Ellipsoidal Toolbox

Ellipsoidal Toolbox
Alex A. Kurzhanskiy, Pravin Varaiya

Citation
Alex A. Kurzhanskiy, Pravin Varaiya. "Ellipsoidal Toolbox". Technical report, EECS, UC Berkeley, 2006.

Abstract
Ellipsoidal Toolbox (ET) implements in MATLAB the ellipsoidal calculus and its application to the reachability analysis of continuous- and discrete-time, possibly time-varying linear systems, and linear systems with disturbances, for which ET calculates both open-loop and close-loop reach sets. The ellipsoidal calculus provides the following benefits: - The complexity of the ellipsoidal representation is quadratic in the dimension of the state space, and linear in the number of time steps. - It is possible to exactly represent the reach set of linear system through both external and internal ellipsoids. - It is possible to single out individual external and internal approximating ellipsoids that are optimal to some given criterion (e.g. trace, volume, diameter), or combination of such criteria. - It gives simple analytical expressions for the control that steers the state to a desired target.

Electronic downloads

EECS-2006-46.pdf · application/pdf · 702 kbytes

Citation formats

HTML

Alex A. Kurzhanskiy, Pravin Varaiya. <a
href="http://chess.eecs.berkeley.edu/pubs/93.html"
><i>Ellipsoidal Toolbox</i></a>,
Technical report,  EECS, UC Berkeley, 2006.

Plain text

Alex A. Kurzhanskiy, Pravin Varaiya. "Ellipsoidal
Toolbox". Technical report,  EECS, UC Berkeley, 2006.

BibTeX

@techreport{KurzhanskiyVaraiya06_EllipsoidalToolbox,
    author = {Alex A. Kurzhanskiy and Pravin Varaiya},
    title = {Ellipsoidal Toolbox},
    institution = {EECS, UC Berkeley},
    year = {2006},
    abstract = {Ellipsoidal Toolbox (ET) implements in MATLAB the
              ellipsoidal calculus and its application to the
              reachability analysis of continuous- and
              discrete-time, possibly time-varying linear
              systems, and linear systems with disturbances, for
              which ET calculates both open-loop and close-loop
              reach sets. The ellipsoidal calculus provides the
              following benefits: - The complexity of the
              ellipsoidal representation is quadratic in the
              dimension of the state space, and linear in the
              number of time steps. - It is possible to exactly
              represent the reach set of linear system through
              both external and internal ellipsoids. - It is
              possible to single out individual external and
              internal approximating ellipsoids that are optimal
              to some given criterion (e.g. trace, volume,
              diameter), or combination of such criteria. - It
              gives simple analytical expressions for the
              control that steers the state to a desired target. },
    URL = {http://chess.eecs.berkeley.edu/pubs/93.html}
}

Posted by Alex A. Kurzhanskiy on 11 May 2006.
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