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Systems Engineering for Industrial Cyber-Physical Systems using AspectsIlge Akkaya, Patricia Derler, Shuhei Emoto, Edward A. Lee
Citation
Ilge Akkaya, Patricia Derler, Shuhei Emoto, Edward A. Lee. "Systems Engineering for Industrial Cyber-Physical Systems using Aspects". IEEE Proceedings, Vol. 104, Issue 5, 997-1012, 4, April, 2016.
Abstract
One of the biggest challenges in cyber-physical system (CPS) design is their intrinsic complexity, heterogeneity, and multidisciplinary nature. Emerging distributed CPS integrate a
wide range of heterogeneous aspects such as physical dynamics, control, machine learning, and error handling. Furthermore, system components are often distributed over multiple physical
locations, hardware platforms and communication networks. While model-based design (MBD) has tremendously improved the design process, CPS design remains a difficult task. Models
are meant to improve understanding of a system, yet this quality is often lost when models become too complicated. In this paper,
we show how to use aspect-oriented (AO) modeling techniques in MBD as a systematic way to segregate domains of expertise and cross-cutting concerns within the model. We demonstrate these
concepts on actor-oriented models of an industrial robotic swarm application and illustrate the use of AO modeling techniques to
manage the complexity. We also show how to use AO modeling for design-space exploration.
Electronic downloads
- HTML
Ilge Akkaya, Patricia Derler, Shuhei Emoto, Edward A. Lee.
<a
href="http://chess.eecs.berkeley.edu/pubs/1161.html"
>Systems Engineering for Industrial Cyber-Physical
Systems using Aspects</a>, IEEE Proceedings, Vol. 104,
Issue 5, 997-1012, 4, April, 2016.
- Plain text
Ilge Akkaya, Patricia Derler, Shuhei Emoto, Edward A. Lee.
"Systems Engineering for Industrial Cyber-Physical
Systems using Aspects". IEEE Proceedings, Vol. 104,
Issue 5, 997-1012, 4, April, 2016.
- BibTeX
@inproceedings{AkkayaDerlerEmotoLee16_SystemsEngineeringForIndustrialCyberPhysicalSystems,
author = {Ilge Akkaya and Patricia Derler and Shuhei Emoto
and Edward A. Lee},
title = {Systems Engineering for Industrial Cyber-Physical
Systems using Aspects},
booktitle = {IEEE Proceedings, Vol. 104, Issue 5},
pages = {997-1012},
day = {4},
month = {April},
year = {2016},
abstract = {One of the biggest challenges in cyber-physical
system (CPS) design is their intrinsic complexity,
heterogeneity, and multidisciplinary nature.
Emerging distributed CPS integrate a wide range of
heterogeneous aspects such as physical dynamics,
control, machine learning, and error handling.
Furthermore, system components are often
distributed over multiple physical locations,
hardware platforms and communication networks.
While model-based design (MBD) has tremendously
improved the design process, CPS design remains a
difficult task. Models are meant to improve
understanding of a system, yet this quality is
often lost when models become too complicated. In
this paper, we show how to use aspect-oriented
(AO) modeling techniques in MBD as a systematic
way to segregate domains of expertise and
cross-cutting concerns within the model. We
demonstrate these concepts on actor-oriented
models of an industrial robotic swarm application
and illustrate the use of AO modeling techniques
to manage the complexity. We also show how to use
AO modeling for design-space exploration. },
URL = {http://chess.eecs.berkeley.edu/pubs/1161.html}
}
Posted by Mary Stewart on 6 Jan 2016.
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