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Inducing-Space Dirichlet Process Mixture Large-Margin Entity Relationship Inference in Knowledge Bases

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Cyprus University of Technology   

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Ktisis   

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Inducing-Space Dirichlet Process Mixture Large-Margin Entity Relationship Inference in Knowledge Bases
Chatzis, Sotirios P.
Χατζής, Σωτήριος Π.
conferenceObject
2015-10
2016-07-01T09:48:38Z
In this paper, we focus on the problem of extending a given knowledge base by accurately predicting additional true facts based on the facts included in it. This is an essential problem of knowledge representation systems, since knowledge bases typically suffer from incompleteness and lack of ability to reason over their discrete entities and relationships. To achieve our goals, in our work we introduce an inducing space nonparametric Bayesian large-margin inference model, capable of reasoning over relationships between pairs of entities. Previous works addressing the entity relationship inference problem model each entity based on atomic entity vector representations. In contrast, our method exploits word feature vectors to directly obtain high-dimensional nonlinear inducing space representations for entity pairs. This way, we allow for extracting salient latent characteristics and interaction dynamics within entity pairs that can be useful for inferring their relationships. On this basis, our model performs the relations inference task by postulating a set of binary Dirichlet process mixture large-margin classifiers, presented with the derived inducing space representations of the considered entity pairs. Bayesian inference for this inducing space model is performed under the mean-field inference paradigm. This is made possible by leveraging a recently proposed latent variable formulation of regularized large-margin classifiers that facilitates mean-field parameter estimation. We exhibit the superiority of our approach over the state-of-the-art by considering the problem of predicting additional true relations between entities given subsets of the WordNet and FreeBase knowledge bases.
Engineering and Technology
Electrical Engineering - Electronic Engineering - Information Engineering
Logical and relational learning
Inductive logic learning
Engineering and Technology
Machine learning
Computing methodologies
Machine learning approaches
Electrical Engineering - Electronic Engineering - Information Engineering
Probability and statistics
Mathematics of computing
Nonparametric statistics
ACM International on Conference on Information and Knowledge Management
Αγγλική γλώσσα
Proceedings of the 24th ACM International on Conference on Information and Knowledge Management, 2015, Melbourne, VIC, Australia, pp. 1311-1320
none
Cyprus University of Technology
Ktisis
Cyprus University of Technology Repository
Δημοσιεύσεις σε συνέδρια/Conference papers



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