Reasoning and revision in hybrid representation systems
Reasoning and revision in hybrid representation systems
Formal ontology, conceptual analysis and knowledge representation
International Journal of Human-Computer Studies - Special issue: the role of formal ontology in the information technology
Jess in Action: Java Rule-Based Systems
Jess in Action: Java Rule-Based Systems
Physical concept ontology for the knowledge intensive engineering framework
Advanced Engineering Informatics
A Hybrid System Combining Description Logics and Rules for Inventive Design
KES '09 Proceedings of the 13th International Conference on Knowledge-Based and Intelligent Information and Engineering Systems: Part I
An ontology-based approach for inventive problem solving
Engineering Applications of Artificial Intelligence
A formal ontology for a generalized inventive design methodology
Applied Ontology
Facilitating the resolution of inventive problems using semantic relatedness and ontology reasoning
International Journal of Knowledge-based and Intelligent Engineering Systems - Selected papers of KES2012-Part 1 of 2
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An ideal TRIZ reasoning environment should support TRIZ fundamental concepts and simulate its thinking process. In this paper, an advanced TRIZ methodology is analysed in this perspective: the substance-field analysis. Previously, it has been shown that the TRIZ knowledge can be modelled and managed in an object-oriented ontology for computer aided problem formulation. A new ontological model based on this previous work is proposed in order to simulate the TRIZ problem solving stage: from the generation of a general solution to the interpretation phase linking the abstract field of general solution to the real field of physic.