探索一维混沌时间序列的神经状态空间学习

Zhiwei Shi, Min Han, Jianhui Xi
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引用次数: 1

摘要

由于混沌系统是初始条件敏感的,因此很难确定一个合适的初始状态,使递归神经网络对观测到的一维混沌时间序列进行建模。本文引入一种由内部状态组成反馈的递归神经网络对一维混沌时间序列进行建模。神经网络的输出是内部状态变量的非线性组合。为了成功地对混沌时间序列进行建模,证明了具有内状态的递归神经网络可以从任意初始状态出发。在仿真中,神经系统进行多步超前预测,并将重构后的神经系统状态空间与原始状态空间进行比较,计算并比较两个系统的最大LEs (Lyapunov指数),看两个系统是否具有相似的混沌不变量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring the neural state space learning from one-dimension chaotic time series
Because the chaotic system is initial condition sensitive, it is difficult to decide a proper initial state for a recurrent neural network to model observed one-dimension chaotic time series. In this paper, a recurrent neural network with feedback composed of internal state is introduced to model one-dimension chaotic time series. The neural network output is a nonlinear combination of the internal state variable. To successfully model a chaotic time series, this paper proves that the recurrent neural network with internal state can start from arbitrary initial state. In the simulation, the neural systems perform multi-step ahead prediction, also, the reconstructed neural state space is compared with the original state space, and largest LEs (Lyapunov exponents) of the two systems are calculated and compared to see if the two systems have similar chaotic invariant.
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