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Sustaining Database Semantics

Sustaining Database Semantics. Keith W. Kintigh School of Human Evolution and Social Change Arizona State University kintigh@asu.edu In the Session Organized by Stuart Jeffrey Taking the Long View: Putting Sustainability at the Heart of Data Creation CAA Granada 7 April 2010.

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Sustaining Database Semantics

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  1. Sustaining Database Semantics Keith W. Kintigh School of Human Evolution and Social Change Arizona State University kintigh@asu.edu In the Session Organized by Stuart Jeffrey Taking the Long View: Putting Sustainability at the Heart of Data Creation CAA Granada 7 April 2010

  2. Background • Today, digital databases (spreadsheets) are often the only loci of irreplaceable records of systematically collected archaeological observations • In the US, databases are often not curated at all and are rapidly being lost. • Digital repositories e.g., ADS & tDAR can provide preservation and access

  3. What Semantic Metadata are Necessary to Adequately Sustain/Document a Database? • Sufficient information for an archaeologist not familiar with the specifics of a project to make sensible analytical use of the data • Necessary for comparative and synthetic research • Necessary to reevaluate conclusions based on systematic evidence • Our ethical (legal) obligation is to preserve our data make data useable

  4. Adequate Preservation is Rarely Achieved in Museum Contexts • Too frequently the media are curated so there is no long term preservation of data • Semantic metadata is often on paper • e.g., existing coding manual, coding keys • But adequate semantic documentation is more comprehensive than analysts would typically think to write down

  5. Documenting Databases • Internally encoded: Structure, Table Names, Column Names & Data Types • Usually not internally encoded: • Each Column • Nature of the column values (not just string, etc.) • Arbitrary (lot number, provenience label) • Measurement (units of measure and methods) • Coded or abbreviated value (nominal variables) • Coded Nominal Values within Columns • Label & description of every value and how it is distinguished from others (101=rabbit)

  6. More Subtle Points • Are all values in a coding key used? • Fish vs species of fish; birds, reptiles etc. • Can lead to conclusion that a species, of bird, for example, is absent when in fact species was not recorded to this level (i.e., missing data) • Academic traditions influence what is needed in more subtle ways. • What constitutes an adequate description varies. • What works for an Americanist might not work for a European Medievalist • Probably no absolute adequacy • We can do better and we must move forward

  7. Our Approach

  8. Digital Antiquity Digital Antiquity is a newly established multi-institutional organization based in the US devoted to enhancing preservation and access to the digital records of archaeological investigations: • to permit scholars to more effectively create and communicate knowledge of the long-term human past; • to enhance the management of archaeological resources; and • to provide for the long-term preservation of irreplaceable records of archaeological investigations. Business model targets technical, financial and sociological sustainability in 4-5 years

  9. Digital Antiquity’s Software • Aspiring to be an on-line, open source, trusted digital repository for archaeological data and documents • Provides preservation and free, on-line discoveryand access for archaeological data and documents • Web-based ingest interface: the contributor uploads data and is prompted for detailed metadata • Advanced tools for data integration across inconsistently recorded databases

  10. Database Ingest • Elicit Project & Information Resource metadata • Location, Time, Keywords, Credit, etc

  11. Upload the Database

  12. Database Documentation • For each column in the database • Indicate data type (measurement or coded integer) • Indicate the material class and nature of variable • For each measurement, elicit units (e.g., m, kg) • For each coded value (string or number) • Provide a digital “Coding Sheet” specific to that analyst and dataset that associates codes with labels and descriptions • Associate each coded value labels with an ontology node with a standard definition • The original values do not change

  13. Column Registration

  14. Coding Sheets

  15. Ontologies • Ontology is a map of the semantic relationships among a set of concepts.  • In tDAR, ontologies are ordinarily hierarchical (tree-like) and represent an arbitrary number of levels of class-subclass relationships • For a given variable, a user community develops an ontology to enable integration –not centrally controlled

  16. Define Ontology

  17. Map Coding Sheet to Ontology

  18. Integration: Standard Approach • Standardization at or before the time of data ingest (least common denominator) • This will fundamentally not work in archaeology • For legacy data sets, the lcd is very low • Different regional traditions in terminology, materials (lithics ceramics), and their analyses • Enforced standardization is a non-starter for the profession in the US

  19. tDAR Data Integration • Because the digital encoding of the semantics known to the repository • We have the ability to combine datasets • Created by different investigators • Using incommensurate coding schemes • into a dataset in which the observations are analytically comparable

  20. tDAR Process • Query to Identify Relevant Databases • User selects databases move into user workspace • Select Columns to Integrate • Specify Filtering & Aggregation of Ontology Values • Perform Aggregation • Obtain integrated database with commensurate observations • Download Result & Analyze It • In Place (beta, needs documentation) http://tdar.org

  21. Query

  22. Add Results to Workspace

  23. Select Databases to Integrate

  24. Define Integration Conditions

  25. Filtering and Aggregation

  26. Initial Datasets Durrington Walls Knowth

  27. Integrated Dataset

  28. Output • Output Database • 3 columns, area, FUSD FUSP • observations from both datasets (with any filtering eliminating cases) • provenience and stratum values are the same as in the original databases • Taxon values are values in the ontology with aggregation performed • Database is downloaded and analysed by user.

  29. Output File

  30. To Come in tDAR Integration • User dictated integration is in place • Query-oriented, ad hoc data integration • Based on a query, tDAR identifies databases that satisfy data requirement of the query: i.e., that are relevant and record needed variables • Interact, as necessary with the user • Perform integration on-the-fly, i.e. using ontologies, align key portions of the metadata for the selected columns • Output is an integrated dataset with maximum resolution and minimal changes

  31. Acknowledgments • Andrew W. Mellon Foundation • National Science Foundation • Collaborators at ASU • K. Selcuk Candan, Tiffany Clark, Hasan Davulcu, John Howard, Shelby Manney, Ben Nelson, Margaret Nelson, Yan Qi, Katherine Spielmann • Digital Antiquity Board of Directors Keith Kintigh, ASU Tim Kohler, Washington State University Fred Limp, University of Arkansas Harry Papp, L. Roy Papp & Associates Julian Richards, University of York Dean Snow, The Pennsylvania State University Sander van der Leeuw, Arizona State University (ASU) [chair] Carol Ackerson, Girl Scouts Arizona Cactus-Pine Council Jeffrey Altschul, SRI Foundation Kim Bullerdick, Owner, BI, L.L.C. Jaime Casap, Google, Inc. John Howard, University College, Dublin

  32. Questions?http://tdar.org

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