Title :
Coupling Evolutionary Algorithms With Nonlinear Dynamical Systems: An Efficient Tool for Excitation Design and Optimization
Author :
Olson, Colin C. ; Nichols, Jonathan M. ; Todd, Michael D. ; Michalowicz, Joseph V. ; Bucholtz, Frank
Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
Many chaotic dynamical systems can produce time series with a wide range of temporal and spectral properties as a function of only a few fixed parameters. This malleability invites their use as tools for shaping or designing inputs used to drive a separate dynamical system of interest. By specifying an objective function and employing an evolutionary algorithm to manipulate the parameters governing the dynamics of the forcing system, the output of the driven system is made to approach an optimal response subject to desired constraints. The technique´s versatility is demonstrated for two different applications: damage detection in structures and phase-locked loop disruption.
Keywords :
chaos; evolutionary computation; nonlinear dynamical systems; phase locked loops; time series; chaotic dynamical systems; coupling evolutionary algorithms; damage detection; designing inputs; driven system; excitation design; forcing system; malleability; nonlinear dynamical systems; objective function; optimal response; optimization; phase-locked loop disruption; shaping inputs; spectral property; temporal property; time series; Chaos; Evolutionary computation; Frequency modulation; Nonlinear dynamical systems; Optimization; Phase locked loops; Time series analysis; Chaos; damage detection; differential evolution; evolutionary algorithms; nonlinear dynamics; phase-locked loops;
Journal_Title :
Evolutionary Computation, IEEE Transactions on
DOI :
10.1109/TEVC.2010.2049360
