Temporal Issues in Cyber-Physical Systems

Temporal Issues in Cyber-Physical Systems
David Broman, Patricia Derler, John Eidson

Citation
David Broman, Patricia Derler, John Eidson. "Temporal Issues in Cyber-Physical Systems". Journal of Indian Institute of Science, 2013.

Abstract
This paper reviews the use of time, clocks, and clock synchronization protocols in cyber-physical systems (CPS). Recent advances in the area of timing suggest avenues of research and potential new application areas. We discuss how introducing timestamps and clocks can help overcome issues such as latency, jitter, and determining correct execution order. Furthermore, we show how system complexity can be reduced and distribution as well as parallelism can be done deterministically. We also point to recent work in raising time to first class citizen status in modeling and implementation. In particular, we describe design and execution environments of CPS and specialized hardware such as predictable timing architectures where time plays a key role.

Electronic downloads

http://journal.iisc.ernet.in/index.php/iisc/article/view/1686

Citation formats

HTML

David Broman, Patricia Derler, John Eidson. <a
href="http://chess.eecs.berkeley.edu/pubs/997.html"
>Temporal Issues in Cyber-Physical Systems</a>,
<i>Journal of Indian Institute of Science</i>, 
2013.

Plain text

David Broman, Patricia Derler, John Eidson. "Temporal
Issues in Cyber-Physical Systems". <i>Journal of
Indian Institute of Science</i>,  2013.

BibTeX

@article{BromanDerlerEidson13_TemporalIssuesInCyberPhysicalSystems,
    author = {David Broman and Patricia Derler and John Eidson},
    title = {Temporal Issues in Cyber-Physical Systems},
    journal = {Journal of Indian Institute of Science},
    year = {2013},
    abstract = {This paper reviews the use of time, clocks, and
              clock synchronization protocols in cyber-physical
              systems (CPS). Recent advances in the area of
              timing suggest avenues of research and potential
              new application areas. We discuss how introducing
              timestamps and clocks can help overcome issues
              such as latency, jitter, and determining correct
              execution order. Furthermore, we show how system
              complexity can be reduced and distribution as well
              as parallelism can be done deterministically. We
              also point to recent work in raising time to first
              class citizen status in modeling and
              implementation. In particular, we describe design
              and execution environments of CPS and specialized
              hardware such as predictable timing architectures
              where time plays a key role.},
    URL = {http://chess.eecs.berkeley.edu/pubs/997.html}
}

Posted by David Broman on 10 Jul 2013.
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