Pei Zhan scite author profile

Pei Zhan

4Publications

45Citation Statements Received

0Citation Statements Given

How they've been cited

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Affiliations

Washington State University

Publications

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Knowledge Representation and Ontology Mapping Methods for Product Data in Engineering Applications

Zhan

Jayaram

et al. 2008

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This work seeks to create a semantic approach that uses ontologies for sharing knowledge related to product data in CAD/CAE applications and for integrating the design evaluation information that these applications individually provide. Our overall approach is coined OADE, Ontology-based Adaptive Design Evaluation. This paper reports on a piece of our ongoing work in this area. The key contributions of this paper include methods for the design of knowledge representation in product design and analysis, population of product data semantics, creation of ontology mapping methods and mapping representations, and mapping of product data semantics to the target application. The mapping method finds matching concepts between different ontologies based on three basic concept relation types: composition, inheritance, and attribute. A prototype implementation is being created using technologies such as OWL (representation tool), Jena (ontology builder), and Prote´ge´ (ontology editor) to demonstrate the approach for integrating a parametric CAD system, custom virtual assembly application, and an ergonomics engineering application. An example is given in this paper to illustrate how this approach can help integration between a product design application and an assembly simulation analysis application. The significance of this work is that it will provide the capability to create, share, and exchange knowledge for solving design evaluation challenges involving multiple applications and multiple viewpoints. A design decision can thus be described using the common concepts across the diverse entities.

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Knowledge Representation and Ontology Mapping Methods for Product Data in Engineering Applications

Zhan

Jayaram

Kim

et al. 2010

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This work seeks to create a semantic approach that uses ontologies for sharing knowledge related to product data in CAD/CAE applications and or integrating the design evaluation information that these applications individually provide. Our overall approach is coined OADE, Ontology-based Adaptive Design Evaluation. This paper reports on a piece of our ongoing work in this area. The key contributions of this paper include methods for the design of knowledge representation in product design and analysis, population of product data semantics, creation of ontology mapping methods and mapping representations, and mapping of product data semantics to the target application. The mapping method finds matching concepts between different ontologies based on three basic concept relation types: composition, inheritance, and attribute. A prototype implementation is being created using technologies such as OWL (representation tool), Jena (ontology builder), and Protégé (ontology editor) to demonstrate the approach for integrating a parametric CAD system, custom virtual assembly application, and an ergonomics engineering application. An example is given in this paper to illustrate how this approach can help integration between a product design application and an assembly simulation analysis application. The significance of this work is that it will provide the capability to create, share, and exchange knowledge for solving design evaluation challenges involving multiple applications and multiple viewpoints. A design decision can thus be described using the common concepts across the diverse entities.

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Ontology-Based Semantic Approach for Communication in Engineering Design Evaluation

Zhan

Jayaram

2005

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The primary objective of this paper is to conceptualize and develop an approach using semantics to integrate engineering applications for design evaluations. Our approach, coined OADE (Ontology-based Adaptive Design Evaluation), will have as components representation tools, ontology builders, ontology projecting tools, custom tools, and communication tools. In the proposed integration framework, ontologies in different domains will be built and integrated with the domain-specific applications. Semantics will be represented in domain-specific ontology and translated using ontology projection. The process of ontology projection calculates the similarities between concepts related to diverse viewpoints and then translates them. A design decision can thus be described using the common concepts across the diverse entities.

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Topomer CoMFA 3D-QSAR and Docking Studies of Pyrimidine Inhibitors of Pneumocystis Carinii Dihydrofolate Reductase

Tong

Zhan²,

Yao³

et al. 2016

LDDD

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Pei Zhan

Knowledge Representation and Ontology Mapping Methods for Product Data in Engineering Applications

Knowledge Representation and Ontology Mapping Methods for Product Data in Engineering Applications

Ontology-Based Semantic Approach for Communication in Engineering Design Evaluation

Topomer CoMFA 3D-QSAR and Docking Studies of Pyrimidine Inhibitors of Pneumocystis Carinii Dihydrofolate Reductase

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