• Home
  • Committees
  • Program
  • Authors
  • Papers
  • - Topics
  • - ID
  • Sponsors
  • Abstract Magazine
  • Category 1: Operational Oceanography from in-situ observations (including moorings, landers, floats, ROVs, AUVs, ASVs, Gliders)

    • 10. Combining in-situ measurements and video imagery to capture wave drivers on the Bilbao coast: Implications on ML for coastal morphodynamic assessment
    • 11. Monitoring Morphological Changes Using DIY Bathymetric Devices combined with satellite images
    • 12. Validation of SAR Drifting Buoy Experiments Using Updated Oceanographic Models
    • 14. PLOSEG – Plataforma de Observación del Estrecho de Gibraltar
    • 16. Oceanographic observatory on the north-west Mediterranean shelf/taud (pilot phase) abstract for poster
    • 17. Exploring battery limitations for underwater gliders
    • 22. Fishing Vessel Ocean Observing Network: An Emerging Collaborative Global Network
    • 28. Underwater Stand-Alone Observatory Landers as a Tool for Deep-Sea Habitat Restoration Monitoring
    • 29. Advancements in Pop-Up Buoy Technology for Enhancing Seafloor Data Collection: Insights from a Year of Trials
    • 32. From mobile and fixed monitoring platforms to the Digital Twin of the Ocean: synergies and impacts of the three European projects DIGI4ECO, SUN-BIO, and MERLIN
    • 37. Employing ADALM-PLUTO Software Defined Radio for the positioning and tracking of Pop-up buoys on a BlueBoat Unmanned Surface Vessel
    • 41. arine Litter Trackers: an original, innovative, low-cost way to track marine plastic litter and understand its dynamics Environment
    • 43. Evaluation of a real-time BTAG positioning and visualisation system
    • 47. Implementation of a Simulation Tool for Argos-Based Satellite Image Transmission for Seafloor Ecosystem Monitoring Using Pop-Up Buoys
    • 52. BGC processes from gliders in the SE Bay of Biscay
    • 53. RAISE project: Sustainable environmental caring and protection technologies, towards a zero emission environment
    • 56. Enhancing Species Video Detection Capabilities at the OBSEA Observatory through the Integration of EMUAS Cameras within the ANERIS Project Framework
    • 57. Autonomous Movement of Obsea Underwater Crawler for Monitoring Underwater Environments
    • 60. Monitoring Marine pH with the ANB AQ50 Sensor Integrated into the OBSEA Observatory
    • 64. The global success story of NemoSens micro-AUV
    • 78. Design of Swarms of Long-Term Oceanographic Landers
    • 81. Advances in the development of an acoustic location system for application in underwater autonomous gliders
    • 82. Multi-Vehicle Operations for High-Throughput Ocean Monitoring in Short Timeframes
    • 84. New Technologies to Characterize the State of Submarine Forest and their Services to Marine Ecosystems: A Field Campaign in Cabrera National Park
    • 86. The BENTHOSCOPE System: A versatile tool for seafloor characterization, benthic species identification, and habitat mapping

Organizers

AZTI UPC sarti

With the support of

Gobierno Vasco Pasaia Port Oarsoaldea EMSO-ERIC JERICO EuroGOOS OES SARTI Pays Basque Faro Maritimo VAsco Euskoos