Created by W.Langdon from gp-bibliography.bib Revision:1.8028

- @Misc{oai:arXiv.org:1311.5250,
- title = "Attractor Control Using Machine Learning",
- author = "Thomas Duriez and Vladimir Parezanovic and Bernd R. Noack and Laurent Cordier and Marc Segond and Markus Abel",
- year = "2013",
- month = "22 " # nov,
- howpublished = "arXiv",
- keywords = "genetic algorithms, genetic programming, nonlinear sciences, chaotic dynamics, physics, fluid dynamics, ECJ",
- bibsource = "OAI-PMH server at export.arxiv.org",
- oai = "oai:arXiv.org:1311.5250",
- URL = "http://arxiv.org/abs/1311.5250",
- size = "5 pages",
- abstract = "We propose a general strategy for feedback control design of complex dynamical systems exploiting the nonlinear mechanisms in a systematic unsupervised manner. These dynamical systems can have a state space of arbitrary dimension with finite number of actuators (multiple inputs) and sensors (multiple outputs). The control law maps outputs into inputs and is optimised with respect to a cost function, containing physics via the dynamical or statistical properties of the attractor to be controlled. Thus, we are capable of exploiting nonlinear mechanisms, e.g. chaos or frequency cross-talk, serving the control objective. This optimisation is based on genetic programming, a branch of machine learning. This machine learning control is successfully applied to the stabilisation of nonlinearly coupled oscillators and maximization of Lyapunov exponent of a forced Lorenz system. We foresee potential applications to most nonlinear multiple inputs/multiple outputs control problems, particularly in experiments.",
- notes = "Comment: 5 pages, 4 figures",
- }

Genetic Programming entries for Thomas Duriez Vladimir Parezanovic Bernd R Noack Laurent Cordier Marc Segond Markus W Abel