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This is version 23.
It is not the current version, and thus it cannot be edited. Concept-Based Searching_search( ConceptExpression, Set<ResourceType>, RemoteSearchFlag ) :: Set<ResourceID>_ This service takes the following three arguments:
Here, we assume that an initial search string has been converted to a description-logic concept expression, which can be a simple concept id (like "Biomass") or a more complex formula (including nested disjunctive and conjunctive formulas, and so on). The search operation requires the following kepler object manager services: KeplerObjectManager: ResourceType getResourceType( ResourceID ) KeplerObjectManager: Set<SemanticAnnotationID> getSemanticAnnotations( RemoteSearchFlag ) KeplerObjectManager: Set<Ontology> getOntology( OntologyID ) Both of these services are implemented by the kepler object manager. The first operation returns the resource type of a given resource identifier (an LSID). The second operation returns the set of semantic annotations known to the kepler object manager (inlcuding any annotations stored on remote repositories denoted by the search flag argument). The last operation returns the ontology for a given ontology identifier (also a resource id). We note that in general, the search operation requires access to all semantic annotations to determine matching resources (e.g., in the case of search expressions containing conjunctive formulas). As the number of semantic annotations increases, this operation could become expensive. We can reduce the cost by indexing semantic annotations for search. In particular, we can define an index of the form: ontoSearchIndex ( ResourceID, ResourceType, SemanticType ) that can in particular, provide the functions:
AnnotationEngine: ConceptExpression getSemanticType( OntoSearchIndex, ResourceID ) AnnotationEngine: Set<ResourceID> getResourceIDs( OntoSearchIndex ) AnnotationEngine: ResourceType getResourceType( OntoSearchIndex, ResourceID ) This needs some work: what we want to do is, e.g., ask S1 it's resources (e.g., R1, R2, and R3) and then "ship" the expressions (C1 and C2)/R1, (C1 and C2)/R2, and (C1 and C2)/R3 only to S1, which would return R1/match, R2/C1, R3/C2, and then we would want to do something similar with S2: ask it what resources it has, then ship (C1 and C2)/RX to S2 except if X=2 or X=3, in which case we would ship (R2/C2) and (R3/C1), and so on
Here a semantic type is a concept expression generated from a semantic annotation. Providing and index over a resource's
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This material is based upon work supported by the National Science Foundation under award 0225676. Any opinions, findings and conclusions or recomendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation (NSF). Copyright 2004 Partnership for Biodiversity Informatics, University of New Mexico, The Regents of the University of California, and University of Kansas |