PILOT CASE STUDIES
This presentation is the property of its rightful owner.
Sponsored Links
1 / 2

QUAlity aware VIsualisation for the Global Earth Observation system of systems PowerPoint PPT Presentation


  • 45 Views
  • Uploaded on
  • Presentation posted in: General

PILOT CASE STUDIES. OBJECTIVES. CONTACT.

Download Presentation

QUAlity aware VIsualisation for the Global Earth Observation system of systems

An Image/Link below is provided (as is) to download presentation

Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.


- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -

Presentation Transcript


Quality aware visualisation for the global earth observation system of systems

PILOT CASE STUDIES

OBJECTIVES

CONTACT

  • GeoViQua relies on needs and requirements coming from GEO Communities of Practice (CoPs), including those already identified by the established GEO committees. GeoViQua proposes solutions, including protocols, involving end-users and stakeholders. To this purpose, 7 pilot case studies are developed including scenarios on:

  • transversal satellite data producers and massive satellite data processors (ESA and UAB),

  • Global Carbon Project (LSCE),

  • meteorological reanalysis (University of Reading in collaboration with the UK Met Office and UAB),

  • agricultural products (UAB in collaboration with JRC),

  • air quality in-situ sensors (52North),

  • marine fisheries (ESA), and

  • land cover changes (CREAF).

  • This broad range of applications enables to access the much-needed contextual expertise on real-world challenges, and promotes constant dissemination of GeoViQua research and development activities.

1. Provision of innovative tools to enhance the current infrastructure capability. GeoViQua’s major technical innovation is search and visualization tools for the community which communicate and exploit data quality information from GEOSS catalogues.

2. Development of the GEOLabel. GEOLabel requirements are identified (Work Package WP2), integrated with components (WP6), validated and applied into pilot cases (WP7), and disseminated to the community (WP8). It will be completed in collaboration with the GEO task ST-09-02.

3. Harmonization, exploitation and dissemination of project outputs. A careful validation process is conducted in collaboration with a number of communities of practice and standards committees to ensure that the project contributes effectively to the GCI architecture. Collaboration to AIP will be continuous.

QUAlity aware VIsualisation for the Global Earth Observation system of systems

01/02/2011 – 31/01/2014

SEVENTH FRAMEWORK PROGRAMME (nº 265178)

THEME [ENV.2010.4.1.2-2]

Integrating new data visualisation approaches

of earth Systems into GEOSS development

www.geoviqua.org

[email protected]

Edifici C

Campus de Bellaterra (UAB)

08193 Cerdanyola del Vallès

Barcelona, Catalonia. Spain

Phone: +34 93 5811312

Fax: +34 93 5814151

Pilot Cases (PC)


Quality aware visualisation for the global earth observation system of systems

STRUCTURE & WORK PLAN

THE ROLE OF QUALITY

WP1: Project management

RTD

WP2: Requirements for data quality visualisation

Components

WP3: Data quality elicitation mechanism

WP6: Delivery of solutions to end users

WP8: Dissemination and Capacity Building

constrained by

WP4: Enhanced geo-search tools

WP5: Quality aware visualisation tools

harmonised by

validated in

limits

WP7: Pilot case studies

2011

2012

2014

2013

1

1

2

2

3

3

4

4

5

5

6

6

7

7

8

8

9

9

10

10

11

11

12

12

13

13

14

14

15

15

16

16

17

17

18

18

19

19

20

20

21

21

22

22

23

23

24

24

25

25

26

26

27

27

28

28

29

29

30

30

31

31

32

32

33

33

34

34

35

35

36

36

Extraction from

Best practices

Direct extraction from

Metadata

Quality elicitation

categorical

User feedback

quality encoding

extraction

continuous variables

TOPICS COVERED

INTRODUCTION

variables

00

Validation

Search & Visualisation

Prototypes

Start

Mobile Solutions

Quality

Data

Quality

Pilot cases

recommendations

ready

parameterization

User & technical

User & technical

Workshops

requirements to

CoP

solutions to

CoP

CoP

Proposals evaluation

Final document

GeoLabel

Elicit from metadata

Elicit from provenance

Quantify

(CAL/VAL, in situ)

User feedback

Standard encoding

Elicitation derivation

Encoding

Label

Qualityvisualisation

Quality based search

GEO Portal and mobile devices

Link to data

Embed in data

Search and Visualisation

Embedding and linking

GeoViQua scientifically explores methodologies for extending the Global Earth Observation System of Systems (GEOSS) Common Infrastructure (GCI) adding rigorous data quality in search and visualisation GEOPortal. GeoViQua provides innovative components for augmenting the GEOSS and its adoption by the communities, contributing to catalyze research and development (R&D) activities on GEO (GEO task ST-09-01) and contributing to the GEOLabel development (GEO task ST-09-02). Methodologies for extending the current GCI will be explored and the new components validated through Architecture Implementation Pilots (AIP) to come (GEO 2009-2011 WORK PLAN).

  • Consortium Management and assessment of progress and results (WP1).

  • Collection of User Requirements and translation into Technical Requirements (output: Preliminary design, WP2).

  • Research and Development (output: Developed components ready for integration, WP3, WP4, WP5).

  • Components integration and validation (output: Integrated system, WP6).

  • Validation through pilot use cases studies (output: Validated system, WP7).

  • Outreach, sustainability, exploitation and contribution to standards (WP8).

  • Information sharing:

  • 2D and 3D data visualisation

  • Data quality, trust and low-bandwidth access

  • Web 2.0 and Volunteered Geographic

  • Quality assessment and quality metadata:

  • Relating data, metadata and quality

  • Data quality indicators; quality elicitation methods

  • Standards:

  • Standards for metadata and quality

  • Inclusion of data quality information into standards for data visualisation

  • Enhancing the GEOSS environment:

  • Data quality aware geo-search components

  • Advancing in the use of GEOSS visualisation tools

  • Quality information based on provenance information describing the processing and quality control applied to data: development of the GEOLabel.

  • Quality information also based on quantitative assessment of the uncertainty associated to data (QA4EO documentation).

  • Quality information based on user feedback related to user view of data utility in the form of subjective qualitative statements and reviewing mechanisms.


  • Login