⇒ TechOceanS: Technologies for Ocean Sensinghttps://repository.oceanbestpractices.org/handle/11329/17182024-03-29T14:37:00Z2024-03-29T14:37:00ZTechOceanS Deliverable 2.4. Plan for exploitation and dissemination of results (PEDR), Version 1.0.Porter, KeeganFinlay, SiveNí Cheallacháin, ClionaCardillo, Pamelahttps://repository.oceanbestpractices.org/handle/11329/21292023-01-31T00:00:41Z2021-01-01T00:00:00ZTechOceanS Deliverable 2.4. Plan for exploitation and dissemination of results (PEDR), Version 1.0.
Porter, Keegan; Finlay, Sive; Ní Cheallacháin, Cliona; Cardillo, Pamela
The TechOceanS Plan for Exploitation and Dissemination of Results (PEDR) describes the dissemination, communication and exploitation activities to be performed as a means to promote TechOceanS and exploit the project results. It is a dynamic document and therefore evaluated periodically for effective needs and adjusted if needed.
The TechOceanS PEDR outlines the EC rights and obligations of the consortium related to the dissemination and communication of project results, identifies key project stakeholders, defines the communication tools and channels and describes the means (tools, messages) of dissemination. In addition, it describes the internal processes and protocols set up to manage generated knowledge and to ensure exploitation of TechOceanS results.
The PEDR adopts EC best practice guidelines and defines the objectives of TechOceanS’ communication, dissemination and engagement strategy. It also identifies end-users, proposes communication tools and channels, and outlines responsibilities and resources to carry out effective knowledge management and measure impact. TechOceanS will develop and make use of the latest tools, resources and communication channels to ensure cost effectiveness and maximum impact.
2021-01-01T00:00:00ZTechOceanS Sensor Development templates: Specification Document.https://repository.oceanbestpractices.org/handle/11329/21282023-01-25T20:31:18Z2021-01-01T00:00:00ZTechOceanS Sensor Development templates: Specification Document.
The TechOceanS Sensor Development templates have been developed by the Ocean Technology and Engineering group at NOC and have been reviewed and used by partners in the project. The experience of the team has been crucial in defining the information required in these documents during the development of new technology. The User's Manual also includes the latest information included in sensor manuals, templates from the OBPS and recommendations in the ISO 22013.
These templates are open to review from the wider community including metrologists, sensor developers, manufacturers and end users. To send your inputs, please, add the information to Google Drive folder (https://drive.google.com/drive/folders/1lTlI2rHQLHtYl1yGhPniPm7mFE7ZGveD?usp=share_link).
2021-01-01T00:00:00ZSensor development templates: User’s Manual.López Garcia, PatriciaMowlem, Matt C.https://repository.oceanbestpractices.org/handle/11329/21262023-01-24T20:01:06Z2021-01-01T00:00:00ZSensor development templates: User’s Manual.
López Garcia, Patricia; Mowlem, Matt C.
The TechOceanS Sensor Development templates have been developed by the Ocean Technology and Engineering group at NOC and have been reviewed and used by partners in the project. The experience of the team has been crucial in defining the information required in these documents during the development of new technology. The User's Manual also includes the latest information included in sensor manuals, templates from the OBPS and recommendations in the ISO 22013.
These templates are open to review from the wider community including metrologists, sensor developers, manufacturers and end users. To send your inputs, please, add the information to the Google Drive folder (https://drive.google.com/drive/folders/1lTlI2rHQLHtYl1yGhPniPm7mFE7ZGveD?usp=share_link).
2021-01-01T00:00:00ZTechnologies for Ocean Sensing Deliverable 2.2 Engagement Strategy. Version 1.0.Porter, KeeganFinlay, SiveNí Cheallacháin, Clionahttps://repository.oceanbestpractices.org/handle/11329/21232023-01-18T00:19:46Z2020-01-01T00:00:00ZTechnologies for Ocean Sensing Deliverable 2.2 Engagement Strategy. Version 1.0.
Porter, Keegan; Finlay, Sive; Ní Cheallacháin, Cliona
TechOceanS will ensure robust communication of TechOceanS’s results by engaging key stakeholders through a range of strategic activities to translate research results. This strategy draws on the expertise of the whole partnership, particularly TechOceanS’s Theme 5 leaders as well as the industrial partners and those that work with regulatory bodies, who will provide valuable insights into the perception and communication channels of key target users. Stakeholder identification is a key aspect of stakeholder engagement. Partners will have a crucial role in initially populating the stakeholder database with relevant contacts, respecting GDPR considerations, especially of those from within the industrial, regulatory and policy sectors. Additional contacts will be added as the project progresses and networks are established. Communication and engagement will be a continuous process throughout the project and beyond. The purpose of the engagement activities described as part of this strategy below are to facilitate dialogue, build relationships and generate exchanges between TechOceanS and relevant industry, policy, science and societal stakeholders. Therefore, in order to design impactful activities, this strategy also provides an overview of the TechOceanS key stakeholder groups and outlines the strategy for identifying specific stakeholders within these groups.
2020-01-01T00:00:00ZLabSTAF and RunSTAF Handbook 2408-014-HB Issue F.Oxborough, Kevinhttps://repository.oceanbestpractices.org/handle/11329/1531.42022-12-16T21:00:53Z2022-01-01T00:00:00ZLabSTAF and RunSTAF Handbook 2408-014-HB Issue F.
Oxborough, Kevin
This introductory section provides a brief overview of the development of LabSTAF and RunSTAF and future aims for the development of Single Turnover Active Fluorometry (STAF). It also includes a description of the major differences between LabSTAF and the previous generation of active fluorometers. A comprehensive overview of the acronyms and terms used within this document is provided within Glossary of terms.
1.1 The STAFES-APP and TechOceanS projects
LabSTAF is the first of a new generation of research-grade active fluorometers developed by Chelsea Technologies Ltd (CTL) in collaboration with The University of Southampton (UoS) and the National Oceanographic Centre, Southampton (NOCS) as part of the STAFES-APP project within the NERC-funded OCEANIDS programme (NE/P020844/1). Additional, ongoing funding for STAF development is being provided through the EU-funded Technologies for Ocean Sensing (TechOceanS) programme (Technologies for Ocean Sensing | TechOceanS Project | H2020 | CORDIS | European Commission (europa.eu)).
The STAFES-APP acronym expands to Single Turnover Active Fluorometry of Enclosed Samples – for Autonomous Phytoplankton Productivity. The overall aim of the project was to develop highly sensitive benchtop and deployable systems that can be used to improve our understanding of the global carbon cycle and aquatic ecosystem function.
Primary productivity by phytoplankton (PhytoPP) accounts for approximately half of the carbon fixed by photosynthesis on a planetary scale. It follows that measurement of PhytoPP on wide spatial and temporal scales has enormous potential for developing our understanding of ocean productivity and improving climate change models. Arguably the most important way in which this target can be achieved is through the validation and development of satellite remote sensing, which operates on the widest possible spatial scales, but which currently includes large errors for the estimation of PhytoPP. Historically, validation of remote sensing algorithms for the estimation of PhytoPP has relied on data from 14C tracer-based methods, including photosynthetron-based measurement of 14C-fixation as a function of incident light (Geider and Osborne, 1992; Sakshaug et al. 1997). Because this method cannot be applied on meaningful spatial or temporal scales, there is currently extreme undersampling of the oceanic environment for PhytoPP at acceptable levels of accuracy (e.g., Lee et al. 2015). A key target for the STAFES-APP project was to develop new, STAF-based methods for the assessment of PhytoPP that can be used on much wider spatial and temporal scales than 14C-fixation, at comparable levels of accuracy and precision.
2022-01-01T00:00:00ZOceanGliders Oxygen SOP v1.0.0. [GOOS ENDORSED PRACTICE]Lopez-Garcia, PatriciaHull, TomThomsen, SoerenHahn, JohannesQueste, Bastien Y.Krahmann, GerdWilliams, CharlotteWoo, MunPattiaratchi, CharithaCoppola, LaurentMorales, TaniaRacapé, VirginieGourcuff, ClaireAllen, JohnAlou-Font, EvaZarokanellos, Nikolaos D.Turpin, VictorSchmechtig, CatherineTestor, PierreBusecke, JuliusBourma, EviRichards, ClarkPearce, StuartCarvalho, FilipaGiddy, IsabelleBegler, Christianhttps://repository.oceanbestpractices.org/handle/11329/19412023-08-22T20:59:01Z2022-01-01T00:00:00ZOceanGliders Oxygen SOP v1.0.0. [GOOS ENDORSED PRACTICE]
Lopez-Garcia, Patricia; Hull, Tom; Thomsen, Soeren; Hahn, Johannes; Queste, Bastien Y.; Krahmann, Gerd; Williams, Charlotte; Woo, Mun; Pattiaratchi, Charitha; Coppola, Laurent; Morales, Tania; Racapé, Virginie; Gourcuff, Claire; Allen, John; Alou-Font, Eva; Zarokanellos, Nikolaos D.; Turpin, Victor; Schmechtig, Catherine; Testor, Pierre; Busecke, Julius; Bourma, Evi; Richards, Clark; Pearce, Stuart; Carvalho, Filipa; Giddy, Isabelle; Begler, Christian
This standard operating procedure (SOP) document for dissolved oxygen (DO) aims to guide the user through the steps necessary to collect good quality dissolved oxygen data using ocean gliders for both real time and post deployment data streams.
2022-01-01T00:00:00Z