The fixed-point theory of strictly causal functions

The fixed-point theory of strictly causal functions
Eleftherios Matsikoudis, Edward A. Lee

Citation
Eleftherios Matsikoudis, Edward A. Lee. "The fixed-point theory of strictly causal functions". Theoretical Computer Science, 574:39-77, April 2015.

Abstract
We ask whether strictly causal components form well defined systems when arranged in feedback configurations. The standard interpretation for such configurations induces a fixed-point constraint on the function modeling the component involved. We define strictly causal functions formally, and show that the corresponding fixed-point problem does not always have a well defined solution. We examine the relationship between these functions and the functions that are strictly contracting with respect to a generalized distance function on signals, and argue that these strictly contracting functions are actually the functions that one ought to be interested in. We prove a constructive fixed-point theorem for these functions, introduce a corresponding induction principle, and study the related convergence process.

Electronic downloads

http://dx.doi.org/10.1016/j.tcs.2015.01.036

Citation formats

HTML

Eleftherios Matsikoudis, Edward A. Lee. <a
href="http://chess.eecs.berkeley.edu/pubs/1113.html"
>The fixed-point theory of strictly causal
functions</a>, <i>Theoretical Computer
Science</i>, 574:39-77, April 2015.

Plain text

Eleftherios Matsikoudis, Edward A. Lee. "The
fixed-point theory of strictly causal functions".
<i>Theoretical Computer Science</i>, 574:39-77,
April 2015.

BibTeX

@article{MatsikoudisLee15_FixedpointTheoryOfStrictlyCausalFunctions,
    author = {Eleftherios Matsikoudis and Edward A. Lee},
    title = {The fixed-point theory of strictly causal functions},
    journal = {Theoretical Computer Science},
    volume = {574},
    pages = {39-77},
    month = {April},
    year = {2015},
    abstract = {We ask whether strictly causal components form
              well defined systems when arranged in feedback
              configurations. The standard interpretation for
              such configurations induces a fixed-point
              constraint on the function modeling the component
              involved. We define strictly causal functions
              formally, and show that the corresponding
              fixed-point problem does not always have a well
              defined solution. We examine the relationship
              between these functions and the functions that are
              strictly contracting with respect to a generalized
              distance function on signals, and argue that these
              strictly contracting functions are actually the
              functions that one ought to be interested in. We
              prove a constructive fixed-point theorem for these
              functions, introduce a corresponding induction
              principle, and study the related convergence
              process.},
    URL = {http://chess.eecs.berkeley.edu/pubs/1113.html}
}

Posted by Mary Stewart on 15 Sep 2015.
For additional information, see the Publications FAQ or contact webmaster at chess eecs berkeley edu.

Notice: This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright.