Difference between revisions of "Continuous Semantics to Analyze Real Time Data"
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<span style="font-size:28pt;color:purple">Continuous Semantics to Analyze Real-Time Data</span><br /><br /> | <span style="font-size:28pt;color:purple">Continuous Semantics to Analyze Real-Time Data</span><br /><br /> | ||
| − | Amit Sheth, Christopher Thomas, and Pankaj Mehra • <i>Wright State University</i> | + | Amit Sheth, Christopher Thomas, and Pankaj Mehra • <i>Wright State University</i><br /> |
| + | |||
| + | <span style="font-size:28pt;color:purple">W</span>e’ve made significant progress in | ||
| + | applying semantics and Semantic Web | ||
| + | technologies in a range of domains. A | ||
| + | relatively well-understood approach to reaping | ||
| + | semantics’ benefits begins with formal modeling | ||
| + | of a domain’s concepts and relationships, | ||
| + | typically as an ontology. Then, we extract relevant | ||
| + | facts — in the form of related entities — | ||
| + | from the corpus of background knowledge and | ||
| + | use them to populate the ontology. Finally, we | ||
| + | apply the ontology to extract semantic metadata | ||
| + | or to semantically annotate data in unseen or | ||
| + | new corpora. | ||
| + | Using annotations yields semanticsenhanced | ||
| + | experiences for search, browsing, | ||
| + | integration, personalization, advertising, analysis, | ||
| + | discovery, situational awareness, and so | ||
| + | on.1 This typically works well for domains that | ||
| + | involve slowly evolving knowledge concentrated | ||
| + | among deeply specialized domain experts and | ||
| + | that have definable boundaries. A good example | ||
| + | is the US National Center for Biomedical Ontologies, | ||
| + | which has approximately 200 ontologies | ||
| + | used for annotations, improved search, reasoning, | ||
| + | and knowledge discovery. Concurrently, | ||
| + | major search engines are developing and using | ||
| + | large collections of domain-relevant entities as | ||
| + | background knowledge, to support semantic or | ||
| + | facet search. | ||
| + | However, this approach has difficulties dealing | ||
| + | with dynamic domains involved in social, | ||
| + | mobile, and sensor webs. Here, we look at how | ||
| + | continuous semantics can help us model those | ||
| + | domains and analyze the related real-time data. | ||
Revision as of 19:51, 4 October 2010
Continuous Semantics to Analyze Real-Time Data
Amit Sheth, Christopher Thomas, and Pankaj Mehra • Wright State University
We’ve made significant progress in applying semantics and Semantic Web technologies in a range of domains. A relatively well-understood approach to reaping semantics’ benefits begins with formal modeling of a domain’s concepts and relationships, typically as an ontology. Then, we extract relevant facts — in the form of related entities — from the corpus of background knowledge and use them to populate the ontology. Finally, we apply the ontology to extract semantic metadata or to semantically annotate data in unseen or new corpora. Using annotations yields semanticsenhanced experiences for search, browsing, integration, personalization, advertising, analysis, discovery, situational awareness, and so on.1 This typically works well for domains that involve slowly evolving knowledge concentrated among deeply specialized domain experts and that have definable boundaries. A good example is the US National Center for Biomedical Ontologies, which has approximately 200 ontologies used for annotations, improved search, reasoning, and knowledge discovery. Concurrently, major search engines are developing and using large collections of domain-relevant entities as background knowledge, to support semantic or facet search. However, this approach has difficulties dealing with dynamic domains involved in social, mobile, and sensor webs. Here, we look at how continuous semantics can help us model those domains and analyze the related real-time data.
