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Copernicus in situ com ponent Overall coordination Henrik Steen Andersen ENEON Plenary Workshop 12 October 2016 Implemented by 1 I n situ data are an essential and integrated part of the Copernicus program m e The Copernicus programme

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1 Implemented by

Copernicus in situ com ponent

Overall coordination

Henrik Steen Andersen

ENEON Plenary Workshop 12 October 2016

SLIDE 2

pace

ENEON Plenary 12 October 2016

I n situ data are an essential and integrated part

f the Copernicus program m e

The Copernicus programme cannot deliver requested products and services without access to in situ data

SLIDE 3

pace

ENEON Plenary 12 October 2016

The Copernicus in situ com ponent

3 Implemented by

‘In situ data’ means data from ground-, sea- or air-borne sensors as well as reference and ancillary data licensed or provided for use in Copernicus

SLIDE 4

pace

ENEON Plenary 12 October 2016

Access to essential in situ data

!

I n situ data providers Copernicus services

SLIDE 5

pace

ENEON Plenary 12 October 2016

The Copernicus in situ com ponent

 I s im plem ented by the services, and by the EEA when overall

coordination is required;

 Provides reliable and sustainable access to in situ data, relying on existing capacities operated at national and

European level, and global observing systems;  Member states’ in situ infrastructures and data are essential

contributions to Copernicus.

SLIDE 6

pace

ENEON Plenary 12 October 2016

The Land Monitoring Service

Essential geospatial data sets

 Ortho-im agery  Buildings  Adm inistrative units  Hydrographic netw ork  Land cover/ use  Transport netw orks  Digital elevation m odels

Preferably delivered via w eb services

SLIDE 7

pace

ENEON Plenary 12 October 2016

Surface pressure observations used in the Copernicus clim ate reanalysis product

No of observations per 1x1 deg. per month in 2010 Few Many

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pace

ENEON Plenary 12 October 2016

Tim eliness and quality requirem ents

SLIDE 9

pace

ENEON Plenary 12 October 2016

I nput to the European Flood Aw areness System

Daily precipitation Runoff Meteorological observations Hydrological variables

Emergency Management Service

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pace

ENEON Plenary 12 October 2016

Near real tim e m arine in situ observations from European and global netw orks

Marine Environment Monitoring Service

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pace

ENEON Plenary 12 October 2016

I m plem enting the Copernicus in situ com ponent

Data requirements;
Access agreements

and cooperation with data providers;

Operational

management and processing of in situ data.

State of play across

all services;

Data access solutions

targeted multiple services;

Coordination and

exploitation of synergies across all services.

Service level Programme level

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pace

ENEON Plenary 12 October 2016

The Copernicus in situ com ponent

EEA’s m ain cross-cutting activities

Maintain an

verview of the

Copernicus in situ component Improve access to selected in situ data Raise the awareness about the Copernicus in situ component

SLIDE 13

pace

ENEON Plenary 12 October 2016

 The EEA will establish and maintain an overview of the Copernicus in situ component across and in cooperation with all Copernicus services.

Service fact sheets

Main in situ data

requirements;

Data used;
Data providers;
Data gaps.

Overview of the Copernicus in situ com ponent

State of play report

Summary of fact

sheets;

Cross-cutting

issues;

Risk analysis;
Evolution.

Critical gaps

Detailed

description of critical in situ data gaps;

Recommended

solutions;

Action plan.

Ad hoc inventories

Data providers;
Research

infrastructures;

Agreements and

access solutions.

SLIDE 14

pace

ENEON Plenary 12 October 2016

 The EEA will improve access to in situ data for Copernicus services by operating dedicated data portals and creating partnership agreements with critical data providers. I m prove access to in situ data

https://corda.eea.europa.eu/

Reference data access portal (CORDA) EIONET data flows Partnership agreements Specific data access solutions

SLIDE 15

pace

ENEON Plenary 12 October 2016

 The EEA will, in close cooperation with the Copernicus services, improve stakeholders' knowledge and understanding of the Copernicus in situ component. Aw areness raising activities

Newsletters Use cases Communication strategy Events

SLIDE 16

pace

ENEON Plenary 12 October 2016

Netw orks constitute an im portant part of the Copernicus in situ com ponent

Networks Copernicus services Networks

SLIDE 17

pace

ENEON Plenary 12 October 2016

Main challenges

 The Copernicus services are operational and require access to

sustainable and reliable netw orks;  Data policies and use conditions should not obstruct the

availability and applicability of data and the resulting products;

 Deeper involvem ent of networks and their members requires

clarity regarding Copernicus’ products and services, and their requirements for in situ data;  The evolution of observing netw orks and Copernicus needs to be synchronised;

 Targeted dialogue between Copernicus and the networks is

required to foster mutual understanding and strengthen partnerships.

SLIDE 18

18 Implemented by

Copernicus in situ com ponent

Overall coordination

Henrik Steen Andersen

ENEON Plenary Workshop 12 October 2016

I n situ data are an essential and integrated part

The Copernicus programme cannot deliver requested products and services without access to in situ data

The Copernicus in situ com ponent

‘In situ data’ means data from ground-, sea- or air-borne sensors as well as reference and ancillary data licensed or provided for use in Copernicus

Access to essential in situ data

!

I n situ data providers Copernicus services

The Copernicus in situ com ponent

 I s im plem ented by the services, and by the EEA when overall

coordination is required;

 Provides reliable and sustainable access to in situ data, relying on existing capacities operated at national and

European level, and global observing systems;  Member states’ in situ infrastructures and data are essential

contributions to Copernicus.

The Land Monitoring Service

Essential geospatial data sets

 Ortho-im agery  Buildings  Adm inistrative units  Hydrographic netw ork  Land cover/ use  Transport netw orks  Digital elevation m odels

Preferably delivered via w eb services

Surface pressure observations used in the Copernicus clim ate reanalysis product

No of observations per 1x1 deg. per month in 2010 Few Many

Tim eliness and quality requirem ents

I nput to the European Flood Aw areness System

Daily precipitation Runoff Meteorological observations Hydrological variables

Emergency Management Service

Near real tim e m arine in situ observations from European and global netw orks

Marine Environment Monitoring Service

I m plem enting the Copernicus in situ com ponent

and cooperation with data providers;

management and processing of in situ data.

all services;

targeted multiple services;

exploitation of synergies across all services.

Service level Programme level

The Copernicus in situ com ponent

EEA’s m ain cross-cutting activities

Maintain an

Copernicus in situ component Improve access to selected in situ data Raise the awareness about the Copernicus in situ component

 The EEA will establish and maintain an overview of the Copernicus in situ component across and in cooperation with all Copernicus services.

Service fact sheets

requirements;

Overview of the Copernicus in situ com ponent

State of play report

sheets;

issues;

Critical gaps

description of critical in situ data gaps;

solutions;

Ad hoc inventories

infrastructures;

access solutions.

 The EEA will improve access to in situ data for Copernicus services by operating dedicated data portals and creating partnership agreements with critical data providers. I m prove access to in situ data

https://corda.eea.europa.eu/

Reference data access portal (CORDA) EIONET data flows Partnership agreements Specific data access solutions

 The EEA will, in close cooperation with the Copernicus services, improve stakeholders' knowledge and understanding of the Copernicus in situ component. Aw areness raising activities

Newsletters Use cases Communication strategy Events

Netw orks constitute an im portant part of the Copernicus in situ com ponent

Networks Copernicus services Networks

Main challenges

 The Copernicus services are operational and require access to

sustainable and reliable netw orks;  Data policies and use conditions should not obstruct the

availability and applicability of data and the resulting products;

 Deeper involvem ent of networks and their members requires

clarity regarding Copernicus’ products and services, and their requirements for in situ data;  The evolution of observing netw orks and Copernicus needs to be synchronised;

 Targeted dialogue between Copernicus and the networks is

required to foster mutual understanding and strengthen partnerships.

18

Thank you for your attention