Constraints on parameter choices for successful time-series prediction with echo-state networks

IF 6.3 2区 物理与天体物理 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
L. Storm, K. Gustavsson, B. Mehlig
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引用次数: 1

Abstract

Echo-state networks are simple models of discrete dynamical systems driven by a time series. By selecting network parameters such that the dynamics of the network is contractive, characterized by a negative maximal Lyapunov exponent, the network may synchronize with the driving signal. Exploiting this synchronization, the echo-state network may be trained to autonomously reproduce the input dynamics, enabling time-series prediction. However, while synchronization is a necessary condition for prediction, it is not sufficient. Here, we study what other conditions are necessary for successful time-series prediction. We identify two key parameters for prediction performance, and conduct a parameter sweep to find regions where prediction is successful. These regions differ significantly depending on whether full or partial phase space information about the input is provided to the network during training. We explain how these regions emerge.
回声状态网络成功时间序列预测参数选择的约束
回声状态网络是由时间序列驱动的离散动力系统的简单模型。通过选择网络参数,使网络的动力学是收缩的,其特征是负极大李雅普诺夫指数,网络可以与驱动信号同步。利用这种同步,可以训练回声状态网络来自主地再现输入动态,从而实现时间序列预测。然而,虽然同步是预测的必要条件,但它不是充分条件。在这里,我们研究了成功的时间序列预测所必需的其他条件。我们确定了预测性能的两个关键参数,并进行参数扫描以找到预测成功的区域。这些区域的差异很大,这取决于在训练期间是否向网络提供了有关输入的全部或部分相空间信息。我们解释这些区域是如何出现的。
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来源期刊
Machine Learning Science and Technology
Machine Learning Science and Technology Computer Science-Artificial Intelligence
CiteScore
9.10
自引率
4.40%
发文量
86
审稿时长
5 weeks
期刊介绍: Machine Learning Science and Technology is a multidisciplinary open access journal that bridges the application of machine learning across the sciences with advances in machine learning methods and theory as motivated by physical insights. Specifically, articles must fall into one of the following categories: advance the state of machine learning-driven applications in the sciences or make conceptual, methodological or theoretical advances in machine learning with applications to, inspiration from, or motivated by scientific problems.
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