Dissertation
An ontology-based approach for semantic level information exchange and integration in applications for product lifecycle management
Washington State University
Doctor of Philosophy (PhD), Washington State University
08/2007
DOI:
https://doi.org/10.7273/000005683
Abstract
During product lifecycle management (PLM), product information from
CAD/CAE applications regularly needs to be exchanged and shared between the various
applications. However, these applications often have different product data semantics and
corresponding representations. The interoperability problem caused by the heterogeneous
semantics and data representation is critical and needs to be addressed and automated.
Recent research has focused on integration frameworks for CAD/CAE applications in
order to improve interoperability. There are fundamental problems that still need to be
addressed.
We identified the following important roadblocks and sought to address these
specifically in our work: 1) The need for an adequate product knowledge representation
of engineering design/analysis, which is easily expandable, and customizable for
traditional and non-traditional (e.g. virtual prototyping) design information systems that
also allows the sharing of product data semantics across all these heterogeneous systems
to support distributed, collaborative engineering capabilities; 2) The need for a way to
generate product data semantics by using engineering design/analysis knowledge to
interpret actual product data 3) The need for a way to reconcile the differences in the
different product semantics by finding underlying similarities between different
knowledge representations that are from different viewports and reconcile, and use these
similarities to then translate product data semantics correctly.
This dissertation proposes an ontology-based approach for a semantic level
exchange and integration to improve interoperability, which includes an ontology
building tool, ontology mapping tools and custom tools to associate ontologies to prduct
data. For the purpose of semantic level integration, a way of representing engineering
design/analysis knowledge using an engineering ontology is proposed. A layered
structure is used for building knowledge into engineering ontologies so as to improve the
scalability and composition adaptivity. Based on the knowledge, a semantic layer is built
upon product data to use concepts/relations in ontologies to describe actual product data,
which can be used to represent understandings about a product design from different
perspectives. To enable translating different understandings (product data semantics)
using different ontologies, an ontology mapping method is proposed to find matching
concepts between different ontologies, based on three basic relation types between
concepts: composition, inheritance and attribute.
A scenario is explained to describe the working mechanism of the system and to
demonstrate the concept of semantic level integration framework for a simple example. A
sample assembly is designed and simulated in different software packages and an
integrated process is made to exchange information between them. The scenario
successfully demonstrates the ontology based approach.
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Details
- Title
- An ontology-based approach for semantic level information exchange and integration in applications for product lifecycle management
- Creators
- Pei Zhan
- Contributors
- Uma Jayaram (Chair)Jayaram Sankar (Committee Member)Hakan Berat Gurocak (Committee Member) - Washington State University, School of Engineering and Computer Science (VANC)
- Awarding Institution
- Washington State University
- Academic Unit
- School of Mechanical and Materials Engineering
- Theses and Dissertations
- Doctor of Philosophy (PhD), Washington State University
- Publisher
- Washington State University
- Number of pages
- 135
- Identifiers
- 99901054763201842
- Language
- English
- Resource Type
- Dissertation