France Energies Marines
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-- Warning, deliverable only available in French -- Delivrable D02.05 of the FEM PHYSIC 2015 project WP 2: Definition of the data acquisition strategy Task 2: Choice of measuring instruments
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-- Warning, deliverable only available in French -- Deliverable D02.03 of the FEM PHYSIC 2015 project Lot 2: Definition of the data acquisition strategy Task 1: Synthesis of knowledge
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-- Warning, deliverable only available in French -- Delivrable D02.05 of the FEM PHYSIC 2015 project WP 2: Definition of the data acquisition strategy Task 2: Choice of measuring instruments
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-- Warning, deliverable only available in French -- Delivrable D02.05 of the FEM PHYSIC 2015 project WP 2: Definition of the data acquisition strategy Task 2: Choice of measuring instruments
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-- Warning, deliverable only available in French -- Delivrable D02.05 of the FEM PHYSIC 2015 project WP 2: Definition of the data acquisition strategy Task 2: Choice of measuring instruments
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The present document refines the previous version submitted in October 2019, updates the initial assumptions, and depicts more clearly the exploitation routes and actions to reduce risks.
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Database of images collected at ABIOP monitoring sites (UTLN = Mola buoy offshore Banyuls, SEMREV = special marks east and north, UN = biocolmar buoy) + report on biofouling characterisation (rapport_taxo_ABIOP_provisoire)
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This study is a numerical experiment to evaluate the sensitivity and specificity of a set of ecosystem indicators, including ANS, to fishing pressure.
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The data management plan covers the complete research data life cycle. It describes the types of data that will be generated or collected during the project, the standards that will be used, how the data will be preserved and what parts of the datasets will be shared for verification or reuse.
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The Structured Innovation (SI) design tool forms part of the DTOceanPlus suite of second-generation open source design tools for ocean energy. The SI tool comprises innovation methodologies which can enhance concept creation and selection in ocean energy systems (including sub-systems, energy capture devices and arrays), enabling a structured approach to address complex ocean energy engineering challenges where design options are numerous, and thus it can facilitate efficient evolution from concept to commercialisation.