The Hierarchic Treatment of Marine Ecological Information from Spatial Networks of Benthic Platforms

Aguzzi, Jacopo; Chatzievangelou, Damianos; Francescangeli, Marco; Marini, Simone; Bonofiglio, Federico; Río, Joaquín Del; Danovaro, Roberto

doi:10.3390/s20061751

Cited by 36 publications

(55 citation statements)

References 110 publications

(120 reference statements)

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“…A large scale mapping survey can produce a large amount of data in short time [10]. This amount represents an exceptional technological challenge for data processing, storage, and transfer on board of AUVs.…”

Section: The Enduruns Overall Approachmentioning

confidence: 99%

“…Deep water exploration and new data collection in this domain are of special interest to provide new insights into a variety of geological and ecological processes [3]. For instance, there has been relevant industrial effort spent into deep water hydrocarbons exploration [6], offshore carbon capture and storage [7,8], exploitation of deep-sea mineral resources, or seafloor fibre-optic cables positioning for telecommunications purposes, as well as for seafloor observatories [9,10]. At the same time, political drivers push toward the implementation of new coordinated marine monitoring programmes for establishing, preserving and restoring relevant Marine Protected Areas as stated in the EU Marine Strategy Framework Directive (2008/56/EC).…”

Section: Introductionmentioning

confidence: 99%

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ENDURUNS: An Integrated and Flexible Approach for Seabed Survey Through Autonomous Mobile Vehicles

Marini

Gjeci²,

Govindaraj

et al. 2020

JMSE

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The oceans cover more than two-thirds of the planet, representing the vastest part of natural resources. Nevertheless, only a fraction of the ocean depths has been explored. Within this context, this article presents the H2020 ENDURUNS project that describes a novel scientific and technological approach for prolonged underwater autonomous operations of seabed survey activities, either in the deep ocean or in coastal areas. The proposed approach combines a hybrid Autonomous Underwater Vehicle capable of moving using either thrusters or as a sea glider, combined with an Unmanned Surface Vehicle equipped with satellite communication facilities for interaction with a land station. Both vehicles are equipped with energy packs that combine hydrogen fuel cells and Li-ion batteries to provide extended duration of the survey operations. The Unmanned Surface Vehicle employs photovoltaic panels to increase the autonomy of the vehicle. Since these missions generate a large amount of data, both vehicles are equipped with onboard Central Processing units capable of executing data analysis and compression algorithms for the semantic classification and transmission of the acquired data.

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Section: The Enduruns Overall Approachmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

ENDURUNS: An Integrated and Flexible Approach for Seabed Survey Through Autonomous Mobile Vehicles

Marini

Gjeci²,

Govindaraj

et al. 2020

JMSE

Self Cite

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“…All the sensors incorporated within the platform will operate at high frequency (e.g., making measurements each 30 min; see [30,55] for a procedural example) with multiparametric environmental data acquisition carried out over consecutive years, covering seasonal reproductive periods, periodic movements and migrations, and molting processes [56]. The NEREA SP will be also equipped with an embedded processing unit (e.g., Jetson TX2 Module) for performing simple data analysis tasks interpreting the content of the acquired data [5,57]. The sensing technology in the NEREA observatory will be compliant with the Sensor Web Enablement standards [58] and, based on this, intelligent services will be studied and developed for an adaptive management of the data collection [5,59].…”

Section: Instruments and Sensorsmentioning

confidence: 99%

“…The NEREA SP will be also equipped with an embedded processing unit (e.g., Jetson TX2 Module) for performing simple data analysis tasks interpreting the content of the acquired data [5,57]. The sensing technology in the NEREA observatory will be compliant with the Sensor Web Enablement standards [58] and, based on this, intelligent services will be studied and developed for an adaptive management of the data collection [5,59]. NEREA-fix provides an almost real-time data transmission system.…”

Section: Instruments and Sensorsmentioning

confidence: 99%

“…The data collected require complex processing by advanced computational approaches, such as niche and network modelling, as well as Artificial Intelligence (AI) algorithms [5,6], thus extending a vision already introduced in plankton investigations [7,8]. In addition, marine ecosystems are increasingly subjected to different anthropogenic stressors that can act synergistically and alter their diversity and functioning in a still, to date, not fully understood fashion.…”

Section: Introductionmentioning

confidence: 99%

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Towards Naples Ecological REsearch for Augmented Observatories (NEREA): The NEREA-Fix Module, a Stand-Alone Platform for Long-Term Deep-Sea Ecosystem Monitoring

Fanelli

Aguzzi

Marini

et al. 2020

Sensors

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Deep-sea ecological monitoring is increasingly recognized as indispensable for the comprehension of the largest biome on Earth, but at the same time it is subjected to growing human impacts for the exploitation of biotic and abiotic resources. Here, we present the Naples Ecological REsearch (NEREA) stand-alone observatory concept (NEREA-fix), an integrated observatory with a modular, adaptive structure, characterized by a multiparametric video-platform to be deployed in the Dohrn canyon (Gulf of Naples, Tyrrhenian Sea) at ca. 650 m depth. The observatory integrates a seabed platform with optoacoustic and oceanographic/geochemical sensors connected to a surface transmission buoy, plus a mooring line (also equipped with depth-staged environmental sensors). This reinforced high-frequency and long-lasting ecological monitoring will integrate the historical data conducted over 40 years for the Long-Term Ecological Research (LTER) at the station “Mare Chiara”, and ongoing vessel-assisted plankton (and future environmental DNA-eDNA) sampling. NEREA aims at expanding the observational capacity in a key area of the Mediterranean Sea, representing a first step towards the establishment of a bentho-pelagic network to enforce an end-to-end transdisciplinary approach for the monitoring of marine ecosystems across a wide range of animal sizes (from bacteria to megafauna).

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Methods with Nanoarchitectonics for Small Molecules and Nanostructures to Regulate Living Cells

2020

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as small molecules, their assemblies, and nanostructures would provide precious intuitions to explore functional materials systems for current social demands. In current research approaches on functional materials, it is believed that small structures have to be regulated with appropriate methods for optimization of their functions. [1] This is an essential way to fabricate functional materials with high efficiency and desired specificity. For necessary social demands, functional materials for various subjects such as energy production, [2] energy managements, [3] environmental remediation, [4] sensing for environmental risk, [5] ecological process, [6] information conversion, [7] and biomedical issues [8] have been developed with sufficient understanding of their structures and organization with high resolutions. In addition to well-developed organic synthesis, [9] catalysis, [10] materials fabrication, [11] and supramolecular chemistry, [12] analyses and manipulation in nanoscalelevel of materials become important. [13] In these decades, successful developments of nanotechnology and related science compensate required parts of analyses and manipulation of small structures [14] that were difficult to be achieved by pre-nanotechnology techniques. A step next to nanotechnology innovation would be the establishments of a general methodology to create functional material systems from nanoscale units and components with sufficient understanding of nanoscale structures. Bottom-uptype approaches for fabrication of functional materials are also well discussed with supramolecular chemistry including molecular recognition, molecular association, self-assembly, and self-organization. [15] Therefore, a certain kind of comprehensive methodology to combine nanotechnology with the other research fields such as organic chemistry and supramolecular chemistry has to be now established. This task is assigned to an emerging concept, nanoarchitectonics. [16] The nanoarchitectonics concept was originally proposed by Aono et al. [17] This concept, termed nanoarchitectonics, was originally proposed by Aono in 2000 as explained in some review articles, [17] like initiation of nanotechnology by Richard Feynman. [18] Nanoarchitectonics as scientific terminology was first proposed by Aono at 1st international symposium on nanoarchitectonics using suprainteractions (NASI-1) at Tsukuba in 2000. In early 21st century, this concept has been developed rapidly. This concept was proposed as a methodology to prepare Among all kinds of functional systems and mechanisms, living cells may be regarded as the most advanced functional material systems. Creation of celllike highly functional systems can be an ultimate goal of nanoarchitectonics research. Although full construction of cell-like functional objects may not be going to happen anytime soon, controls of living cells by small molecules and their nanoarchitected assemblies can be accomplishable research subjects. Nanoarchitectonics approaches are helpful for small molecules and nanostructures to...

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The Hierarchic Treatment of Marine Ecological Information from Spatial Networks of Benthic Platforms

Cited by 36 publications

References 110 publications

ENDURUNS: An Integrated and Flexible Approach for Seabed Survey Through Autonomous Mobile Vehicles

ENDURUNS: An Integrated and Flexible Approach for Seabed Survey Through Autonomous Mobile Vehicles

Towards Naples Ecological REsearch for Augmented Observatories (NEREA): The NEREA-Fix Module, a Stand-Alone Platform for Long-Term Deep-Sea Ecosystem Monitoring

Methods with Nanoarchitectonics for Small Molecules and Nanostructures to Regulate Living Cells

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