Modeling the evolution of associated data
Data & Knowledge Engineering
Ontology population and enrichment: state of the art
Knowledge-driven multimedia information extraction and ontology evolution
A method for the acquisition of ontology-based user profiles
Advances in Engineering Software
Framework for surveillance of instant messages
International Journal of Internet Technology and Secured Transactions
Tag recommendation for open source software
Frontiers of Computer Science: Selected Publications from Chinese Universities
CFinder: An intelligent key concept finder from text for ontology development
Expert Systems with Applications: An International Journal
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Probabilistic topic models were originally developed and utilized for document modeling and topic extraction in Information Retrieval. In this paper, we describe a new approach for automatic learning of terminological ontologies from text corpus based on such models. In our approach, topic models are used as efficient dimension reduction techniques, which are able to capture semantic relationships between word-topic and topic-document interpreted in terms of probability distributions. We propose two algorithms for learning terminological ontologies using the principle of topic relationship and exploiting information theory with the probabilistic topic models learned. Experiments with different model parameters were conducted and learned ontology statements were evaluated by the domain experts. We have also compared the results of our method with two existing concept hierarchy learning methods on the same data set. The study shows that our method outperforms other methods in terms of recall and precision measures. The precision level of the learned ontology is sufficient for it to be deployed for the purpose of browsing, navigation, and information search and retrieval in digital libraries.