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Back to Kepler Meeting Agenda
Exploiting ontologies
- In SEEK we want to exploit "eco" ontologies for semantic annotation of services to do "smart discovery and integration"
- Our solutions are meant to be generic, and applicable for KEPLER
Ontology Languages
- An ontology is a set of concept (class) names, subconcept (subclass) links, named (directed, binary) relationships between concepts, and constraints (cardinality, equivalence, conjunction, disjunction, etc.)
- In SEEK, we've adopted the Web Ontology Language (OWL)
Semantic Annotationa
- A semantic annotation assigns a 'selected item' to an ontology expression.
- Items
- Datasets: An entire dataset or some portion (a single table, one or more attributes, one or more data values, etc.)
- Workflows and components: A workflow, a workflow component, or some portion (parameters, ports, substructures of a port type, etc.).
- Item Selection
- Expressed in general as queries, however, simpler expressions can be used, e.g., XPath/XPointer addresses or possibly using EML identifiers
- Ontology Expressions
- An ontology expression defines the semantic "context" of the item selected
- Ontology expressions can be as complex as SQL-style update queries or simpler, e.g., as single concepts or paths in an ontology
- Path Example: Measurement.spatialContext.loc.latDeg specifies the location of a Measurement's spatialContext as a latitude in degrees
Architecture
- Repositories
- Ontology(ies)
- Datasets (or metadata stating how to obtain the datasets)
- Workflows and Workflow Components (or metadata, etc.)
- Semantic Annotations
- "Smart discovery and integration" needs access to each of these components:
- For example, to search for a workflow component, the sms engine would search through semantic annotations, and when an annotation matches, obtain the corresponding component.
- You might also want to organize (for browsing) all actors according to their annotations; so need to iterate over actors, or similarly, for datasets.
- SMS-Based Applications
- Browsing/Keyword Search
- Categorize workflows, components, datasets according to their position in the ontology concept hierarchy.
- Search based on concepts-as-keywords, providing "term expansion" capabilities
- Find "compatible" workflow components
- Given a workflow component (an actor), find actors that can be connected to it (either as input or output) based on semantic annotations. If the annotations are "compatible" according to the ontology(ies), the component is returned.
- Note that this could also result in "data binding," e.g., a dataset may be a "compatible" input.
- Also note that semantic compatbility does not imply structural compatibility (the i/o types may not match)
- Requires port inputs/outputs to be semantically annotated
- Workflow "analysis"
- Given a workflow, check that each connection (input/output) is semantically compatible.
- As part of analysis, annotation propagation ...
- Workflow-component structural integration
- Given two components that are semantically compatible, determine a structural transformation (either another component or a transformation step) to make them structurally compatible.
- May be a place where SCIA can contribute, to derive structural transformations.
- Dataset merging/integration
- Search for "similar" datasets (that could be potentially "merged" or integrated)
- Define a dataset of interest (via an ontology-style query), find/combine datasets as integrated "view".
- Perhaps a place for SCIA to contribute?
*** Ontology Editors/Browsers
*** Semantic Annotation Editor
*** Ontology-based query rewriting/answering
- "Smart" Actor Search in Kepler
A very simple keyword-based search implementation within Kepler.
Fakes out: workflow component LSIDs, an actor repository (as a
ptolemy xml config file), annotation repository (xml file), LSID
service.
The "ontology" is a simple hierarchy. No rels, etc.
** Ontologies
There basically aren't any.
There also aren't any tools. No tools within Kepler.
** Repositories ...
The Obj. Mngr. can help! We don't have repositories for
workflows/components, ontologies, annotations, or datasets in
KEPLER.
For annotations, need a searchable "index" of annotations and ids
(for components, datasets, etc.), and a mechanism to "retrieve"
those items.
For performance, I wonder though if the "index" should be in
memory.
** Semantic Annotation Editor
This doesn't exist either ... lots of ways/approaches here.
Need GUI design for this.
Also, need a good way to access/browse a component/dataset and its
attributes, such as is ports and their input/output types.
Similar with datasets
The challenges are making this tool easy to use, and accessible
within Kepler.
** Basic Kepler Interfaces / GUI Design
Like for searching, checking semantic compatibility (can steal
unit resolver), explanation of semantics (like for searching, etc.)
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