Peer-to-Peer in Metric Space and Semantic Space
IEEE Transactions on Knowledge and Data Engineering
A language for high-level description of adaptive web systems
Journal of Systems and Software
Journal of Systems and Software
Use of grid computing for modeling virtual geospatial products
International Journal of Geographical Information Science - Distributed Geographic Information Processing Research
Discovering phishing target based on semantic link network
Future Generation Computer Systems
OSLN: An Object-Oriented Semantic Link Network language for complex object description and operation
Future Generation Computer Systems
A multiple-perspective approach to constructing and aggregating Citation Semantic Link Network
Future Generation Computer Systems
The schema theory for semantic link network
Future Generation Computer Systems
Building the association catalog for books based on association linked network
ICWL'10 Proceedings of the 2010 international conference on New horizons in web-based learning
Association link network: an incremental web resources link model for learning resources management
ICWL'11 Proceedings of the 10th international conference on Advances in Web-Based Learning
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A semantic link network (SLN) consists of nodes (entities, features, concepts, schemas or communities) and semantic links between nodes. This paper proposes an autonomous SLN formalism to support intelligent applications on large-scale networks. The formalism integrates the SLN logical reasoning with the SLN analogical reasoning and the SLN inductive reasoning, as well as existing techniques to form an autonomous semantic overly. The SLN logical reasoning mechanism derives implicit semantic relations by a semantic matrix and relevant addition and multiplication operations based on semantic link rules. The SLN analogical reasoning mechanism proposes conjectures on semantic relations based on structural mapping between nodes. The SLN inductive reasoning mechanism derives general semantics from special semantics. The cooperation of diverse reasoning mechanisms enhances the reasoning ability of each, therefore providing a powerful semantic ability for the semantic overlay. The self-organizing diverse scales of the SLN support the intelligent applications of the Knowledge Grid. Copyright © 2006 John Wiley & Sons, Ltd.