NEMO-SN1 Abyssal Cabled Observatory in the Western Ionian Sea

Favali, P.; Chierici, F.; Marinaro, G.; Giovanetti, Gabriele; Azzarone, Adriano; Beranzoli, Laura; Santis, Angelo De; Embriaco, Davide; Monna, S.; Bue, Nadia Lo; Sgroi, Tiziana; Cianchini, Gianfranco; Badiali, L.; Qamili, Enkelejda; De, Mariagrazia; Falcone, Giuseppe; Montuori, Caterina; Frugoni, F.; Riccobene, G.; Sedita, M.; Barbagallo, G.; Cacopardo, G.; Calı̀, C.; Cocimano, R.; Coniglione, R.; Costa, M.; D’Amico, Antonio; Tevere, F. Del; Distefano, C.; Ferrera, F.; Giordano, V.; Imbesi, M.; Lattuada, D.; Migneco, E.; Musumeci, M.; Orlando, A.; Papaleo, R.; Piattelli, P.; Raia, G.; Rovelli, A.; Sapienza, P.; Speziale, F.; Trovato, A.; Viola, S.; Ameli, F.; Bonori, M.; Capone, A.; Masullo, R.; Simeone, F.; Pignagnoli, L.; Zitellini, Nevio; Bruni, F.; Gasparoni, F.; Pavan, Gianni

doi:10.1109/joe.2012.2224536

Cited by 47 publications

(29 citation statements)

References 19 publications

(26 reference statements)

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“…Technological progress has greatly improved our capability in deploying and recovering the observatories and the seafloor sensors safely. Using an electro-optical cable connecting the seafloor observatory to an on-land station, it is possible to retrieve data in real time, and to supply power to the observatory (e.g., Favali et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Seafloor Seismic Noise at Central Eastern Mediterranean Sites

Monna

Frugoni

et al. 2014

Seismological Research Letters

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Section: Discussionmentioning

confidence: 99%

Seafloor Seismic Noise at Central Eastern Mediterranean Sites

Monna

Frugoni

et al. 2014

Seismological Research Letters

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“…The marine industry was largely responsible for technical advances and science propagation, which justifies the significant number of articles that have a technical and economic perspective. More recently, there is a trend towards studies with social perspectives and networks of seafloor observatories for continuous geohazards monitoring [35,54,[217][218][219]. Therefore, direct monitoring represents a complementary manner, alongside conventional techniques in which environmental conditions call for deployment and provide enhanced confidence regarding geohazard assessments [139].…”

Section: Discussionmentioning

confidence: 99%

“…Marine geohazard surveys in the Mediterranean Sea were more frequent and this sea was the most studied, see Figures 5 and 7. For example, the publications by Italian authors revealed the impact of scientific efforts to recognize the geohazards along the Italian continental margin [34][35][36][37][38][39][40][41], one of the most seismically active regions in the central Mediterranean and the longest record of historical earthquakes in the world [41]. The data indicated without doubt the growth, evolution, and territorial expansion related to the research on marine geohazards.…”

Section: Time and Spacementioning

confidence: 99%

Marine Geohazards: A Bibliometric-Based Review

et al. 2019

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Marine geohazard research has developed during recent decades, as human activities intensified towards deeper waters. Some recent disastrous events (e.g., the 2004 Indian Ocean and 2011 Japan tsunamis) highlighted geohazards socioeconomic impacts. Marine geohazards encompass an extensive list of features, processes, and events related to Marine Geology. In the scientific literature there are few systematic reviews concerning all of them. Using the search string ‘geohazard*’, this bibliometric-based review explored the scientific databases Web of Science and Scopus to analyze the evolution of peer-reviewed scientific publications and discuss trends and future challenges. The results revealed qualitative and quantitative aspects of 183 publications and indicated 12 categories of hazards, the categories more studied and the scientific advances. Interdisciplinary surveys focusing on the mapping and dating of past events, and the determination of triggers, frequencies, and current perspectives of occurrence (risk) are still scarce. Throughout the upcoming decade, the expansion and improvement of seafloor observatories’ networks, early warning systems, and mitigation plans are the main challenges. Hazardous marine geological events may occur at any time and the scientific community, marine industry, and governmental agencies must cooperate to better understand and monitor the processes involved in order to mitigate the resulting unpredictable damages.

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“…Static hydrophone arrays, using underwater buoys, provide stable recordings and observations of foraging [1]- [3] but can only monitor a fixed location, making it difficult to track animals over longer distances. A bottommounted array with small aperture (2m) and high sampling rate has been deployed for 3D localization of multiple whales [4], [5]. More flexibility can be achieved by mounting hydrophones on a vessel.…”

Section: Introductionmentioning

confidence: 99%

Efficient artifacts filter by density-based clustering in long term 3D whale passive acoustic monitoring with five hydrophones fixed under an Autonomous Surface Vehicle

Ferrari

Poupard

Giraudet³

et al. 2019

OCEANS 2019 - Marseille

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Passive underwater acoustics allows for the monitoring of the echolocation clicks of cetaceans. Static hydrophone arrays monitor from a fixed location, however, they cannot track animals over long distances. More flexibility can be achieved by mounting hydrophones on a mobile structure. In this paper, we present the design of a small non-uniform array of five hydrophones mounted directly under the Autonomous Surface Vehicle (ASV) Sphyrna (also called an Autonomous Laboratory Vehicle) built by SeaProven in France. This configuration is made challenging by the 40cm aperture of the hydrophone array, extending only two meters below the surface and above the thermocline, thus presenting various artifacts. The array, fixed under the keel of the drone, is numerically stabilized in yaw and roll using the drone's Motion Processing Unit (MPU). To increase the accuracy of the 3D tracking computed from a four hour recording of a Sperm Whale diving several kilometers away, we propose an efficient joint filtering of the clicks in the Time Delay of Arrival (TDoA) space. We show how the DBSCAN algorithm efficiently removes any outlier detection among the thousands of transients, and yields to coherent high definition 3D tracks.

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NEMO-SN1 Abyssal Cabled Observatory in the Western Ionian Sea

Cited by 47 publications

References 19 publications

Seafloor Seismic Noise at Central Eastern Mediterranean Sites

Seafloor Seismic Noise at Central Eastern Mediterranean Sites

Marine Geohazards: A Bibliometric-Based Review

Efficient artifacts filter by density-based clustering in long term 3D whale passive acoustic monitoring with five hydrophones fixed under an Autonomous Surface Vehicle

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