alexandria digital library project adept retreat november 2002 adept kos activities kos = knowledge...
TRANSCRIPT
Alexandria Digital Library Project
ADEPT Retreat November 2002
ADEPT KOS Activities
KOS = Knowledge Organization Systems
Outline KOS in DLs what has been done what activities are planned the main groups involved the problems being faced
Alexandria Digital Library Project
ADEPT Retreat November 2002
Digital Library ComponentsCATALOG
OF
METADATA
SERVICES
ACCESSING
ANALYZING
ARCHIVING
CATALOGING
DIGITIZING
RETRIEVING
SEARCHING
VISUALIZING
KNOWLEDGE ORGANIZATION SYSTEMS
AUTHORITY FILESCLASSIFICATION SYSTEMSCONCEPT SPACESDICTIONARIESGAZETTEERSGLOSSARIESONTOLOGIESSUBJECT HEADING SETSTHESAURI
DATA STORE
OF
OBJECTS
LibrariesCollections
Alexandria Digital Library Project
ADEPT Retreat November 2002
Digital Gazetteer Essentials
(controlled vocabulary)
•None of these elements are unique identifiers of a particular place
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS Generalization
Relationships
Label
TypeDefinition
Meaning
Navigation TranslationSense-making
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: what has been done
Knowledge Base (KB) Gazetteers
ADL Gazetteer Content Standard XML Schema ADL Gazetteer Service Protocol ADL Gazetteer (4.2 million entries; two user interfaces) Prototype duplicate detection process In process development of a gazetteer ingest system
Thesauri ADL Feature Type Thesaurus ADL Thesaurus Protocol
Textual Geospatial Integration (TGI) Project High-level process design Initial results from experiment with GeoRef records
Alexandria Digital Library Project
ADEPT Retreat November 2002
TGI Service
PARSE
LOOKUP
ANALYZE
EVALUATE
text document
type thesaurusgazette
er
potential names, types, coordinates
gazetteer entries (known places)
ranked footprints and placenames
“best” name(s)
composite footprint
Alexandria Digital Library Project
ADEPT Retreat November 2002
Main applications of TGI
Query enhancement Placenames -> footprints and/or additional placenames Footprints -> placenames
Cataloging assistance Textual evidence -> footprint representing what the object
is “about”
Alexandria Digital Library Project
ADEPT Retreat November 2002
Structure and petrography of the schist of Skookum Gulch, Callahan-Yreka area, eastern Klamath Mountains, Northern California<key>blueschist | California | Callahan California | foliation | Klamath Mountains | melange | metamorphic rocks | Ordovician | Paleozoic | petrology | schists | Silurian | Siskiyou County California | Skookum Gulch | United States | Yreka California</key><ab>The schist of Skookum Gulch (SSG) is an informal name applied to a fault-bounded melange composed mainly of schistose metamorphic rocks and less abundant sedimentary and igneous rocks located in the eastern Klamath Mountains of Northern California. The SSG features outcrops of lawsonite+sodic amphibole blueschist and epidote+sodic amphibole rocks transitional to the greenschist facies. Isotopic dating indicates that the schist was metamorphosed during the Ordovician. The SSG is the oldest known Paleozoic blueschist-bearing melange in California and one of the oldest preserved blueschist terranes in North America. Tonalitic rocks associated with the schist have Early Cambrian ages and are among the oldest rocks yet dated within the Klamath Mountains. Field relations indicate that the schist of Skookum Gulch is a complex tectonic melange composed of metavolcanic, carbonate, and metasedimentary blocks and lenses of diverse sizes and shapes dispersed without apparent stratigraphic coherency in a sheared matrix of clastic to pelitic schist, metavolcanic schist, and discontinuous thin lenses of marble. Rocks of the matrix have been metamorphosed to chlorite-grade greenschist facies, whereas the blocks have been metamorphosed under a variety of pressure-temperature conditions. Some blocks have been feebly metamorphosed and retain features of the original protolith material; others have been thoroughly recrystallized under blueschist, transitional, and greenschist facies conditions. Blueschist blocks within the schistose matrix reveal six deformation events, (Dl-D6): four are folding events, and at least two are ductile and brittle shear deformations. One period of metamorphism under blueschist-facies conditions is recorded in the blueschist blocks. The blocks lack evidence of prograde, greenschist-facies overprinting. Schistose rocks of the matrix are less deformed than the blueschist blocks. Matrix schists show at least two phases of folding. The predominant foliation is the result of tranposition of an early foliation or compositional layering. Other deformations include kink folding, ductile shearing, and brittle fracturing. The polydeformed tectonic blocks are hypothesized to have been incorporated into the melange matrix along a system of faults and rotated into a preferred alignment with the pervasive foliation of the matrix during D3. Feebly deformed and metamorphosed blocks such as chert, marble, and tonalite were incorporated prior to the time of brittle shearing.</ab><coord>N410000N420000W1220000W1230000</coord>
Example GeoRef Record
Alexandria Digital Library Project
ADEPT Retreat November 2002
Lookup Example: Gazetteer
Place Name exact partial
Skookum Gulch 1 0Klamath Mountains 1 0Northern California 0 1California 1 492Callahan* 1 1Silurian 0 5Siskiyou County* 1 14United States 1 273Yreka* 1 12North America 0 8
*within footprint of California
Alexandria Digital Library Project
ADEPT Retreat November 2002
TGI Evaluation Example
Skookum Gluch Klamath Mountains
California
Callahan in California
Siskiyou County in California United States
Yreka in California
Additional placenames• Shasta Butte City • Yreka City • Thompson's Dry Diggings
• Eastern Klamath Mountains• Area of Callahan-Yreka• Skookum Gulch
Derived footprint
Alexandria Digital Library Project
ADEPT Retreat November 2002
The Light at the End of the Tunnel
You submit: a document (could be a query)
You get: geospatial location + placenames
– Best– Also-rans– Alternatives
You apply this output to your processes
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: what activities are planned
Knowledge Base for ADEPT TGI
Computer processing of geoparsing output to derive estimated footprints for GeoRef records
Evaluate similarity of derived footprints to those assigned by GeoRef
Refine TGI process based on evaluation results Run additional textual objects through the TGI process Publish a TGI service specification
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: what activities are planned
Gazetteers Duplicate detection and ingest software for gazetteers Augmentation of ADL Gazetteer with polygonal footprints Improved database and searching support for ADL
Gazetteer Growth of a network of distributed gazetteers Use of Gazetteer Protocol in ADL/ADEPT as basis for new
gazetteer client Proposal for ITR funding to support gazetteer research and
development Thesauri
Use the thesaurus protocol in an ADL/ADEPT client – e.g., to access the Feature Type Thesaurus from a Gazetteer client
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: the main groups involved Knowledge Base
Knowledge Organization Team San Diego Supercomputer (SDSC) DLESE
TGI Terry Smith, Jim Frew, Linda Hill, Greg Janée Illinois Institute of Technology
Gazetteers Gazetteer Development Team ESRI ECAI University of Redlands, MSGIS program
Thesauri Greg Janée and Linda Hill USGS Gateway Vocabulary Team
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: the problems being faced
KOS Integration of KOS as a class of objects into DL architecture
– User interface issues– Managing change through time for KOS and collections
Balance of effort between building actual content and building a suite of tools for use by others
Flexible, customizable tools for building KOS Establishing/implementing standards for KOS
structures/representations Handling data and queries in multiple languages and scripts Building time-related data (e.g., historical data in gazetteer
entries) & better presentation of time range searching in clients
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: the problems being faced Gazetteers
Which model to follow: humongous centralized ADL gazetteer vs. distributed gazetteers?
Should we be building ingest systems to support building “personal” gazetteers entry-by-entry or ingesting blocks of gazetteer data from other sources or both?
Spatial data representation in gazetteers– Are bounding box generalizations ‘good enough’?– What is the processing cost for spatial matching using generalized
polygons that are more faithful to shape? ‘Qualified’ placenames
– How to provide administrative parent for unqualified placenames in gazetteer
Add type of relationship linking place to its ‘conventional’ administrative parent
Use ‘contained-in’ search operator to find the administrative entities containing the place
Alexandria Digital Library Project
ADEPT Retreat November 2002
KOS: the problems being faced
TGI Identifying causes of success and failure in automatic
footprint generation– Effect of density/frequency of spatial references in the text– Effect of the geoparsing process applied– Effect of analysis process that derives the best estimate– Effect of the quality of the gazetteer and feature type
thesaurus Value of set of additional placenames for text retrieval
Alexandria Digital Library Project
ADEPT Retreat November 2002
Related URLs
KOS as DL components Position paper for Classification Research workshop:
http://www.alexandria.ucsb.edu/~lhill/KOSpaper7-2-final.doc Knowledge Base Textual Geospatial Integration
Powerpoint presentation: http://nkos.slis.kent.edu/2002workshop/frew.ppt
Gazetteers ADL Gazetteer Development page:
http://www.alexandria.ucsb.edu/~lhill/adlgaz/ Thesauri
Gazetteer Service Protocol: http://www.alexandria.ucsb.edu/thesaurus/protocol/