SeaDataNet Community Practiceshttps://repository.oceanbestpractices.org/handle/11329/8592024-03-29T11:32:09Z2024-03-29T11:32:09ZOcean Data Standards Volume 6: SeaDataNet Cruise Summary Report (CSR) metadata model for Cruise Reporting (including SeaDataNet CSR metadata profile, V5.2.0).Schaap, D.M.A.Tamm, S.Tosello, V.Boldrini, E.Nativi, S.Fichaut, M.https://repository.oceanbestpractices.org/handle/11329/23742024-01-15T14:04:02Z2021-01-01T00:00:00ZOcean Data Standards Volume 6: SeaDataNet Cruise Summary Report (CSR) metadata model for Cruise Reporting (including SeaDataNet CSR metadata profile, V5.2.0).
Schaap, D.M.A.; Tamm, S.; Tosello, V.; Boldrini, E.; Nativi, S.; Fichaut, M.
Scope: Proposal to acknowledge SeaDataNet Cruise Summary Report (CSR) metadata profile of ISO 19115 and ISO 19115-2 as a standard metadata model for the documentation of cruise reports. In particular, the proposal aims to promote CSR as a regional (i.e. European) standard.
The SeaDataNet infrastructure, its standards, services and products started to build since the mid-1990s under the EU MAST Programmes with the precursor EDMED, EURONODIM, MEDATLAS projects and continued with the EU-FP5 SeaSearch project (2002-2005). Under EU-FP6 Programme, the distributed SeaDataNet system was set up (2006-2011) and continued into its second phase under the EU-FP7 SeaDataNet II project (2011-2015). In the EU HORIZON 2020 SeaDataCloud project, the infrastructure is being upgraded and expanded making use of cloud services, High Performance Computing technology and taking into account the European Open Science Cloud (EOSC) challenge.
A CSR is used to document a cruise and its related field experiments at sea.
SeaDataNet CSR has been drafted and published as a metadata community profile of ISO 19115 and ISO 19115-2 by SeaDataNet, the leading infrastructure in Europe for
marine & ocean data management. Its wide implementation, both by data centres within SeaDataNet and by external organizations makes it also a de-facto standard in the Europe region. The acknowledgement of SeaDataNet CSR as a standard data model by IODE/JCOMM
will further favour interoperability and data management in the Marine and Oceanographic community.
Envisaged publication type: The proposal target audience includes all the European bodies, programs, and projects that report research cruises and field experiments at sea. Besides, the proposed document informs all the international community dealing with cruise reports about the SeaDataNet CSR metadata model.
2021-01-01T00:00:00ZOcean Data Standards Volume 8: SeaDataNet Common Data Index (CDI) metadata model for Marine and Oceanographic Datasets (including SeaDataNet CDI metadata profile of ISO 19115, V12.2.0).Schaap, D.M.A.Boldrini, E.Nativi, S.Tosello, V.Fichaut, M.https://repository.oceanbestpractices.org/handle/11329/23732024-01-15T14:04:35Z2021-01-01T00:00:00ZOcean Data Standards Volume 8: SeaDataNet Common Data Index (CDI) metadata model for Marine and Oceanographic Datasets (including SeaDataNet CDI metadata profile of ISO 19115, V12.2.0).
Schaap, D.M.A.; Boldrini, E.; Nativi, S.; Tosello, V.; Fichaut, M.
Scope: Proposal to acknowledge SeaDataNet Common Data Index (CDI) metadata profile of ISO 19115 as a standard metadata model for the documentation of Marine and Oceanographic Datasets. In particular, the proposal aims to promote CDI as a regional (i.e. European) standard.
The SeaDataNet infrastructure, its standards, services and products started to build since the mid-1990s under the EU MAST Programmes with the precursor EDMED, EURONODIM, MEDATLAS projects and continued with the EU-FP5 SeaSearch project (2002-2005). Under EU-FP6 Programme, the distributed SeaDataNet system was set up (2006-2011) and continued into its second phase under the EU-FP7 SeaDataNet II project (2011-2015). In the EU HORIZON 2020 SeaDataCloud project, the infrastructure is being upgraded and expanded making use of cloud services, High Performance Computing technology and taking into account the European Open Science Cloud (EOSC) challenge.
SeaDataNet CDI has been drafted and published as a metadata community profile of ISO 19115 by SeaDataNet, the leading infrastructure in Europe for marine & ocean data management. Its wide implementation, both by data centres within SeaDataNet and by
external organizations makes it also a de-facto standard in the Europe region. The acknowledgement of SeaDataNet CDI as a standard data model by IODE/JCOMM
will further favour interoperability and data management in the Marine and Oceanographic community.
Envisaged publication type: The proposal target audience includes all the European bodies, programs, and projects that manage and exchange marine and oceanographic
data. Besides, the proposed document informs all the international community dealing with marine and oceanographic data about the SeaDataNet CDI metadata model.
2021-01-01T00:00:00ZOcean Data Standards Volume 7: SeaDataNet Common Data Index (CDI) metadata model for Marine and Oceanographic Datasets – XML encoding (including SeaDataNet metadata profile of ISO 19115 - XML encoding, V12.2.0).Schaap, D.M.A.Boldrini, E.Nativi, S.Tosello, V.Fichaut, M.https://repository.oceanbestpractices.org/handle/11329/23722024-01-15T14:05:01Z2021-01-01T00:00:00ZOcean Data Standards Volume 7: SeaDataNet Common Data Index (CDI) metadata model for Marine and Oceanographic Datasets – XML encoding (including SeaDataNet metadata profile of ISO 19115 - XML encoding, V12.2.0).
Schaap, D.M.A.; Boldrini, E.; Nativi, S.; Tosello, V.; Fichaut, M.
SeaDataNet Common Data Index (CDI) metadata model for Marine and Oceanographic Datasets – XML encoding
Scope: Proposal to adopt SeaDataNet CDI XML encoding as the reference XML implementation of SeaDataNet CDI metadata model.
The SeaDataNet infrastructure, its standards, services and products started to build since the mid-1990s under the EU MAST Programmes with the precursor EDMED, EURONODIM, MEDATLAS projects and continued with the EU-FP5 SeaSearch project (2002-2005). Under EU-FP6 Programme, the distributed SeaDataNet system was set up (2006-2011) and continued into its second phase under the EU-FP7 SeaDataNet II project (2011-2015). In the EU HORIZON 2020 SeaDataCloud project, the infrastructure
is being upgraded and expanded making use of cloud services, High Performance Computing technology and taking into account the European Open Science Cloud (EOSC) challenge.
SeaDataNet CDI XML encoding has been drafted, published and firstly implemented in
the context of SeaDataNet, the leading infrastructure in Europe for marine & ocean data management. Its wide implementation, both by data centres within SeaDataNet and by
external organizations makes it also a de-facto standard in the Europe region. The acknowledgement of SeaDataNet CDI XML encoding as a recommended standard by IODE/JCOMM will further favour interoperability between European data centres and outreach to the broader marine community
2021-01-01T00:00:00ZSeaDataNet data management protocols for glider data. D9.14, Version 1.2.Hebden, M.Buck, J.https://repository.oceanbestpractices.org/handle/11329/21182023-03-29T09:31:46Z2019-01-01T00:00:00ZSeaDataNet data management protocols for glider data. D9.14, Version 1.2.
Hebden, M.; Buck, J.
The purpose of this document is to: i) ensure that SeaDataNet partners exposed to glider data are aware of glider data management best practice and have the knowledge needed to assimilate glider data into SeaDataNet and ii) advise SeaDataNet itself on how best to align with and help steer emerging international protocols for glider data management and exchange.
2019-01-01T00:00:00ZSeaDataNet data management protocols for HF Radar data. WP9 - Deliverable D9.12. Version 1.6.Corgnati, L.Mantovani, C.Novellino, A.Jousset, S.Cramer, R.N.Thijsse, P.https://repository.oceanbestpractices.org/handle/11329/15112021-02-09T22:52:51Z2019-01-01T00:00:00ZSeaDataNet data management protocols for HF Radar data. WP9 - Deliverable D9.12. Version 1.6.
Corgnati, L.; Mantovani, C.; Novellino, A.; Jousset, S.; Cramer, R.N.; Thijsse, P.
This document specifies the QC standard procedures, the standard interoperable data and metadata format and the derived CDI metadata format for historical radial and total velocity data measured by HF Radars. These standard procedures and formats are necessary for the ingestion of historical HF Radar current data into SDN catalogues.
2019-01-01T00:00:00ZSWE Ingestion Service and User Interfaces. Version 1.1.Jirka, SimonAutermann, ChristianDe Wall, ArneHollmann, CarstenJürrens, Eike HinderkRadtke, MaurinRieke, MatthesSchulte, Janhttps://repository.oceanbestpractices.org/handle/11329/14272020-10-25T17:55:36Z2018-01-01T00:00:00ZSWE Ingestion Service and User Interfaces. Version 1.1.
Jirka, Simon; Autermann, Christian; De Wall, Arne; Hollmann, Carsten; Jürrens, Eike Hinderk; Radtke, Maurin; Rieke, Matthes; Schulte, Jan
SeaDataNet strives for a common standardised approach for describing and giving discovery and access to marine data from different marine disciplines. Next to delayed mode data sets by means of the CDI data discovery and access service, standardising efforts are also directed towards (near) real-time data streams as collected by operational sensors and platforms. For this application, the SeaDataCloud project has built upon these SWE standards to support the interoperable sharing of (near) real-time observation data streams. A SeaDataCloud team, led by partner 52°North, has developed the open source SeaDataNet SWE Toolkit which comprises the following components:
- SWE Ingestion Service: this component supports sensor operators to receive and ingest marine observation data from platforms and sensors into a local storage database. From there (selected) data can be published as streams of (near) real-time observation data by means of SOS servers. As first step after installing the Ingestion service, the structure of the data stream has to be described in the local database, specifying platforms and sensors with SWE metadata profiles, supported by SeaDataNet SWE vocabularies, and using the 52°North SMLE editor.
- SWE Viewing Services: This component, which is based on the 52°North Helgoland Sensor Web Viewer, is an application for exploring and visualising the data streams as retrieved through the SOS services. The viewer supports different types of observation data. It is capable to visualise data measured along trajectories (e.g. by research vessels) as well as profile data, besides time series data showing the historic variations of one or more parameters at fixed locations (e.g. fixed buoys and sensor stations).
This document describes the implementation of the SeaDataCloud SWE Ingestion Service. The aim of this component is to support sensor operators, researchers and data owners during the publication of collected marine observation data. A more detailed specification of this component is available as part of the SeaDataCloud deliverable D9.9 “Specification of the SWE ingestion service, including SWE profiles and architecture”.
The description in this document comprises on the one hand the backend implementation which performs the collection of data from different sources, the interpretation and conversion into an internal data model (based on the ISO/OGC Observation and Measurements (O&M) standard, as well as the publication of the collected data into the database of an interoperable OGC Sensor Observation Service (SOS) instance (section 3). On the other hand, a frontend component is described which allows to define and manage data ingestion workflows (section 4).
2018-01-01T00:00:00ZSpecification of the SWE ingestion service, including SWE profiles and architecture. Version 1.3.Jirka, SimonAutermann, Christianhttps://repository.oceanbestpractices.org/handle/11329/14262020-10-25T18:06:43Z2017-01-01T00:00:00ZSpecification of the SWE ingestion service, including SWE profiles and architecture. Version 1.3.
Jirka, Simon; Autermann, Christian
SeaDataNet strives for a common standardised approach for describing and giving discovery and access to marine data from different marine disciplines. Next to delayed mode data sets by means of the CDI data discovery and access service, standardising efforts are also directed towards (near) real-time data streams as collected by operational sensors and platforms. For this application, the SeaDataCloud project has built upon these SWE standards to support the interoperable sharing of (near) real-time observation data streams. A SeaDataCloud team, led by partner 52°North, has developed the open source SeaDataNet SWE Toolkit which comprises the following components:
- SWE Ingestion Service: this component supports sensor operators to receive and ingest marine observation data from platforms and sensors into a local storage database. From there (selected) data can be published as streams of (near) real-time observation data by means of SOS servers. As first step after installing the Ingestion service, the structure of the data stream has to be described in the local database, specifying platforms and sensors with SWE metadata profiles, supported by SeaDataNet SWE vocabularies, and using the 52°North SMLE editor.
- SWE Viewing Services: This component, which is based on the 52°North Helgoland Sensor Web Viewer, is an application for exploring and visualising the data streams as retrieved through the SOS services. The viewer supports different types of observation data. It is capable to visualise data measured along trajectories (e.g. by research vessels) as well as profile data, besides time series data showing the historic variations of one or more parameters at fixed locations (e.g. fixed buoys and sensor stations).
This document describes the SeaDataCloud SWE Ingestion Service and several related aspects (i.e. SWE Ingestion Architecture and necessary SWE profiles). The aim of this component is to support sensor operators, researchers and data owners during the publication of collected marine observation data. It is strongly based on interoperability standards for handling measurement data (especially the OGC Sensor Web Enablement Standards including OGC SOS, O&M as well as SensorML).
2017-01-01T00:00:00ZSeaDataNet Cruise Summary Report (CSR) metadata profile of ISO 19115-2 – XML encoding, Version 4.0.0.Boldrini, EnricoNativi, Stefanohttps://repository.oceanbestpractices.org/handle/11329/10442019-09-23T13:25:44Z2019-01-01T00:00:00ZSeaDataNet Cruise Summary Report (CSR) metadata profile of ISO 19115-2 – XML encoding, Version 4.0.0.
Boldrini, Enrico; Nativi, Stefano
Encoding of the SeaDataNet Cruise Summary Report (CSR) metadata profile in XML, by means of both XML schema and Schematron rules definitions, Version 4.0.0, January 2019.
This document has been drafted in the context of the EU FP7 SeaDataNet II project and EU H2020 SeaDataCloud project by CNR. “ISO/IEC Directives, Part 2: Rulesfor the structure and drafting of International Standards”was used as a reference for the drafting.
2019-01-01T00:00:00ZSeaDataNet metadata profile of ISO 19115–XML encoding, Version 11.0.0.Boldrini, EnricoNativi, Stefanohttps://repository.oceanbestpractices.org/handle/11329/10422019-09-23T13:27:31Z2019-01-01T00:00:00ZSeaDataNet metadata profile of ISO 19115–XML encoding, Version 11.0.0.
Boldrini, Enrico; Nativi, Stefano
Encoding of the SeaDataNet metadata profile in XML, by means of both XML schema and Schematron rules definitions.
This document has been drafted in the context of the EU FP7 SeaDataNet II project and EU H2020 SeaDataCloud project by CNR. “ISO/IEC Directives, Part 2: Rules for the structure and drafting of International Standards”was used as a reference for the drafting.
2019-01-01T00:00:00ZSeaDataNet metadata profile of ISO 19115, Version 11.0.0.Boldrini, EnricoNativi, Stefanohttps://repository.oceanbestpractices.org/handle/11329/10412019-09-23T13:29:30Z2019-01-01T00:00:00ZSeaDataNet metadata profile of ISO 19115, Version 11.0.0.
Boldrini, Enrico; Nativi, Stefano
Definition of SeaDataNet metadata profile, according to ISO 19115 international standard specification, Version 11.0.0, January 2019.
This document has been drafted in the context of the EU FP7 SeaDataNet project and EU H2020 SeaDataCloud project by CNR. “ISO/IEC Directives, Part 2: Rules for the structure and drafting of International Standards”was used as a reference for the drafting.
2019-01-01T00:00:00Z