Search results for " Multibeam"

showing 7 items of 7 documents

Assessing Seagrass Restoration Actions through a Micro-Bathymetry Survey Approach (Italy, Mediterranean Sea)

2022

Underwater photogrammetry provides a means of generating high-resolution products such as dense point clouds, 3D models, and orthomosaics with centimetric scale resolutions. Underwater photogrammetric models can be used to monitor the growth and expansion of benthic communities, including the assessment of the conservation status of seagrass beds and their change over time (time lapse micro-bathymetry) with OBIA classifications (Object-Based Image Analysis). However, one of the most complex aspects of underwater photogrammetry is the accuracy of the 3D models for both the horizontal and vertical components used to estimate the surfaces and volumes of biomass. In this study, a photogrammetry…

Geography Planning and DevelopmentbathymetryPosidonia oceanicaAquatic ScienceBiochemistryStructure from MotionPosidonia oceanica habitat restoration bathymetry Structure from Motion underwater photogrammetry multibeam monitoringmonitoring<i>Posidonia oceanica</i>; habitat restoration; bathymetry; Structure from Motion; underwater photogrammetry; multibeam; monitoringbathymetry; habitat restoration; monitoring; multibeam; Posidonia oceanica; Structure from Motion; underwater photogrammetrySettore BIO/03 - Botanica Ambientale E Applicatamultibeamunderwater photogrammetryWater Science and Technologyhabitat restorationWater; Volume 14; Issue 8; Pages: 1285
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Mapping Posidonia oceanica lower limit combining high resolution instruments (SSS and MBS)

2014

Posidonia oceanica seagrass lower limit Sicily Side Scan Sonar MultiBeam echo Sounder.
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Multibeam Sonar System for Detecting Seabed Features

2010

Settore BIO/07 - EcologiaBottom classification mapping Multibeam Sonar System Posidonia oceanica sand
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Discriminating between Posidonia oceanica meadows and sand substratum using multibeam sonar

2010

Abstract Di Maida, G., Tomasello, A., Luzzu, F., Scannavino, A., Pirrotta, M., Orestano, C., and Calvo, S. 2011. Discriminating between Posidonia oceanica meadows and sand substratum using multibeam sonar. – ICES Journal of Marine Science, 68: 12–19. High-resolution, multibeam sonar (MBS) (455 kHz) was used to identify two typologies of seabed 8 m deep: Posidonia oceanica meadow and sandy substratum. The results showed that the heterogeneity of the architecture of the P. oceanica canopy and the relatively simple morphology of a sandy substratum can be detected easily by statistical indices such as standard deviation or range-of-beam depth. Based on these indices, an automated classification…

Settore BIO/07 - EcologiaCanopyEcologybiologyStatistical indexSoil scienceAquatic Sciencebottom classification mapping multibeam sonar Posidonia oceanica sand SicilyOceanographybiology.organism_classificationSonarOceanographySeagrassPosidonia oceanicaEcology Evolution Behavior and SystematicsGeologySeabedICES Journal of Marine Science
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Un sistema integrato per ottimizzare le operazioni di monitoraggio e verità-mare

2008

Settore BIO/07 - EcologiaEcosistemi acquatici ROV Multibeam Golfo di Palermo
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A scenario-based assessment of the tsunami hazard in palermo, northern sicily, and the southern tyrrhenian sea

2020

Palermo is a populous city situated on the northern coast of Sicily, bordered by the Tyrrhenian Sea. This central part of the Mediterranean Sea features dramatic bathymetry, numerous subaqueous landslides and is also the epicentre to many subaqueous earthquakes. As such, the region is an area prone to tsunamis. This investigation uses the Cornell Multi-Grid Coupled Tsunami (COMCOT) tsunami modelling package to simulate five near-field landslides, and five near-field earthquakes regarded as worst-case credible scenarios for Palermo. The seismic simulations produced waves on a very small scale, the largest being c. 5 cm at its maximum height, and none of the earthquake-generated tsunami waves…

Settore GEO/02 - Geologia Stratigrafica E Sedimentologicatsunami submarine landslideearthquakeSettore GEO/03 - Geologia StrutturaleSettore GEO/04 - Geografia Fisica E Geomorfologiamultibeamtsunami; Sicily; multibeamtsunamiSicilygeo-hazard
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Morphological and structural analysis of the Ustica Island offshore (southern Tyrrhenian Sea) for the definition of the marine geological hazard

2008

ustica island multibeam echosounder volcanism southern tyrrhenian sea submarine geomorphology
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