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THE ENVIRONMENTAL OBSERVATION WEB AND ITS SERVICE APPLICATIONS WITHIN THE FUTURE INTERNET
“ENVIROfying” the Future Internet
Project introduction and technical foundations (I) INSPIRE Conference Firenze, 23 June 2013 Jose Lorenzo Atos Spain
© 2013 CONCORD Project Consortium 2
FI-WARE: Technology Foundation
SME Innovation
3rd Call Use Case
Expansion Phase
Call 3
TF Continuation
FI-CONTENT 2
FITMAN
FI-STAR
FIspace
Call 2
FINESCE
XIFI: Capacity Building
INFINITY: Capacity Building & Infrastructure
ENVIROFI
Call 1
CONCORD: Programme Facilitation & Support
2011 2010 2012 2013 2014 2015
Phase 3 Phase 1 Phase 2
FI-CONTENT
USE
CAS
ES
OUTSMART
SafeCity
FINSENY
SMARTAGRIFOOD
Instant Mobility
FInest
2
FI-PPP Programme implementation: 3 Phases
APPLICATION AREAS IN PHASES 1 AND 2
© 2013 CONCORD Project Consortium 3
Agricultural food production and logistics SmartAgrifood (Ph. 1)
Personal mobility Instant Mobility (Ph. 1)
e-Health FI-STAR (Ph. 2)
Networked media including gaming FI-CONTENT (Ph. 1)
Public urban infrastructures OUTSMART (Ph. 1)
Smart energy FINSENY (Ph. 1)
Transport and logistics FINEST (Ph. 1)
Networked media including gaming FI-CONTENT 2 (Ph. 2)
Environmental observation web ENVIROFI (Ph. 1)
Smart Cities and public security SafeCity (Ph. 1)
Transport, logistics and agri-food FIspace (Ph. 2)
Smart energy FINESCE (Ph. 2)
Manufacturing FITMAN (Ph. 2)
THREE PHASES OF THE FI-PPP
© 2013 CONCORD Project Consortium 4
Phase 2: Apr 2013 - Mar 2015 • Prepare for early trials • Develop core platform and
use case specific functionalities
• Run early trials
Phase 1: Apr 2011 - Mar 2013 • Usage area requirements • Development of
architecture and generic and specific enablers
• Evaluation of test infrastructures
Phase 3: May 2014 - Oct 2015 • Provide stable infrastructure
for large-scale trials • Prove viability of concept
through large-scale trials including innovative SMEs
ENVIROFI Vision
• We envision … • to establish an Environmental Observation Web in which
all environmental data, whether from sensors, citizens, or models, are available anytime anywhere through the Internet in a standardised, usable format
• a system with dynamic understanding of the Earth’s atmospheric, marine and terrestrial spheres for the benefit of all European citizens
ICT in the Environmental Usage Area
• Focus on observations • Work based on standards • Observations can originate from various sources
• Web-enabled sensors and sensor networks • Citizen observations / human sensors • Models and data
fusion services
Scenarios 1. Bringing Biodiversity into the Future Internet
• Enabled biodiversity surveys with advanced ontologies • Analysis, quality assurance and dissemination of
biodiversity data
2. Personal Information System for Air Pollutants, allergens and meteorological conditions • Enhance human to environment interaction • Atmospheric conditions and pollution in “the palm of
your hand”
3. Collaborative Usage of Marine Data Assets • Assess needs of key marine user communities • Selection of representative marine use cases for further
trial: leisure and tourism, ocean energy devices, aquaculture, oil spill alert
ENVIROFI Architecture • The environmental domain heavily relies upon generic
geospatial standards • Essential role of the ENVIROFI logical architecture to
make sure that these standards may be realized on top of the GEs, or better, may be integrated into the GEs
• For doing so, we first set out a generic Environmental Monitoring and Decision Lifecycle as a framework for the generalisation of use case functionality from the various environmental pilot applications
• Contributed extensions of this for standardisation in CEN /TC289 TR 15449 on Spatial Data Infrastructure in Europe, and to ISO/TC211 19119 Geospatial Service Architecture and OGC Topic 12 on Service Architecture
ENVIROFI Architecture
TAGging MEDiation Fusion NOTification VGI
Geospatial services
FI-WARE
Generic Enablers
App Services Support
Cloud Interface
Security Data Analytics
Data Processing IoT
OBSERVE PUBLISH DISCOVER
COMPOSE ANALYSE
ACT NOTIFY MANAGE
Environmental Monitoring and Decision Support Lifecycle
• Human • Sensor • Data • Service
Environmental Specific Enablers
Geospatial Specific Enablers
Environmental (Biodiversity, Atmospheric and Marine) Applications
GEO
OBSERVE PUBLISH DISCOVER
COMPOSE ANALYSE
ACT NOTIFY MANAGE
Environmental Monitoring and Decision Lifecycle
Human Sensor Data Service
Geospatial SEs
Environmental SEs
FI-WARE - Generic Enablers
Apps Serv.Repository
Marketplace Sem Comp Editor
WireCloud Mediator
Cloud-I2ND
Alloc VMs Alloc Obj St
Security ID Mgmt
Data 2 Query Brok Locations
Seman App Seman Ann
Data 1 Comp Evt.Proc Pub/Sub Broker
BigData An
IoT Things Mgmt Device Mgmt
GW Data Handling Prot Adapter
TAGging Uncertainty semantic annotation
MEDiation
Discovery broker Discovery augm component Access broker Connector – SOS Connector – WCS Connector – WFS Connector – WMS Connector – toolbox Mediator – SOS Mediator – Fusion toolbox Transcode sensor
Fusion
Data fusion Image sample classification Asset geo-reference analysis Areas classification Prediction service Model-based fusion
GEO
Observ collection Observ catalogue Observ retrieval Observ identification Observ visualization Observ operatiing Image sample archive Sample Quality Asses Georef observ prox Georef Observ app
NOTification
Alert notification Sensor Event
VGI
Mobile VGI enabler MDAF Cloud storage and Synchronisation (MDAF)
Geospatial Services OGC Charting OGC SensorWeb OGC Processing OGC Storage (OPeNDAP)
THREDDS
ERDDAP
Environmental (Biodiversity, Atmospheric and Marine) Applications
WPS SOS, SPS WMS, WCS WFS
ENVIROFI Specific Enablers (SEs) • ENVIROFI SEs are structured along six thematic “categories”,
which cover the full spectrum of steps (notification, manage, fusion, etc.) in the environmental monitoring and decision life cycle:
• Harvesters, connectors and mediators (MED): facilitate easier interoperability between other backend services and data sources
• Geo-referenced data collection applications (GEO): provide ways to record and archive geo-tagged measurements and designed to support crowd-sourcing
• Semantic tagging tools (TAG): support for semantic enrichment of environmental data
• Fusion tools for heterogeneous data sources (FUSION): preparing and aggregating environmental data into formats suitable for use
• Event detection and notification services (NOT) • Geospatial data provisioning and storage (OGC): relate to the
provisioning and storage of environmental observations and measurements
Use of FI-WARE Generic Enablers (GEs) in ENVIROFI
ENVIROFI evaluated the possibilities and limitations of the currently available GEs
1. Most GEs from the Cloud Hosting, Data/Context management, and Security chapters should be usable in environmental applications
2. Some GEs related Data/Context Management chapter were considered either too immature or did not provide tangible advantages
3. The GEs from the Internet of Things (IoT) chapter were considered out of scope for ENVIROFI, but may be interesting for other applications within the environmental usage area in the future. However, the uptake may be hindered by overlaps between the functionality provided by IoT and by standardized OGC services (OGC is actively seeking a harmonization between the two worlds)
4. Next release of FI-WARE Testbed will improve harmonisation and integration across the GE chapters facilitating the adoption of the GEs for real-world pilots
ENVIROFI Catalogue (catalogue.envirofi.eu)
• Central repository of ENVIROFI SEs • All documentation you need to start using ENVIROFI
implementations • You will also find environmental applications built on
Specific and Generic enablers
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