Paper Info
Title
Ongoing challenges in automated cyberphysical cross-domain design
Abstract
Cyberphysical systems span domains across mechanical design, controls/signal processing theory, and computational architecture domains. Through an automated holistic design methodology, the interdepen-dence between design domains can be exploited to yield cheaper, higher quality, distributed systems. This paper highlights preliminary results and challenges in ongoing research towards construction of physical structures and architectures in tandem. It targets deformable structural networks approximated through damped mass-spring networks. The method iteratively couples information from multiple domains. For instance, information about the physical model's eigen-frequencies determine real-time deadlines in the architecture. Vice versa, architectural limitations (e.g. how quickly sensor information can be gathered and synchronized) affects selection of physical materials and dictates sensor network design. We discuss the challenges and preliminary analysis for a first-order model, and briefly give broader context for the research.
Year
DOI
Venue
2013
10.1109/ICCNC.2013.6504106
Computing, Networking and Communications
Keywords
Field
DocType
distributed processing,embedded systems,iterative methods,automated cyberphysical cross-domain design,automated holistic design methodology,computational architecture domain,damped mass-spring network,deformable structural network,distributed system,eigen-frequency,first-order model,iterative method,mechanical design,sensor network design,signal processing theory
Signal processing,Mechanical design,Architecture,Computer science,Cyberphysical systems,Design methods,Control engineering,Wireless sensor network,Versa,Computational architecture,Distributed computing
Conference
ISSN
ISBN
Citations 
2325-2626
978-1-4673-5286-4
0
PageRank 
References 
Authors
0.34
0
3
Name
Order
Citations
PageRank
Kunal Arya100.34
Joseph Poverelli200.34
Forrest Brewer341462.95