This online European Open Science Cloud (EOSC) event was held on 15 December 2021.
You’ll get information about:
- Developments in the EOSC Association
- The work of the new EOSC Advisory Groups and Task Forces
- What’s happening in some of the EOSC implementation projects
- Ways you can become involved in EOSC
1. ENVRI-FAIR has received funding from the European Union’s Horizon 2020 research and
innovation programme under grant agreement No 824068
ENVRI-Hub
the open-access platform of the environmental sciences community in Europe
by Andreas Petzold and Rita Gomes | Forschungszentrum Juelich, Germany
and Ari Asmi (2), Katrin Seemeyer (1), Angeliki Adamaki (3), Alex Vermeulen (3), Daniele Bailo (4), Keith Jeffery (5), Helen Glaves (5), Zhiming Zhao
(6), Markus Stocker (7), Maggie Hellström (8), and Magdalena Brus(3)
(1) Forschungszentrum Jülich GmbH, Jülich, Germany; (2) University of Helsinki, Helsinki, Finland; (3) ICOS ERIC, Carbon Portal, Lund University, Lund, Sweden; (4) EPOS-ERIC, Istituto Nazionale di Geofisica
e Vulcanologia, Roma, Italy; (5) British Geological Survey, Nottingham, United Kingdom; (6) University of Amsterdam, Amsterdam, The Netherlands; (7) TIB — Leibniz Information Centre for Science and
Technology, Hannover, Germany, (8) Lund University, Lund, Sweden
2. ENVRI Community
provide data and research products from all four sub-domains of the
Earth system as part of the global monitoring of the state of the Planet
Environmental Research Infrastructures Environmental Research Infrastructures
provide data and research products from all
four sub-domains of the Earth system
data are crucial European contributions to
global-scale monitoring of the state of the Earth
data are vital for assessing past and defining
future policies, and for the development of
environment-friendly innovations
provide research data and services by open
access via the ENVRI-Hub
3. FAIRness Challenges of the Data Life Cycle
Standard
Operating
Procedures
MetaData formats
Naming conventions
Data analysis
workflows
Use of PIDs
Workflow
management
Provenance
Vocabularies
Machine access
AAI
Licenses
Trusted
repositories
Sustainable
infrastructures
4. Access to ENVRI Assets (1 of 4)
Stage 1 today: Direct access through RI portals
Example
5. Access to ENVRI Assets (2 of 4)
Stage 2: Direct access through RI portals + Subdomain Access
Example
6. Access to ENVRI Assets (3 of 4)
Stage 3: Integrated Access to ENVRI Assets
Example
7. Access to ENVRI Assets (4 of 4)
Stage 3: Integrated Access to ENVRI Assets
Example
User community
accessing ENVRI
ecosystem via
ENVRI-hub
Specialised users
accessing RIs or
sub-domains
directly via RI
portals or APIs
9. ENVRI-Hub User Stories (2 of
2)
Basic data discovery Basic service discovery and use
Advanced data discovery and use Very advanced service discovery and use
10. ENVRI-Hub Strategic Concept (1 of
2)
Traditional direct connection to RI s
RI 1 Data centre 1
RI 2 Data centre 2
RI 3 Data centre 3
RI 4 Data centre 4
RI 5 Data centre 5
11. ENVRI-Hub Strategic Concept (2 of
2)
Traditional direct connection to RI s
RI 2
RI 3
RI 4
RI 5
RI 1
Data centre 2
Data centre 3
Data centre 4
Data centre 5
Data centre 1
Alternative
connectivity via
ENVRI-Hub
Service
catalogue
Metadata
catalogue
Notebook
engine
Notebook repository
Documentation
ENVRI-Hub
Discovery of
RI services
Direct access to RI data/
service layer
Commonality,
re-use, engagement
12. ENVRI-Hub Pillars (1 of 2)
ENVRI Community
Research Infrastructures Web UI based access to the ENVRI ecosystem
quick discovery of data, services and assets
sharing of engineering practices, technologies
and knowledge
Machine actionable interface to the ENVRI ecosystem
cataloguing all RIs in the ENV domain
accessing RIs datasets via metadata search
interface to EOSC and other users (e.g. Copernicus)
Jupyter notebooks on scientific use cases
Use cases are made accessible as executable
demonstrators and demonstrator VREs
13. ENVRI-Hub Pillars (2 of 2)
ENVRI Community
Research Infrastructures
ENVRI scientific demonstration services:
set up to highlight added value from interoperable
ENVRI data and research services;
are made accessible as executable demonstrators
and demonstrator VREs;
are based on the Jupyter Notebook technology to
ensure flexibility in further development.
Essential Climate Variables demonstrator
Satellite – ground-site collocation tool
Essential Ocean Variables demonstrator
EPOS solid earth user stories
Soil Moisture product
Biodiversity in a changing climate
(EOSC Future Science Project)
16. ENVRI research infrastructures
offer wide variety of research
services and data on environ-
mental domain “in-situ” aspects
ENVRI-FAIR creates FAIR data
and service use for Earth system
science, and connects ENVRI to
European Open Science Cloud
ENVRI-Hub will be the platform for:
discovery of services and data
documented standardised
interfaces, machine actionability
re-usability and user support
ENVRI and the other Science Clusters
build services across domain-
specific borders to broaden the
capabilities of EOSC for the benefit
of science, technology and society
Coordination: Andreas Petzold, FZ Jülich: a.petzold@fz-juelich.de
envri.eu/envri-
fair
@envri_fair company/envri-fair facebook.com/ENVRIcomm
Editor's Notes
Notes: WILL NOT REPLACE RI DATA CENTRES
Not all data necessarily available via Hub (esp. restricted data)
Notes: WILL NOT REPLACE RI DATA CENTRES
Not all data necessarily available via Hub (esp. restricted data)