Information Discovery, Use and Sharing

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Information Discovery, Use and Sharing

• Mary Brady
• Program Manager
• Information Technology Laboratory
• mbrady_at_nist.gov
• (301) 975-4094

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Information Discovery, Use and Sharing

• Address National Priority areas by applying ITLs
  core competencies in measurement and testing,
  mathematical and statistical analyses, modeling
  and simulation, and standards development and
  deployment to enable
• Scientific / Knowledge discovery
• Develop methods to characterize, analyze, and
  extract knowledge from information
• Widespread, seamless, and secure information
  exchange, and
• Develop methods for acquiring, defining,
  securing, accessing, integrating and preserving
  information (data, metadata)
• Usability of vast stores of information
• Improved methods for turning data, metadata into
  information search retrieval
• Improved accessibility and usability

Turn data into information
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Barriers to Innovation

• Massive amounts of data must be gathered,
  integrated and analyzed
• Human annotation and metadata methods do not
  scale
• Robust computational methods are needed to
  extract relevant features from huge data
  repositories
• Methods are needed for finding, fusing and
  visualizing highly complex data to make
  experimental inferences
• Highly sophisticated computer modeling is needed
  to enable adequate comparisons and drive
  potential hypotheses

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Information Discovery, Use, and Sharing

• Medical Imaging (Change analysis in Lung Cancer)
• Develop measurement infrastructure to improve
  methods of measuring change in lung cancer tumors
  
• Computational Biology
• Computational science capability to support high
  throughput measurements Focus on techniques to
  convert physical cell measurements into
  quantitative descriptors that can be analyzed
  statistically.
• Core Infrastructure
• Apply automated test methods, coupled with
  combinatorial testing approaches, to XML-based
  languages used in manufacturing and electronics
  industry supply chains investigating potential
  measurement science role in web-based exchanges
  (reg/rep, ontologies, soas, web services, XML,
  etc).
• Shape Searching
• 3D shape searching techniques for protein
  structures within the HIV AIDS Database and for
  3D CAD parts in a supply chain. 
• Multimodal
• Develop and apply metrics and testing to advance
  the state-of-the-art in human language
  processing, including text, video, and speech

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Medical Imaging Change Analysis in Lung Cancer

• Detecting and analyzing changes in lung tumors is
  useful in disease diagnosis and therapy
  evaluation for lung cancer patients.
• High growth rate gt indicative of disease onset
• Exponential growth rate gt cancer
• Change of tumor size over time gt response,
  stable, progressive disease
• BUT, change analysis is difficult due to the
  lack of quantitative measurements.

• Sources of Measurement Error
• CT Scanner - not calibrated, changes in
  parameters effect tumor image
• Lesion - Size, texture (density variation),
  margins, complexity
• Patient - cardiac motion, respiration,
  involuntary movements, and overall health
• NIST Role
• Address Scanner and patient issues through the
  development of phantoms and standard protocols
  with traceability to NIST
• Develop methods to effectively characterize
  tumors with known uncertainties
• Conduct round-robin evaluations of reconstruction
  and analysis algorithms
• Collaborators
• NCI, FDA, RSNA, CRPF, GE, Siemens, Phillips,
  Cornell, Stanford

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Computational Biology Single Cell Analyses

• Intracellular molecular reactions and
  interactions that control the response and fate
  of cells and organisms cannot be unambiguously
  compared and combined due to a lack of standards
  and validated protocols.
• NIST Role
• Provide the measurement tools and standards that
  enable quantifiable and reproducible measurements
  of cells and their interactions through
• Standard data/metadata format for image capture,
  storage, retrieval, analysis.
• Software to enable high throughput cell image
  analysis and interoperability.
• Standards and validation required to ensure
  reproducible image analysis.
• Multi-site experiments to test software and
  validation protocols.
• Technical Approach
• Create and evaluate an integrated data
  collection, organization and analysis
  infrastructure for cellular imaging.
• Experimentalists and computational scientists -
  focus on the physical standards and protocols for
  data collection, image processing and analysis,
  storage of data and metadata, and evaluation of
  results.

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Core Infrastructure
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Conformance Test Development
Spec Processing
W3C -Specification
Semi-formal Assertions
Test Assertions
Test Development
Compute Intensive
Labor Intensive
Improved W3C, Vendor QA

• Comprehensive, coherent tests
• Common test description and reporting
• Problems identified early in life cycle
• Requirement for Recommendation
• Better specifications, better products

NIST Tests
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XML Technologies

• XML is critical enabling technology
• Family of standards for describing and
  manipulating information
• Describes data in an intelligent format that can
  be exchanged over incompatible applications,
  systems, and output media
• To achieve the promise of XML - need to ensure
  the usability, correctness and quality of XML
  technology standards and their implementation
• NIST Role
• Provide technical leadership and conformance
  guidance
• Partner with industry to develop a set of
  conformance test suites
• Provide technical direction regarding use of XML
  technologies to others (e.g., NIST researchers,
  govt agencies)

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XML Testing

• Drivers/Motivation
• XML software not working correctly inaccurate
  data, no interoperability
• Need for conformance tests
• early in the WG process
• adaptable to spec changes
• use to improve spec
• Accelerate the development of specifications and
  implementations

• Expected Outcomes
• Lead efforts for all W3C efforts
• Test suites used by many, results in bug fixes to
  all XML implementations and specs
• Tests are used as part of the process 2
  implementations must pass tests to exit CR
• Test methodology influences others open source
  Linux, OASIS, SourceForge, Apache
• Over 30,000 tests developed

• Collaborators/Customers
• IT Industry
• IBM, Sun, Microsoft, Netscape, X-Hive, Arbortext,
  Oracle, Lucent Technologies, DataDirect, ATT,
  Software AG, BumbleBee
• W3C, OASIS, University of Edinburgh
• Vertical Industries Health Care, automotive,
  aerospace, construction, financial, travel, etc
• Consumers of XML technologies

• Staffing (FTEs)
• (FTEs, includes students, GRs)
• 1 XML Core
• 1 XML Schema
• 1 XML Query
• .5 DOM, XSLT, XSL-FO (maintenance)
• Exit Strategy
• Successfully applied to applications
• Technology transfer enriches communities

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ebXML Conformance Testing

• Expected Outcomes
• Uniform method for testing ebXML standards
• Test Framework and Suites used to verify
  conformance and interoperability
• Test Framework and Suites used by
• Regional IT consortia OASIS (US), EAN-USS and
  ETSI (Eur), KorBIT and ECOM (Asia)
• Test companies, ebXML vendors and users
• Demoed at Reliable Infrastructures for XML, ETSI
  Plugtest, OAG meeting

• Drivers/Motivation
• Interoperability is key to Internet B2B, ebXML
  provides the foundation
• Need to consolidate disparate testing efforts for
  ebXML family of standards
• A globally recognized, open testing architecture
  and test suite promotes global ebXML
  interoperability through a standard set of
  testing tools
• reduces development efforts and duplicative test
  suites and testing

• Collaborators/Customers
• OASIS, Sun Microsystems, Drake Certivo, Fujitsu
  America, Cyclone Commerce, Adobe, KorBit
• Vertical industries
• Automotive, Aerospace, Healthcare, Construction
• OAG, HIMSS/IHE
• ebXML vendors and testers, small/medium
  businesses using ebXML

• Staffing (FTEs)
• (FTEs GRs)
• 2 (1 FTE, 1 GR)
• Exit Strategy
• Successfully applied to applications
• Technology transfer enriches communities - spurs
  global usage and contribution to a common set of
  ebXML test suites

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ebXML Conformance Testing
OASIS Technical Committees (TC)
Test Framework Components
Regional Consortia, Vendors, Users

• Led OASIS Registry TC
• Developed initial Spec and tests
• Lead Testing effort in OASIS Implementation,
  Interop, Conformance (IIC) TC
• Developed Test Framework Software and
  Specification
• Developed and published Messaging Test Suite
• Revising Test Framework Software and
  Specification/Implementation, extend use to other
  ebXML specs
• Collaborate with other ebXML TCs (message,
  registry, business process, collaboration
  Protocol Profile to use Test Framework to produce
  test suites
• Work with Registry TC, developing test
  requirements and core test suite

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Health Information Technology

• Expected Outcomes
• Lead and participate in standards and
  conformance efforts
• partners with industry standards groups
• chair conformance efforts
• consultant to federal agencies with healthcare
  missions
• Develop conformance tests, tools and prototypes
• based on industry priorities
• prototypes fill in industry gaps
• Conformance definitions included in standards

• Drivers/Motivation
• Fragmentation in our health care system
• Demand for online access to medical info and
  services
• Improve patient care, reduce medical errors and
  costs (98,000 deaths/yr)
• build a standardized platform all can
  communicate electronically
• (HHS Secretary Thompson, 2003)
• Vision of an interconnected electronic health
  infrastructure

• Staffing
• (FTEs, includes students, GRs)
• 5.5 Mess. Conformance, EHR, Infrast. Integration
• 2 IEEE Medical Device Comm
• 3 Standards Landscape
• .25 Telemedicine
• Exit Strategy
• Tests, tools and approaches successfully applied
• Technology transfer enriches community
• continued use of products
• ability to build upon products
• rely on NIST for consultation

• Collaborators/Customers
• American Telemedicine Association (ATA)
• ANSI HC Informatics Standards Board (ANSI HISB)
• ASTM Committee E31 on HC Informatics
• Consolidated Health Informatics (CHI)
• Health Level Seven (HL7)
• IEEE Medical Device Communications Group
• Integrating the HC Environment (IHE)
• PITAC - Presidents Information Technology
  Advisory Committee

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Infrastructure Integration

• Putting standards together for effective
  information exchange
• seamless information flow from application to
  application across and between HC enterprises
• comprehensive view of patient information results
  in quality care decisions
• Define and build standard-based profiles to
  address specific problems
• NIST Activities
• work with HIMSS IHE to define, test, and
  implement integration profiles
• develop measurements and tools to validate that
  approaches are technically and economically
  feasible
• Co-authored IHE Enterprise Cross Document Sharing
  standard (XDS)
• Develop XDS reference implementation and test
  tool
• NIST components featured at HIMSS Showcases

Integrated HC environment HC standards IT
standards glue to bridge gaps
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Cross-Enterprise Document Sharing
Enterprise
Enterprise
Imaging Center
Physician
Repository
Repository
Cross-Enterprise Document Registry (XDS)
Enterprise
Hospital A
Repository
Enterprise
Repository
Emergency Room
Hospital B
Patient
Admin
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Standards Landscape

• Plethora of standards even within a discipline
  (e.g., clinical standards)
• Whos doing what? How are standards being used?
  Deployed?
• monitoring the relevant standards is arduous and
  labor-intensive effort
• Repository of information on HC standards,
  organizations, and initiatives.
• knowledge of whos doing what
• minimize overlap and duplication of standards
  development
• facilitate collaborative standards work
• foster use and adherence to standards
• NIST Activities
• develop an interactive web prototype to
  demonstrate the concept
• collaborate with partners such as ANSI HISB,
  eGovs CHI, and AHRQ
• develop a tool set that can be adopted and
  extended to enable widespread implementation
• initiated pilot focused on HISB information --
  adapted for use in NHIN

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3D Shape Searching
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Research Challenge

• Need shape descriptor that is
• Discrimiminating
• Quick to compute
• Concise to store
• Pose-independent
• Efficient to match

Rank List
3D CAD database
Shape descriptor
Nearest Neighbor
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Shape Searching structural bioinformatics
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MultiModal Round-robins
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TREC

• Workshop series for large-scale evaluation of
  (text) retrieval technology
• realistic test collections
• uniform, appropriate scoring procedures
• a forum for the exchange of research ideas
• Started in 1992 as an evaluation vehicle for
  DARPA Tipster project
• http//trec.nist.gov

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TREC Tracks
Blog Spam
Personal documents
Legal Genome
Retrieval in a domain
Novelty QA
Answers, not docs
Enterprise Terabyte Web VLC
Web searching, size
Video Speech OCR
Beyond text
X?X,Y,Z Chinese Spanish
Beyond just English
Interactive, HARD
Human-in-the-loop
Filtering Routing
Streamed text
Ad Hoc, Robust
Static text
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NIST ASR Benchmark Test History May. 06
100
Meeting Speech
Meeting - SDM
Meeting - MDM
Meeting - IHM
Air Travel Planning Kiosk Speech
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Range of Human Error In Transcription
2
1
1988 1989 1990 1991 1992 1993
1994 1995 1996 1997 1998
1999 2000 2001 2002 2003 2004
2005 2006 2007 2008 2009
2010 2011
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Questions?