Introduction on GMES and its services

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Transcript Introduction on GMES and its services 

Copernicus services
and User Forum
Finnish GMES User Forum
Helsinki 9.1.2013
Mikko Strahlendorff
Overall view
USERS
Policy
Makers
&
Public
&
Private,
Commercial
What is
their need?
Examples of
Services Provided
Farming
Oil Spill Tracking
Air Quality
Flood
Surveillance
Arctic change
Information
Services
Land
Marine
Atmosphere
Space
Infrastructure
Emergency
&
In Situ
Infrastructure
OBSERVATION
Security
Climate
Sustainable observation
Services as main goal
Core services – EU/public supported
• Provide standardized common (multi-purpose)
information for Europe; using economies of scale
• Requested by the EU: link with European information
needs
• ‘public good’ data policy: open access and free licensing
Downstream services - Commercial/national
• Tailored for specific applications at local, regional,
national levels (public good or private use)
• EU encourages and supports the implementation of
these service layer (R&D)
GMES Services
Monitoring of Earth systems
Land
Marine
Atmosphere
Horizontal applications
Security
Emergency
Climate Change
Observational infrastructures
In-situ observation infrastructure:
air-, sea- and ground-based systems
and instruments
• (e.g. airborne, balloons, floats, ship-borne,
measuring stations, seismographs, etc)
Space infrastructure component
for GMES: different missions coordinated at European level
• Dedicated GMES missions: ESA Sentinels
• Contributing missions: EU National,
EUMETSAT and third parties
GMES Space component
•
Sentinel 1 – SAR imaging
 All weather, day/night applications, interferometry; for vessel
detection, oil spills etc.
 First launch 2013
•
Sentinel 2 – Multispectral imaging
 for land applications, e.g. urban, forest, agriculture, etc.
 First launch 2013
•
Sentinel 3 – Ocean & Land monitoring
 Wide-swath ocean color, vegetation, sea/land surface
temperature, ocean altimetry
 First launch 2013
•
Sentinel 4 – Geostationary atmospheric
 Atmospheric composition monitoring, transboundary
pollution
 First launch 2017 on EUMETSAT MTG-S
•
Sentinel 5 – Low-orbit atmospheric
 Atmospheric composition monitoring
 Precursor launch 2013, S5 first 2020 on EUM Post-EPS
•
JasonCS – Ocean reference altimetry
User Forum and requirements
• GMES should be user driven
• How is this working now? User Forum fills the flaw?
User Forum
Provides
requirements
to EC
Suomen
User Forum
GMES service
providers
Made user
requirements
themselves from now on
EC
requirements
ESA
gathers
from
services
Satelite
requirements
EEA
gathers
from
services
In situ
requirements
UK, Ranska
...
• EC runs thematic workshops for each domain
• User Forum has 2-3 domains on 1 meetings agenda
Emergency management
GIO-EMS in rush mode
21 activations in the period April 1, 2012 – now;
60% of activations, 78% of map products in Europe;
In Europe: 7 forest fires, 2 earthquakes, 3 “other” events;
Activations by AU in HU, IT (2), BG (2), ES (3), SE, PT,
RO, DE, FR;
• Outside Europe: primarily floods, triggered by European
AU and ASCU, and WFP, 3 in coordination with Int.
Charter “Space and Major Disasters”;
• Close to expected trend for first 8 months.
•
•
•
•
8
EMS Performance parameters
•
•
•
•
3 hours for activation start up
34 hours for satellite tasking and acquisition
8 hours for satellite reception and validation
17 hours for delivery of first post-event
product
• Average delivery time after activation
request: 2.5 days;
• Only few cases meet the End User target,
typically when satellite imagery is in
archive, or planned for monitoring
extensions.
• Major bottleneck is still the satellite
latency
Duration of activation phases
Map production and delivery
Satellite reception and validation
Satellite tasking & acquisition
70
60
Total duration (in hours)
• Target for End Users:
• Reference map 6 hours
• Delineation and Grading 24 hours
after activation request.
• Average timing achieved for products
needing new satellite acquisition:
50
40
30
20
10
0
Request Handling
Land service
GMES land monitoring service: Pan-European Component
- Providing land cover and land cover change
information at Pan
European scale (CORINE)
- Production of 5 thematic high resolution layers
- Dissemination + archiving + cataloguing
Follow up of FP 7 GEOLAND – Euroland
Sub-Delegated tasks to the EEA
GMES WP 2011 – 2012 – 2013 / Budget 22 Mi Euro
H. Dufourmont, EEA
Land service
Contract type : Framework contract for HRLs production + MS Grants
for validation and CLC 2012
Date : November 2011
6 LOTS divided per geographic
regions and thematic layers
Contractors : Metria (Se), Geo Ville (Au), VTT (Fi), GAF AG (De), SIRS
(Fr), Planetek (It), Planatek (Gr), Indra (Sp), Eurosense (Be), Rapid Eye
(De)
H. Dufourmont, EEA
Land service
Implementation of GIO land services Pan EU Component on track
except for:
•
•
Work going on regarding the participation of Candidate & potential Candidate
Countries.
Minor delay in production of High Resolution Layers, following the necessity of an
additional streamlining phase and the problems with availability of input imagery.
Mitigation measures:
•
•
Major mitigation measures had to be taken in the framework of the ESA GMES DWH
Coordination and flexibility amongst stakeholders is of key importance to keep the
planning
H. Dufourmont, EEA
Land service
GMES land monitoring service: Global Land Component
- Providing Biophysical Parameters (13) on near real
time, on a ten-daily frequency and with a world
coverage
- Quality Control and User feedback analysis
- Dissemination + archiving + cataloguing
Follow up of FP 7 GEOLAND – Biopar
Cross-Delegated tasks to the EU DG JRC
WP 2012 – 2013 / Budget 4 MEuro
LAI VGT
Contractors: VITO (Be), HYGEOS (Fr), Meteo France (Fr), ZAMG (Au),
IPMA (Pt), EOLAB (Sp), INRA (Fr), Tu Wien (Au), UCL (Be), Univ. Leicester
(Uk), Univ. Lisbon (Pt)
E. Bartholome, DG JRC
Atmosphere service
Objective
GMES regulation:
… air quality, atmospheric chemistry and composition
… essential element for climate change monitoring and the future provision of ECVs …
… on a regular basis and at regional and global levels…
NRT analysis and forecast, reanalysis of past years
•Air Quality for Europe
• O3, NO, NO2, CO, SO2, PM10, PM2.5
•Global Atmospheric composition
• Greenhouse gases, reactive gases,
• aerosol, stratospheric O3
•Climate Forcing
• CO2, CH4, monitoring and reanalysis of fluxes
•Solar Energy, UV
• Ozone records, ultraviolet radiation
Atmosphere service
Current implementation of pilot service
Outside GIO as FP7 research project MACC-II
•FP7-SPACE-2011: Prototype operational continuity of GMES services in
the Atmosphere area
•36 participants from 13 different countries
•27,7 M€ total cost (19 M€ EC contribution)
•From November 2011 to July 2014
•Coordinator: ECMWF (international organization)
www.gmes-atmosphere.eu
Atmosphere service
Follow-up
… from GMES User Forum consultation
Event
outcome
ENV/EEA
Assess feasibility [ETC/ACM]: to use MACC data for
concentration maps (population exposure)
ENV/MACC-II
Assess feasibility: early delivery of re-analysis based on
un-validated data (AQ in-situ)
EEA/MACC-II
Information on OGC-compatible service interfaces
MACC-II/national
user
Information meeting with AEA for DEFRA (UK)
MS input to User
Uptake
Re-analysis of 2011 pollution events
REA/ENTR/projects
meeting Air Quality service chain (e.g. MACCPASODOBLE-obsAIRve)
MACC-II/DWD
Clarification of UV radiation service scope
Main building blocks
Atmosphere service
Global system
 ECMWF Integrated Forecasting System
(IFS), coupled to global chemical
transport model (CTM)
 assimilates weather in situ data
and ~50 satellite sources, and composition
data from ~10 satellite sources
 extensive use of in situ composition data
for validation
Regional system
 Ensemble of seven nationally developed CTMs, European domain
 driven by data from Global system
 assimilates in-situ air-quality data and satellite data
Marine environmental service
Objective:
To provide information on the state of physical ocean and
marine ecosystems for the global ocean and the European
regional areas.
Monitoring and forecast plus reanalysis of past years on
•
Currents
•
Temperature
•
Salinity
•
Sea ice
•
Sea level
•
Surface winds
•
Biogeochemistry
Current implementation of a pilot service
Implementation:
Outside GIO as FP7 research project MyOcean2
• FP7-SPACE-2011: Prototype Operational
Continuity for the GMES Ocean Monitoring and
Forecasting Service
• 59 participants from 28 different countries
• 41,2 M€ total cost (28 M€ EC contribution)
• From April 2012 to September 2014
• Coordinator: Mercator Océan
http://www.myocean.eu.org
Marine environmental service
Follow up
… from GMES User Forum consultation
Event
outcome
DG MARE consultation, June 2012
Green paper on “Marine Knowledge 2020” from seabed
mapping to oceanographic forecasting
EEA / DG ENV
consultation on
MSFD needs
Use and evolution of GMES marine service for Marine
strategy framework Directive needs (Good Environmental
State – GES)
EuroGOOS /
national authorities
event, Oct. 2012
Nicosia declaration for the future European Ocean
Monitoring Service; enabling economies of scale and
avoiding duplication between the European and national
levels
MyOcean-2
catalogue
New release of MyOcean-2 catalogue (version 2.2)
published
MyOcean-2 Science
Days, Nov. 2012
Scientific conference on data, modelling, data
assimilation, validation, user requirements and
downstream applications
Marine environmental service
Main building blocks
• Thematic Assembly Centres
• Marine Forecasting Centres
• Preparing the operational service starting
September 2014
• Negotiations on
governance model for
marine service
Climate change service
EU Regulation (911/2010) specifies that “access to
information for climate change monitoring in support of
mitigation and adaptation policies” shall be included in
the GMES service component.
A Climate Change service must meet the
Global Climate Observing System goals:
 Monitor the climate system
 Detect and attribute climate change
 Assess impacts of, and support adaptation to,
climate variability & change
Climate change service
consultation process: expert group (2010-2011),
‘Helsinki GMES climate’ conference (Jul 2011),
GMES user forum (Nov 2011).
6th FP7 space call (closed since 21 Nov. 2012)
EC funding: 26 M€
re-analysis (global and EU regional)
quality assurance for ECVs
climate indicator toolbox
Attribution products
data access
Climate change building blocks
FP7 work programme 2010
MACC-II
(Nov 2011-July 2014)
MyOCEAN-II
(April 2012 – September 2014)
GeoLAND-2
(September 2008 – December 2012)
MONARCH-A
(March 2010 – February 2013)
CARBONES
(April 2010 – March 2013)
EURO4M
(April 2010 – March 2014)
ERA-CLIM
(January 2011 – December 2013)
FP7 work programme 2011
CORE-CLIMAX (30 months)
CHARMe
(24 months)
Climate change service
from European commission
e.g.,FP7 Space call
from other bodies e.g., ESA,
Eumetsat, EEA, WMO..
Climate Indicator Data Store
Customization platform
Sectorial Information System
Climate-ADAPT platform
Selected information
MS & other customers
for customer DGs
Outreach platform
Evaluation platform
Harmonization/Coordination & QA platform
SECURITY APPLICATIONS
Preparatory Workshop GMES Security – Jun 2012
• To inform Member States on GMES Security Activities and to
seek advise on the way ahead
• Framing document distributed prior to the meeting
• Series of presentations in 3 sessions (available in CIRCA):
• Border Surveillance
• Support to External Action
• Maritime Surveillance
• Detailed discussion in the Working-Groups (BS and SEA)
• About 55 participants / Debate
• Conclusions presented to the User Forum Oct 2012
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Security applications
• GMES support to EUROSUR (BS)
GMES BS WG: COM (ENTR, HOME, JRC), Frontex, EUSC, EMSA, EDA, ESA,
MS
Experts
Concept for EUROSUR, V1.0 of 3.12.2009
Concept of Operations for EUROSUR (CONOPS), V2.3 of 29.6.2011
FP7 call 2012 : LOBOS and SAGRES starting Jan 2013
Main stakeholders: FRONTEX, EMSA, EUSC (with Industry)
• GMES Support to EU External Actions (SEA)
GMES SEA WG: SGC, RELEX, DEVCO, ECHO, ENER, JRC, ESA, EDA, EUSC,
MS
Experts Since 2011: EEAS
2010: Identification of User Scenarios
2011: Involvement of EEAS (via CMPD)
2012: (late/early 2013) WG recommendations
2013 (Jan): kick-off of 2 FP7 follow-on projects: G-NEXT and G-SEXTANT
2014 (mid): Detailed operational specifications
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Security applications
• Maritime Surveillance
• Mapping of Maritime Surveillance Activities:
•
•
•
•
•
FP7: FP7 : DOLHIN, NEREIDS, SIMITISYS, PTMAR
ESA: MARISS;
EDA: MARSUR;
EMSA: Operations and R&D
Coordination by Maritime Projects Coordination Board (PCB)
• What else could be done in the area of Maritime Surveillance?
• (e.g. anti-piracy/smuggling, fisheries control, monitoring illegal waste dumping)
• Holistic approach needed to improve cost/benefit ratio
• Governance issues at stake
• different geometries across Member States
• fragmentation of user communities;
• Europe is still working on an integrated Maritime Strategy
•
•
•
Identification of requirements through CISE;
EDA to revitalise
Identification of requirements for the Defence (UK)
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FP7 GMES Security Projects timeline
FP7 GMES SECURITY projects
Call
2007
2009
2010
2011
2012
2013
2014
GMOSAIC
OPERATIONS
DOLPHIN
Call
2010
2015
NEREIDS
SIMTISYS
Call
2011
BRIDGES
SAGRES
Call
2012
LOBOS
G-NEXT
G-SEXTANT
2009
2010
2011
2012
2013
2015
2014
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Possible implementation/coordination
Services
Operators
Means
Atmosphere
ECMWF
Delegation agreement
Marine
EEA
Delegation agreement
Land
EEA
Delegation agreement
Climate
ECMWF
Delegation agreement
Security
FRONTEX
Delegation agreement
Emergency
ECHO/JRC
Administrative
Arrangement
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Next steps on Copernicus
• Decision on the budget (in/out MFF +
amount)
• If out MFF, intergovern. agreement
• New Regulation proposed by EC
• Debates + adoption by EP and Council (codecision)
• Delegation Agreements to be concluded (and
procurement)
• Start of the operations
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