NEESit Overview

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Transcript NEESit Overview 

NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Tsunami Deposits Workshop
Seattle, June 12-15, 2005
San Diego Supercomputer Center (SDSC)
&
NEES Cyberinfrastructure Center (NEESit):
Tsunami Reconnaissance
Data Repository
Anke Kamrath ([email protected]);
Vladimir
PI/Director, NEESit and Division Director, SDSC
Veytser ([email protected]); NEES/SDSC Software Developer
http://it.nees.org
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Overview
• What is NEES?
• NEESit Data Repository
• Tsunami Reconnaissance Data Repository
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
NEES Infrastructure
NEESinc Headquarters
NEES
Cyberinfrastructure Center
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
NEESit Data Repository
•
Data Services:
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https://central.nees.org
Central portal for
providing NEESit services
Authentication and
Authorization
management services:
username and password
Data repository: interface
and tools used to store,
modify, search, and
retrieve data and
metadata
GOAL: No Data Lost!
•
3 copies of data
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Getting Started with NEES
• See http://it.nees.org
• http://tsunami.nees.org coming soon
• How to contact us:
• Email: [email protected]
• Toll free number: 1-866-260-4100
• Web
• http://it.nees.org/support
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
NEEScentral
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Flexible Account Management
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Create New Projects
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
NEESit File Hierarchy
• NEEScentral provides
a web-interface into
metadata model
• High-level model
based on existing data
and practices from
equipment sites
• Hierarchical model
with metadata values
added to individual
directory level nodes
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
NEES Tsunami Reconnaissance
Data Repository
• Partnership:
• UCSD:
• SDSC (San Diego Supercomputer Center)
• NEESit
• Oregon State University
• Harry Yeh
• Project includes four primary elements
1. Data/Metadata Structure: Working with the reconnaissance teams to
ensure adequate metadata to facilitate reuse and queries of the data
2. Storage: Formal storage strategy to ensure its long-term reliability,
3. Curation: Data librarian and curation effort to review and validate the
metadata and data entering the repository,
4. Query: Query and browsing interfaces to allow easy downloads of
the data
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Initial Efforts
• Creating Data Upload Environment
• Preliminary metadata structure
• File hierarchy for upload
• Query/Browsing Environment
• Google Maps (maps.google.com) as catalog browser (all data georeferenced)
• Evaluating Visualization tools (Geoplayer/GeoFusion)
• Inclusion of before/after remote sensing data
• Coordination with NSF SBE Recon Teams
• EERI Recon Teams
• Telecon being planned with experts to inform metadata structure
• Work with teams to upload data
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Prototype NEES-Tsunami Interface
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Sample Google Maps Browser
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
<project>
Tsunami Repository Prototype File
Hierarchy
People, Summary,
Scope, Sponsorship,
Dates
•Orange folders include subfolders as needed
•Blue represents metadata
Documentation/Reports
Hydrodynamic
Data
•Tsunami Runup Height
•Inundation Distance
•Flow Directions
•Flow magnitudes
•Number of run-ups and
their arrival times
•Tide gage data
Geological&
Geographical
•Site configuration-topo
& bathymetry
•Subsidence & uplift
•Tsunami deposit
•Scour
•Morphological changes
•Submarine & subaerial
Landslides
•Paleo-tsunami data
Surveys
Environmental
Data
•Vegetation
•Marine Bio
•Animals
Engineering
Data
•Site information roads, bridges,
buildings, etc.
•Damage of buildings
& infrastructures
•Fires
•Lifeline
•EQ effects
Each file should have Time&Date, GPS,
recorder’s name, remarks.
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
Societal
Data
•Casualties
•Injured & missing people
•Public & authorities
response (Immediate,Short
term, Intermediate and
Long term)
•Preparedness (Warning,
Awareness & eduaction)
•individual behaviors
•Political background
•Societal background
Seismic
Data
•Local
seismographs
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Metadata for survey categories
1) Hydrodynamic Metadata:
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Tsunami Runup Height
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Inundation Distance
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Flow Directions
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Flow magnitudes
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Number of run-ups and their arrival times
•
Tide gage data
2) Geological
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•
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& Geographical Metadata:
Site configuration-topo & bathymetry
Subsidence & uplift
Tsunami deposit
Scour
Morphological changes
Submarine & subaerial Landslides
Paleo-tsunami data
3) Environmental Metadata:
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Vegetation
•
Marine Bio
•
Animals
4) Engineering MetaData:
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•
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Site information - roads, bridges, buildings, etc.
Damage of buildings & infrastructures
Fires
Lifeline
EQ effects
5) Societal Metadata:
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Casualties
•
Injured & missing people
•
Public & authorities response (Immediate,Short
term, Intermediate and Long term)
•
Preparedness (Warning, Awareness & eduaction)
•
individual behaviors
•
Political background
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Societal background
6) Seismic Metadata:
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Local seismographs
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Metadata for Multimedia Files
• All field data geo-referenced
• EERI recommended metadata for recon image(s)
• File name, date and image description
• Lat/Long (in decimal degree format) or street address if
lat/long information is not available.
• Photographer Orientation.
• Researcher’s contact information.
• Simlar for video, scanned paper clippings…
• Surveys/interviews also to be geo-referenced
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Future Directions
• Working with other national and international
groups/organizations
• Enhancement and extension of metadata
• Extension to other earthquake events
• Enhancement of user interface/query
environment
• Integration with other data resources (NEES,,
remote sensing, ?)
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
Questions?
More info:
• Anke Kamrath – [email protected]
• Vladimir Veytser – [email protected]
• it.nees.org
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD
NEESit – Tsunami Deposits Workshop,
June 12-15, 2005
NSF SBE Teams
Project Title
Data
Project Goal
Areas
PI
Factors affecting behavioral
response to natural warning signs
of tsunami.
Social: human behavioral
responses by conducting
interviews.
Short-lived social data from people in
affected areas to understand human
behavioral response
Andaman coast
of Thailand
Bruce Houghton:
Physical and Social Infrastructure
Impacts and Interdependencies in
Southern Thailand
Social: aggreagate of social,
political, economic and
demographic characteristics via
interviews, archives, tourism
literature, media reports.
Data, regarding recovery of coastal
S.Thailand, to be used in models that
test hypothesis of coupling between
physical and social systems, in
particular how it relates to tourism.
Phuket, PangNga and Krabi,
Thailand
Thomas A. Birkland:
Cross-cultural comparison of
embergent norms govering the
handling of mass fatalitites
Social: government and nongovernment response for body
recovery, identification and
disposal, notification of
deceased victims. They will be
conducting interviews.
To identify structural differences
between the mass fatalities approach
used in western countriesvs approach
used in India, Sri Lanka and Thailand
1st team: India,
Sri Lanka,
Phuket Thailnad.
2nd team: UK,
France, Sweden,
Isreal, USA
Hank Fisher:
Social Vulnerability Mapping and
GIS in Tsunami Impact Analysis
Project Summary
Social Data Indian census and
local government records,
households interviews.
Remote Sensing Data: Sattelite
images.
To address some gaps in the scientific
research on social and physical
vulnerability assessments.
Nagapattinam
district in Tamil
Nadu, India
Carla Prater:
[email protected]
Role of coastal ecosystem
degradation in tsunami damage
Remote Sensing: Satelite
images to select survey sites.
Environmental
The study will provide insights into role
of ecosystem degradation, remote
sensing as a research tool, and
environmental conservation as a
mitigation strategy.
Andaman cost of
Thailand
Philip R. Berke:
[email protected]
Indian Ocean Tsunamis Environmental and Social-economic
impacts on the Malay-Thai
Peninsula
Geological: Tsunami Deposits,
Paleo-tsunami and
sedmentology Environmental:
fishing records, interviews.
Societal: responses, actions,
reactions, intentions and plans
for rebuilding.
To elucidate the immediate pre- and
post-tsunami trajectory of events and
impacts associated with the 2004
tsunami.
Thailand,
Andaman Sea,
Malaysia
Benjamin P. Horton
[email protected]
George E. Brown, Jr. Network for Earthquake Engineering Simulation
NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD