Citation
Edward A. Lee. "Accessors: A Software Architecture for IoT". Talk or presentation, 30, March, 2017; Presented at Google.

Abstract
Cyber-physical systems are integrations of computation, communication networks, and physical dynamics. Applications include aircraft, manufacturing, transportation, energy production and distribution, biomedical, smart buildings, automobiles, 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 outline an effort at Berkeley to develop an open architecture for composition of things and services that can improve composability and predictability. In particular, I examine the role that deterministic models, particularly with regard to timing, can play in an increasingly nondeterministic environment.

Electronic downloads

• Lee_Accessors_Google.pdf · application/pdf · 4873 kbytes

• HTML

  Edward A. Lee. <a
  href="http://www.icyphy.org/pubs/73.html"
  ><i>Accessors: A Software Architecture for
  IoT</i></a>, Talk or presentation,  30, March,
  2017; Presented at Google.

• Plain text

  Edward A. Lee. "Accessors: A Software Architecture for
  IoT". Talk or presentation,  30, March, 2017; Presented
  at Google.

• BibTeX

  @presentation{Lee17_AccessorsSoftwareArchitectureForIoT,
      author = {Edward A. Lee},
      title = {Accessors: A Software Architecture for IoT},
      day = {30},
      month = {March},
      year = {2017},
      note = {Presented at Google.},
      abstract = {Cyber-physical systems are integrations of
                computation, communication networks, and physical
                dynamics. Applications include aircraft,
                manufacturing, transportation, energy production
                and distribution, biomedical, smart buildings,
                automobiles, 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
                outline an effort at Berkeley to develop an open
                architecture for composition of things and
                services that can improve composability and
                predictability. In particular, I examine the role
                that deterministic models, particularly with
                regard to timing, can play in an increasingly
                nondeterministic environment.},
      URL = {http://icyphy.org/pubs/73.html}
  }
  

Posted by Christopher Brooks on 13 Apr 2017.
Groups: accessors
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