Title :
Approximating discrete mapping of chaotic dynamical system based on on-line EM algorithm
Author :
Yoshida, Wako ; Ishii, Shin ; Sato, Masa-aki
Author_Institution :
Nara Inst. of Sci. & Technol., Japan
Abstract :
Discusses the reconstruction of chaotic dynamics by using a normalized Gaussian network (NGnet). The NGnet is trained by an online expectation maximization (EM) algorithm in order to learn the discrete mapping of the chaotic dynamics. We also investigate the robustness of our approach to two kinds of noise processes: system noise and observation noise. It is shown that a trained NGnet is able to reproduce a chaotic attractor, even under various noise conditions. The trained NGnet also shows good prediction performance. When only part of the dynamical variables are observed, the NGnet is trained to learn the discrete mapping in the delay coordinate space. It is shown that the chaotic dynamics is able to be learned with this method under the two kinds of noise
Keywords :
approximation theory; chaos; learning (artificial intelligence); neural nets; noise; nonlinear dynamical systems; online operation; optimisation; performance evaluation; chaotic attractor; chaotic dynamical system; delay coordinate space; discrete mapping approximation; dynamical variables; learning; neural network training; noise processes; normalized Gaussian network; observation noise; online expectation-maximization algorithm; prediction performance; robustness; system noise; Chaos; Covariance matrix; Delay; Humans; Information processing; Laboratories; Learning systems; Noise robustness; Partitioning algorithms; Recurrent neural networks;
Conference_Titel :
Neural Information Processing, 1999. Proceedings. ICONIP '99. 6th International Conference on
Conference_Location :
Perth, WA
Print_ISBN :
0-7803-5871-6
DOI :
10.1109/ICONIP.1999.844674
