MULTISTAGE ADAPTIVE HIGHER-ORDER NONLINEAR FINITE IMPULSE RESPONSE FILTERS FOR CHAOTIC TIME SERIES PREDICTIONS

doi:10.1088/1009-1963/10/5/305

Abstract

Abstract A multistage adaptive higher-order nonlinear finite impulse response (MAHONFIR) filter is proposed to predict chaotic time series. Using this approach, we may readily derive the decoupled parallel algorithm for the adaptation of the coefficients of the MAHONFIR filter, to guarantee a more rapid convergence of the adaptive weights to their optimal values. Numerical simulation results show that the MAHONFIR filters proposed here illustrate a very good performance for making an adaptive prediction of chaotic time series.

Keywords: chaotic time series adaptive higher-order nonlinear finite impulse response filters

Received: 26 July 2000
Revised: 30 December 2000
Accepted manuscript online:

PACS:	05.45.Tp	(Time series analysis)
	05.45.Pq	(Numerical simulations of chaotic systems)

Fund: Project supported by the National Defense Foundation of China (Grant No. 98JS05.4.1.DZ0205).

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Zhang Jia-shu (张家树), Xiao Xian-ci (肖先赐) MULTISTAGE ADAPTIVE HIGHER-ORDER NONLINEAR FINITE IMPULSE RESPONSE FILTERS FOR CHAOTIC TIME SERIES PREDICTIONS 2001 Chinese Physics 10 390

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MULTISTAGE ADAPTIVE HIGHER-ORDER NONLINEAR FINITE IMPULSE RESPONSE FILTERS FOR CHAOTIC TIME SERIES PREDICTIONS

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