Cyberphysical Design Automation Framework for Knowledge-based Engineering

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Urcun John Tanik

Abstract

Cyberphysical system design automation utilizing knowledge based engineering techniques with globally networked knowledge bases can tremendously improve the design process for emerging systems. Our goal is to develop a comprehensive architectural framework to improve the design process for cyberphysical systems (CPS) and implement a case study with Axiomatic Design Solutions Inc. to develop next generation toolsets utilizing knowledge-based engineering (KBE) systems adapted to multiple domains in the field of CPS design automation. The Cyberphysical System Design Automation Framework (CPSDAF) will be based on advances in CPS design theory based on current research and knowledge collected from global sources automatically via Semantic Web Services. A case study utilizing STEM students is discussed.

Article Details

Author Biography

Urcun John Tanik, IPFW (Purdue University in Fort Wayne)

Computer Science Department, Assistant Professor
IPFW (Purdue University in Fort Wayne)