." }, { "thcode": 2, "code": "468", "name": "geomorphology", "scope": "Branch of geology dealing with surface land features and the processes that create and change them." }, { "thcode": 2, "code": "474", "name": "geospatial datasets", "scope": "Collections of related digital information that are geographically referenced." }, { "thcode": 2, "code": "574", "name": "image analysis", "scope": "Pattern analysis of the shapes and textures of images to identify features and derive information about them." }, { "thcode": 2, "code": "575", "name": "image collections", "scope": "Visible representations of objects or earth properties produced by cameras, spectral instruments, or as graphical representations of measurements." }, { "thcode": 2, "code": "971", "name": "reef ecosystems", "scope": "Biological communities formed by the skeletons of calcareous seawater organisms, usually corals." }, { "thcode": 2, "code": "981", "name": "remote sensing", "scope": "Acquiring information about a natural feature or phenomenon, such as the Earth's surface, without actually being in contact with it. USGS remote sensing is usually carried out with airborne or spaceborne sensors or cameras." }, { "thcode": 2, "code": "2265", "name": "structure from motion", "scope": "Mathematical analysis, using photogrammetric principles, of multiple images that depict the same subject from different angles to derive geometrical information and relationships in three-dimensional space that are not inherent in any single image. Often used for deriving land elevation or large scale orthoimagery from a collection of aerial photographs." }, { "thcode": 2, "code": "1172", "name": "time series datasets", "scope": "Digital information describing observations taken at specified time intervals. The time interval may be regular or variable; the type of observed phenomena and the location are typically constant." }, { "thcode": 2, "code": "1281", "name": "visible light imaging", "scope": "Remote sensing methods using electromagnetic radiation which is visible to the human eye to react with the coating on a photographic plate or film." }, { "thcode": 15, "code": "006", "name": "elevation", "scope": "Height above or below sea level, for example altitude, bathymetry, digital elevation models, slope, derived products, DEMs, TINs" }, { "thcode": 15, "code": "007", "name": "environment", "scope": "Environmental resources, protection and conservation, for example environmental pollution, waste storage and treatment, environmental impact assessment, monitoring environmental risk, nature reserves, landscape, water quality, air quality, environmental modeling" }, { "thcode": 15, "code": "008", "name": "geoscientificInformation", "scope": "Information pertaining to earth sciences, for example geophysical features and processes, geology, minerals, sciences dealing with the composition, structure and origin of the earth's rocks, risks of earthquakes, volcanic activity, landslides, gravity information, soils, permafrost, hydrogeology, groundwater, erosion" }, { "thcode": 15, "code": "010", "name": "imageryBaseMapsEarthCover", "scope": "Base maps, for example land\/earth cover, topographic maps, imagery, unclassified images, annotations, digital ortho imagery" }, { "thcode": 15, "code": "014", "name": "oceans", "scope": "Features and characteristics of salt water bodies (excluding inland waters), for example tides, tidal waves, coastal information, reefs, maritime, outer continental shelf submerged lands, shoreline" }, { "thcode": 23, "code": "22", "name": "Bathymetry and Elevation", "scope": "Includes measures of the height of a location above or below a reference surface. Bathymetry is the elevation of the Earth's surface beneath a body of water, especially the ocean, typically determined by measurements of depth from the water surface at mean lower low water. Distributions are topographic maps and bathymetric charts based on collected data and also include smoothed or gridded maps of bathymetry and elevation from observational data or other associated factors. Assessment data types include models of ecological value, economic value, or current rates of alterations due to erosion, accretion, climate change, and other stressors (for example, wetland habitat loss). Predictions are the results of models or projections of future distributions, values, or ecological impacts of bathymetry, including predicted changes due to natural and human forces such as erosion, deposition, sea-level rise, and dredging activities; predictions also include the results of scenario-based models of bathymetry changes under different management strategies." }, { "thcode": 23, "code": "27", "name": "Habitat", "scope": "Habitat includes data that describe repeatable combinations of biota and associated chemical, physical, or geological features in a distinct place, which, as in the CMECS Biotic Component, generally are named for the dominant taxa living there. Habitat also includes biotopes in accordance with CMECS. Examples include seagrass beds, deep-water corals, benthos, nekton, plankton, mussel beds. Distributions for Habitat data subject types include records of biotic associations, habitats, or biotopes obtained through direct observation, imagery, collection, or other methods; Distributions also include biotope maps, predicted maps of present-day habitats (for example, the Northwest Atlantic Marine Ecoregional Assessment, Mapping European Seabed Habitats), and other compilations or interpretations from observed data. Assessments include ecological valuation indices, presence, quantity (hectares), or percentage of identified high-value habitats; other purpose-driven, regionally-specific indicators of ecological value; classifications of areas as critical habitat; ecological services models; evaluations of habitat condition; and place-based indices of susceptibility and vulnerability to disturbance. Predictions are the results of models or projections of future distributions, values, or impacts; anticipated changes produced by natural and human processes; future projections of cumulative impacts of single or multiple stressors; and scenario-testing habitat loss\/gain models and predictions of related ecological or economic effects under different management strategies." }, { "thcode": 23, "code": "21", "name": "Physical Habitats and Geomorphology", "scope": "Includes measures of the geologic and structural characteristics of the coast or sea floor, such as the features defined in the Geoform Component of CMECS. Distributions are detailed topographic and bathymetric maps, geolocated photographs, or sea-floor descriptions; Distributions includes maps that interpret observations to categorize areas on the basis of geoform types such as those in CMECS. Assessment types include evaluations of ecological or human use value and can include models that project environmental or economic effects of erosion, climate change, dredging, and other stressors. Predictions are the results of models or projections of future distributions, values, or ecological impacts of physical habitats, including predicted changes due to natural and human forces; they are also from scenario-based models of resource losses, gains, or impacts on ecological or economic values under different management strategies (for example, mining, removal, relocation, or the building of structures)." }, { "thcode": 61, "code": "283", "name": "coral reefs", "scope": "aquatic biogenic structures supporting a complex community of organisms with distinct roles in relation to the whole: framework builders (corals), along with binders, bafflers, dwellers, and destroyers." }, { "thcode": 61, "code": "173", "name": "seabed", "scope": "the floor of a sea or ocean." } ], "place_term": [], "image": [], "fan": [] }