Learning to map between ontologies on the semantic web
Proceedings of the 11th international conference on World Wide Web
The PROMPT suite: interactive tools for ontology merging and mapping
International Journal of Human-Computer Studies
Knowledge-based two-level control of a group of mobile executors
Integrated Computer-Aided Engineering
Knowledge modeling -- State of the art
Integrated Computer-Aided Engineering
A knowledge retrieval model using ontology mining and user profiling
Integrated Computer-Aided Engineering
Computer supported collaborative design: Retrospective and perspective
Computers in Industry
Ontology Maintenance via Multi-agents
NCM '09 Proceedings of the 2009 Fifth International Joint Conference on INC, IMS and IDC
Towards Agile Ontology Maintenance
ISWC '09 Proceedings of the 8th International Semantic Web Conference
Extracting knowledge from fuzzy relational databases with description logic
Integrated Computer-Aided Engineering
Do not use this gear with a switching lever! automotive industry experience with semantic guides
ISWC'05 Proceedings of the 4th international conference on The Semantic Web
Ontology translation on the semantic web
Journal on Data Semantics II
Formal Concept Analysis: foundations and applications
Formal Concept Analysis: foundations and applications
Construction of ontologies from object-oriented database models
Integrated Computer-Aided Engineering
Intelligent supervisory control system for home devices using a cyber physical approach
Integrated Computer-Aided Engineering - Anniversary Volume: Celebrating 20 Years of Excellence
Network management framework and lifetime evaluation method for wireless sensor networks
Integrated Computer-Aided Engineering
Hi-index | 0.00 |
This paper presents an ontology maintenance approach aiming at dynamically maintaining the federation collaboration ontology in High Level Architecture HLA federation development and execution process, with the objective to provide guidelines on how to use, organize and manipulate federation collaboration ontology to meet various requirements. The proposed approach includes two algorithms: ontology maintenance + and ontology maintenance -, corresponding to federate joining and resigning. It adopts an axiom-based deduction strategy and takes heavy-weighted ontologies into consideration. It can find all the explicit and derived inter-ontology relations. A case study shows that the proposed approach has great potential to improve the efficiency of federation development and execution processes, reduce the workload for adaptive adjustment of existing platforms, and enhance the applicability and flexibility of HLA based collaborative product development systems.