AIP-8 ResponsesSummary to help break-outs

Norfolk VA

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• Look for overlap, in SBA and Technology• Reach out in the break and breakouts

• Interoperability is hardly technological, but mostly based on human willingness to interoperate

JAXA

JAXA

• DIAS/CEOS Water Portal in AIP-8• In-situ, Satellite and Model data, mainly focusing on

hydrological data • By the end of March, our portal will be able to search and

access GRDC (Global Runoff Data Centre) River Discharge data via GEO DAB. Also it is planned to evaluate data access from GEO DAB to our portal during 2015.

• Regarding standards, this Portal uses OpenSearch, OPeNDAP, WFS, WaterOneFlow+WaterML1 and REST+WaterML2.

Connecting GEO

Connecting GEO

• Extend the existing GEOSS Webservice-Energy SDI • The OGC SWE (Sensor Web Enablement) architecture is

particularly suited to tackle the full spectrum of SSI information dissemination. Indeed, it offers support to: – Discover and locate sensor systems and measurements – Discover sensor capabilities and information on the quality of the measurements – Enable access to sensor parameters for direct or further processing

• The platform that will be developed will allow to: – Visualize sensor locations on a map. – Visualize measurements as time series plots and in tabular form. – Display sensor metadata at different levels of detail. – Download raw observation data for offline processing.

CloudSigma

CloudSigma

• Exploit cloud infrastructure delivery models capable of harnessing the value coming out of the earth observation space.

• expand upon the concept of data federation. As a response to AIP-8 CFP we would propose the development of a mechanism for data owners to federate that data to cloud hosting. Data owners would potentially have fine grained control over how this is done, as well as unlock other capabilities such as the ability to exclude certain geographies or providers.

• From a cloud hosting prospective, suppliers would have the ability to discover what data is available/federated and choose what data sets they would like to host in the cloud. This would allow for greater specialisation around EO data and services registered with GEOSS.

SDI4Apps

SDI4Apps

• Uptake of Open Geographic Information Through Innovative Services Based on Linked Data

• The SDI4Apps project will integrate a platform for data reuse. On top of the platform, several apps (pilot apps) will be designed and implemented. These apps will be in line with the CFP concerning easy-to-use online Web and mobile apps. The envisaged pilots/apps include: – Easy Data Access, Open Smart Tourist Data, Open

Sensors Network, Open Land Use Map Through VGI, Ecosystem Services Evaluation

EU BON

EU BON

• Build a substantial part of the Group on Earth Observation’s Biodiversity Observation Network (GEO BON)

• The EBP connects to and accesses data of several biodiversity and ecosystem networks, which have been included in the EU BON registry, such as GBIF, DataONE, LTER, field sites of EU BON, and biodiversity observation programmes included in the DaEuMon catalogue, allowing users to search biodiversity data through a public web interface. The search engine will look for this information by querying each data provider or aggregator connected through a SOA brokering platform (Enterprise Service Bus).

• EBP will act as a hub of networks• Portal

FOODIE

FOODIE

• Support the wide variety of demands that are primary aimed at agriculture and water pollution monitoring.

• agriculture is the single largest user of freshwater resources, using a global average of 70% of all surface water supplies.

• OGC W*S• Sensors• Apps

SmartOpenData

SmartOpenData

• SmartOpenData Architecture and Environmental Linked Open Data sources in AIP

• Due to the collaborative nature of the SmartOpenData Consortium, our contributions could be: – Data providers: Environmental and ecosystems data, land use and

land cover, cadastre already transformed to Linked Open Data – Data transformation: External partners could publish their data using

SmartOpenData infrastructure (LD) – Definition of user requirements within the scope of the project

Our contributions would be oriented especially to the following Societal Benefit Areas:

• Ecosystems • Agriculture • Biodiversity

GEOSS Water Services

GEOSS Water Services• Building web publishing for regional and national water resources; flood

forecasting apps and services.• Encouraging and helping government data providers and research centers to

publish water resource time series data, including observed and modeled variables such as stream flow, stream depth, precipitation, soil moisture, runoff, water quality, and others. These data are important to our understanding of the frequency, variability, and consequences of extreme weather events (storms, floods, drought - DM), as well as for supporting consistent, on-demand pictures of regional and national water availability.

• To provide a systematic way for publishing map services of water observations • To produce web services of the results of global models for flood and drought

analysis • To synthesize data, map and modeling services to support particular applications • Advance the utilization of water services in developing countries

Chile

Chile• Development and testing of an Alert System application for desktop and

mobile devices.

• Testing for registration of Chilean web services related to different Societal Benefit Areas (SBA) such as the Disasters within the GEOSS Capacity Building working group

• SAF and NASA, both as GEOSS User and as a GEOSS Data Provider, will contribute to GEOSS-AIP-8 by testing the client-side of OpenID and the GEOSS satellite and sensors web services such as the ones for disasters, such as earthquakes, volcanoes, tsunamis and fires. SAF and other Chilean agencies will integrate some essential gauges (for example, costal and river water levels), seismometers, and meteorological sensors.

• SAF with NASA and other entities will also integrate the web services with satellite product services so to develop near real- time satellite information and a tasking web service which may be registered with GEOSS portal.

FSU-Jena

FSU-Jena

• Standard-based time-series data access and geoprocessing services for individualEarth cover change detection (Land Use - Ag) within the “Earth Observation Monitor”

• Providing easy-to-use access to Earth Observation time-series data using WPS

• Earth cover change detection we have developed an infrastructure based on OGC web services with global access, analysis, and monitoring tools for MODIS Vegetation and Land Surface Temperature datasets

• To detect changes algorithms for trend calculations, breakpoint detection and the derivation of phenological parameters have been integrated into the infrastructure and made available to the public in a web portal and a mobile application.

NATO STO-CMRE

NATO

• A standards-based open source processing chain for ocean modeling adding in-situ data and OGC SOS service

• Our goal for AIP-8 is to experiment further with the key enablers in the domain of integrated environmental knowledge and decision support tools. The objective will be the exploitation of key ocean environmental variables from in-situ observations, leveraging environmental models and geo-processing, with specific attention to interoperability and connectivity with the comprehensive global network of environmental data collection and delivery.

CIESIN

CIESIN

• Contribute global- and regional-scale data on population along with related services that are useful for disaster response

• CIESIN will contribute a mobile (iOS) app, a Web Processing Service (WPS) to estimate population values, WMTS services of population data, and a web-client that utilizes the WPS service to AIP-8. The mobile app will visualize hazards and drought-related data using CIESIN and other organizations’ WMTS services; it will also allow users to draw a polygon and display an estimate of population residing in the polygon based on the WPS service. The web application will provide the same functionality as the mobile app.

COBWEB

COBWEB

• Access Management Federations and SWE Profile for Citizen Science. Extend AIP-6

• Make available access control of SAML based access control and assist with helping the other data providers.  

• Development of an OGC SWE Profile for Citizen Science (within the OGC)

CNR

CNR

• A pool of web services for earth observation as components of the web model paradigm

• A pool of web services for earth observation as components of the web model paradigm. Build toward the vision of the Model Web using WPS. All processing services listed in the overview section, will be based on pure WPS implementations and serve as building blocks for modeling of other services in the area of biodiversity and environmental monitoring. All services will be based on free WPS server implementation (e.g. PyWPS or Zoo) to wrap the in-house implementation of original algorithms within an OWS.

• JavaScript API for app developers

StormCenter

StormCenter• Weather• Creating a Real-Time Geospatial Data Sharing & Collaborative Environment

for Earth Observation Data - App• GeoCollaborate Level 1 functionality is an easy-to-use online (Web and

Mobile) capability – Flood and drought Monitoring, Food security and Energy management – Environmental monitoring using Mobile Sensors, Citizen Observatories,

Crowd Sourcing – Crop insurance, Agriculture and Water pollution – Wind and Solar Energy Potential Estimator – Earth cover change detection , Ocean observations and commercial

fisheries – Precision farming, Disaster monitoring and management

NASA

NASA

• Enabling Web-Based GIS Tools for Internet and MobileDevices to Improve and Expand NASA DataAccessibility and Analysis Functionality for the Renewable Energy and Agricultural Applications

• The application will be deployed in a responsive HTML 5 • The Surface meteorology and Solar Energy (SSE) Application • It will provide ArcGIS Image Services, OGC compliant web

services, ASCII, and GeoTiff images to enable advanced geoprocessing. The Wind and Solar Energy Potential Estimator key application will be supported by this solution

BEN BURFORD

BEN BURFORD

• Internet of Things and big data analysis

• Cloud Computing, Big Data, Big Data Analysis, EO data analysis on Spark, IoT

GMU

GMU

• Enhance and evolve two agricultural, water, and disaster community Web-based applications to be mobile-friendly and mobile enabled

• The team proposes to contribute to the AIP-8 activities in two continuing efforts - Global Agricultural Drought Monitoring Forecasting System (GADMFS) and Remote Sensing Based Crop Loss Assessment Service System (RF-CLASS).

• Discussion and list of data sources, standards based interface protocols (OGC), and gaps: Supported standards and specifications are OGC WCS, WMS, WPS, and WFS.

• Additional service requirements anticipated: Light-weight, ajax-enabled API or service operation needs to be enabled to support mobile app.

INCOSE

INCOSE

• Continue development from AIP-7• Expose through Web Services, the PLANKTON*NET database • App using Google Maps

CITI-SENSE

CITI-SENSE

• Development of sensor-based Citizens' Observatory Community for improving quality of life in cities FP7

• The proposed contributions from the CITI-SENSE project are related to the project objectives of providing a Citizens Observatory, including apps and web interfaces with support for static and mobile sensors and the involvement of citizens through crowd sourcing. It is in particular addressing this in the domain of air quality and health.

SBA Technical

Organisation He Cl We Dm Ag Wa Bd En Other AuthProces

sing LD CloudWS in

GCISensor Portal App CB & BP

JAXA X X X

ConnectingGEO X X X X

CloudSigma ? X X X X

SDI4Apps X X X X

EU BON X X X X

FOODIE X X X X X

SmartOpenData X X X X

GEOSS Water Services X X X X X X X

Chile X X X X X

FSU-Jena ? X X X X X

NATO STO-CMRE Ocean X X X X

CIESIN X X X X X

COBWEB X X X X X

CNR X X X

StormCenter X X X X

NASA X X X X XBen Burford X X ? XGMU X X X X X XINCOSE X ? X XCITI-SENSE X AirQ X X X X X