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Framework for automated finite element analysis with an ontology-based approach
Wei Sun/Qinyi Ma/Shuang Chen
The Journal of Mechanical Science and Technology, vol. 23, no. 12, pp.3209-3220, 2009
Abstract : To obtain accurate and reliable results of finite element analysis (FEA) requires a high level of expertise and the fullscale
physical context information, which are bottlenecks restricting the application of achievements of FEA in
industry. This paper proposes an ontology-based framework including a hierarchy transfer approach and a three-stage
automated finite element analysis method to solve these problems. The hierarchy transfer approach is proposed to
create different transfer formats according to the data, information, and knowledge, to carry out the integration at
different levels. The knowledge found in design and FEA theories is presented by ontology in order to uniformly
describe the physical phenomenon with the same semantic meanings. This involves the development of a shared design
and FEA ontology, as well as, specific application ontologies in the Ontology Web Language (OWL). The three-stage
automated finite element analysis method is applied to mark up artifact in problem definition, to reuse domain
knowledge in problem formulation, and to enable the automation of the FEM analysis process in the solution routine
with the application of AI techniques. The feasibility and effectiveness of the framework and concepts are empirically
validated by a case study.
Keyword : FEA; Ontology; Automated analysis; Information modeling; CAD |
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