Dependable Cyber-Physical Systems

Dependable Cyber-Physical Systems
Edward A. Lee

Citation
Edward A. Lee. "Dependable Cyber-Physical Systems". to appear in Proceedings of Symposium on Dependable Software Engineering Theories, Tools and Applications (SETTA), Beijing, China Nov. 9-11, 2016.

Abstract
Cyber-physical systems are integrations of computation, communication networks, and physical dynamics. Applications include manufacturing, transportation, energy production and distribution, biomedical, smart buildings, and military systems, to name a few. Increasingly, today, such systems leverage Internet technology, despite a significant mismatch in technical objectives. A major challenge today is to make this technology reliable, predictable, and controllable enough for ”important” things, such as safety-critical and mission-critical systems. In this talk, I will analyze how emerging technologies can translate into better models and better engineering methods for this evolving Internet of Important things.

Electronic downloads

Lee_DependableCPS_SETTA_2016_Abstract.pdf · application/x-octet-stream · 34 kbytes

Citation formats

HTML

Edward A. Lee. <a
href="http://chess.eecs.berkeley.edu/pubs/1179.html"
>Dependable Cyber-Physical Systems</a>, <i>to
appear</i> in Proceedings of Symposium on Dependable
Software Engineering Theories, Tools and Applications
(SETTA), Beijing, China Nov. 9-11, 2016.

Plain text

Edward A. Lee. "Dependable Cyber-Physical
Systems". <i>to appear</i> in Proceedings
of Symposium on Dependable Software Engineering Theories,
Tools and Applications (SETTA), Beijing, China Nov. 9-11,
2016.

BibTeX

@inproceedings{Lee16_DependableCyberPhysicalSystems,
    author = {Edward A. Lee},
    title = {Dependable Cyber-Physical Systems},
    booktitle = {<i>to appear</i> in Proceedings of Symposium on
              Dependable Software Engineering Theories, Tools
              and Applications (SETTA), Beijing, China Nov. 9-11},
    year = {2016},
    abstract = {Cyber-physical systems are integrations of
              computation, communication networks, and physical
              dynamics. Applications include manufacturing,
              transportation, energy production and
              distribution, biomedical, smart buildings, and
              military systems, to name a few. Increasingly,
              today, such systems leverage Internet technology,
              despite a significant mismatch in technical
              objectives. A major challenge today is to make
              this technology reliable, predictable, and
              controllable enough for â��importantâ�� things,
              such as safety-critical and mission-critical
              systems. In this talk, I will analyze how emerging
              technologies can translate into better models and
              better engineering methods for this evolving
              Internet of Important things.},
    URL = {http://chess.eecs.berkeley.edu/pubs/1179.html}
}

Posted by Mary Stewart on 31 Aug 2016.
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