GEOSS AIP-5Architecture Implementation Pilot, Phase 5

Disasters Preparedness & Mitigation Session

Hervé Caumont - Session Lead - OGC IP Team

AIP-5 Kick-off Meeting

May 3rd, 2012

Session agenda

• Co-lead introduces the session (5 minutes)

– Repeat of one chart from opening plenary

– List of responses relevant to session

• Self introductions of persons in the session (5 minutes) / Participants list:

Hervé Caumont / OGCLucia Lovison / OGCLawrence McGovern (INCOSE)Oliver Clements / PMLAngel Palomares / ATOSStuart Frye / NASAJeff dlB / NOAA

Liping Di / GMU CSISSMeixia Deng / GMU CSISSPeter Chung / GIS FCUSneha Rao / CIESINRobert Thomas / CompusultJoan Maso / CREAF

Session agenda

• Presentations by several primary participants (30 minutes)

– Identify what problems you are aiming at

– Emphasis on supported scenarios (steps of user tasks) and technical use cases (publish, find, bind, workflow...)

– List the contributed services and datasets

Presenters (5 minutes each)

– Stuart Frye / NASA

– Meixia Deng / GMU CSISS

– Peter Chung / GIS FCU

– Sneha Rao / CIESIN

– Robert Thomas / Compusult

– (Herve proxy for) Matthias Muller / TUD-GLUES

Session agenda

• Open Discussion (20 minutes)

– For SBA/CoP sessions: Interactive development of Scenario application of use case

– Coordinate with System Design work group (PoC Larry McGovern) regarding enterprise modeling

• Develop a work plan for the topic: dates and actions (30 minutes)

– Review and comment on AIP Master Schedule

– Identify work group specific milestones

– What is missing and still needed: service and data gaps

– What would result in a paradigm shift to meeting our objectives rather than a simple evolutionary path.

Disasters Management Session - Responses Analysis

• CIESIN (S,C,A)

– Global- and regional-scale datasets related to disasters

– Development of web-service oriented scenario and use case for Disasters Management (e.g. impacts of coastal storms and sea level rise in Central America)

– Tools for before and after analysis of storm's landfall, Population Estimation Service,

monitoring services the performance capabilities of typical traffic, client application

• NASA (S,C,A)– Provision of high-resolution reference water mask at 15m resolution

– User generation of disaster management (data) resources to be shared in an open source format (flood models, forecasts and flood extent maps)

– Several satellites potentially tasked during the period

– Single sign-on management for exchange of information across workflows (Pub/Sub)– Services: Campaign Manager, Notification Manager, Web Coverage Processing Server, Identity Server

• CSISS (S,C)

– GADMFS subsystem to be integrated into the Information Systems for Hydro-meteorological Extremes

(incl. Floods and Droughts) - Global Agricultural Drought Monitoring and Forecasting System

• TU Dresden GLUES (C,A)

– Datasets on land use and climate change, support integrated environmental/climate modeling

– Processing services for climate classification and spatio-temporal data aggregation

– Time-aware visualization client (Time4Maps)

Disasters Management Session - Responses Analysis

• GIS FCU (S,C)

– Near real-time satellite information portal– Planning of satellite acquisitions / Estimated time of arrival for a specific area

• Compusult (S,C)

– Targeted GEOSS Disaster Management ‘community’ portal– Use of mobile Apps to display OGC services such as WMS and WMTS

– Use of built-in sensors (GPS, camera, microphone, etc.) of mobile devices

– Provide direct search capabilities of the CEOS WGISS Integrated Catalog (CWIC)

– Ability to manage and track relevant information about an event or situation within individual Portfolios• PYXIS (C)

– WorldView GeoWeb Client Application for use by decision-makers within the AIP-5 SBA scenario demonstrations

• NASRDA (C)

– Earth resources datasets from NigeriaSat medium and high resolution satellites

• PML (C)– Routinely processed data from multiple polar orbiting satellites monitoring ocean parameters

• UNEP Live (C)– TBC

Relationship between related scenarios

Findings / Discussions

• NASA Project in Namibia: the flood sensor web concept (workflow), CC platform Univ. Chicago (900 cores), – flood dashboard URL:

http://matsu.opencloudconsortium.org/namibiaflood– WCPS for detections– CC capacity

• GMU/CSISS GADMFS– On demand data access and processing– Forecasts and Event noticing through WNS when drought

occurs• GIS FCU

– use of AIP to consider options for further developments, including API

– Any service URLs available yet ?

Findings / Discussions

• CIESIN / DAAC EOSDIS

– URLs: earthdata.nasa.gov/data/nrt-data/data-products

– Service Population density / Flag for data quality (on CENSUS source assessment)

– Use case scenario already proposed…

– OpenLayers client

• Compusult

– Support integration of Real-time information, managing the process, online, nested portfolios (day 1 to n)

– KML export,

• System Modeling

– Scenarios. “business” processes

– Technical Use Cases, Functionalities

• Capacity building

– Document activities during AIP

Related GEO Tasks

• DI-01-C1: Disaster Management Systems (Guy Seguin)

• DI-01-C2: Geohazards Monitoring, Alert, and Risk Assessment

• DI-01-C3: Tsunami Early Warning and Hazard Assessment

• DI-01-C4: Global Wildland Fire Information System

• DI-01-C5: Regional End-to-End Pilots (Stu Frye)

From GEO Work Plan symposium

• Timely data dissemination– Improve process– Develop reliable network

• Multi-hazard end-to-end approach– More integrated policies, decisions and actions

• HFA, Hyogo Framework for Action – Building the resilience of nations &communities to disasters

• Linkages with:– IN-01 in-situ weather network– SB-03 forest burn map– SB-04 impacts on urban areas– AG-01 Drought– Wa-01 Flooding