COP Semantics of Timed Interactive Actor Networks

COP Semantics of Timed Interactive Actor Networks
Xiaojun Liu, Edward A. Lee

Citation
Xiaojun Liu, Edward A. Lee. "COP Semantics of Timed Interactive Actor Networks". Technical report, EECS Department, UC Berkeley, 67, May, 2006.

Abstract
We give a denotational framework for composing interactive components into closed or open systems and show how to adapt classical domain-theoretic approaches to open systems and to timed systems. For timed systems, instead of the usual metric-space-based approaches, we show that existence and uniqueness of behaviors are ensured by continuity with respect to a simply defined prefix order. Existence and uniqueness of behaviors, however, does not imply that a composition of components yields a useful behavior. The unique behavior could be empty or smaller than expected. We define liveness and show that appropriately defined causality conditions ensure liveness and freedom from Zeno conditions. In our formulation, causality does not require a metric and can embrace a wide variety of models of time.

Electronic downloads

http://www.eecs.berkeley.edu/Pubs/TechRpts/2006/EECS-2006-67.html

Citation formats

HTML

Xiaojun Liu, Edward A. Lee. <a
href="http://chess.eecs.berkeley.edu/pubs/135.html"
><i>COP Semantics of Timed Interactive Actor
Networks</i></a>, Technical report,  EECS
Department, UC Berkeley, 67, May, 2006.

Plain text

Xiaojun Liu, Edward A. Lee. "COP Semantics of Timed
Interactive Actor Networks". Technical report,  EECS
Department, UC Berkeley, 67, May, 2006.

BibTeX

@techreport{LiuLee06_COPSemanticsOfTimedInteractiveActorNetworks,
    author = {Xiaojun Liu and Edward A. Lee},
    title = {COP Semantics of Timed Interactive Actor Networks},
    institution = {EECS Department, UC Berkeley},
    number = {67},
    month = {May},
    year = {2006},
    abstract = {We give a denotational framework for composing
              interactive components into closed or open systems
              and show how to adapt classical domain-theoretic
              approaches to open systems and to timed systems.
              For timed systems, instead of the usual
              metric-space-based approaches, we show that
              existence and uniqueness of behaviors are ensured
              by continuity with respect to a simply defined
              prefix order. Existence and uniqueness of
              behaviors, however, does not imply that a
              composition of components yields a useful
              behavior. The unique behavior could be empty or
              smaller than expected. We define liveness and show
              that appropriately defined causality conditions
              ensure liveness and freedom from Zeno conditions.
              In our formulation, causality does not require a
              metric and can embrace a wide variety of models of
              time.},
    URL = {http://chess.eecs.berkeley.edu/pubs/135.html}
}

Posted by Mary Stewart on 19 May 2006.
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