A Multi-Disciplinary Simulation Framework Based on Semantic-SOA

Semantic-SOA is becoming a key enabler for multi-disciplinary collaborative simulation and environment for supporting automatic integrated development. For meeting the challenges of Semantic-SOA applications in continuous/discrete systems and dynamic interoperation, we proposed a framework for devel...

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Veröffentlicht in:	Applied Mechanics and Materials 2011-12, Vol.148-149, p.578-582
Hauptverfasser:	Lai Li, Yuan Jun, Song, Xiao, Qian, Li Dong, Zhang, Lin
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Sprache:	eng
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container_title	Applied Mechanics and Materials
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creator	Lai Li, Yuan Jun Song, Xiao Qian, Li Dong Zhang, Lin
description	Semantic-SOA is becoming a key enabler for multi-disciplinary collaborative simulation and environment for supporting automatic integrated development. For meeting the challenges of Semantic-SOA applications in continuous/discrete systems and dynamic interoperation, we proposed a framework for developing flexible collaboration. In this paper, we present a DDL (Dynamic Description Logic) based framework to improving the existing Semantic-SOA. The extension of OWL-S with DDL allows us to implement clear representation of dynamic information and simulation activities. Furthermore, some new definitions of DDL are proposed to fit our simulation systems. In the end, a demo system is implemented.
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title	A Multi-Disciplinary Simulation Framework Based on Semantic-SOA
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