KAM: Automatic Planning and Interpretation of Numerical Experiments Using Geometrical Methods


Autoria(s): Yip, Kenneth Man-Kam
Data(s)

20/10/2004

20/10/2004

01/08/1989

Resumo

KAM is a computer program that can automatically plan, monitor, and interpret numerical experiments with Hamiltonian systems with two degrees of freedom. The program has recently helped solve an open problem in hydrodynamics. Unlike other approaches to qualitative reasoning about physical system dynamics, KAM embodies a significant amount of knowledge about nonlinear dynamics. KAM's ability to control numerical experiments arises from the fact that it not only produces pictures for us to see, but also looks at (sic---in its mind's eye) the pictures it draws to guide its own actions. KAM is organized in three semantic levels: orbit recognition, phase space searching, and parameter space searching. Within each level spatial properties and relationships that are not explicitly represented in the initial representation are extracted by applying three operations ---(1) aggregation, (2) partition, and (3) classification--- iteratively.

Formato

23999026 bytes

9402257 bytes

application/postscript

application/pdf

Identificador

AITR-1163

http://hdl.handle.net/1721.1/7025

Idioma(s)

en_US

Relação

AITR-1163