储层系统的收缩与同步

arXiv - MATH - Dynamical Systems Pub Date : 2024-08-07 DOI:arxiv-2408.04058

Adrian S. Wong, Robert S. Martin, Daniel Q. Eckhardt

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引用次数: 0

摘要

这项研究探讨了在什么条件下全局收缩会在泄漏连续时间水库中表现出来，从而保证广义同步。关于连续时间水库的结果利用了连通性矩阵的对数规范。进一步的分析得出了如何在这些系统中更好地构建连通性矩阵的一些简单指南。此外，我们还概述了离散时间水库的通用逼近特性是如何通过活化函数的收缩而得到满足的，以及连续时间水库是如何通过与神经常微分方程的重叠而继承有限形式的通用逼近的。水库计算框架普遍逼近拓扑共轭物的能力，加上其快速训练，使其成为令人信服的数据驱动、动态系统的黑箱代理，以及开发数字双胞胎的潜在机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Contraction and Synchronization in Reservoir Systems

This work explores the conditions under which global contraction manifests in the leaky continuous time reservoirs, thus guaranteeing Generalized Synchronization. Results on continuous time reservoirs make use of the logarithmic norm of the connectivity matrix. Further analysis yields some simple guidelines on how to better construct the connectivity matrix in these systems. Additionally, we outline how the Universal Approximation Property of discrete time reservoirs is readily satisfied by virtue of the activation function being contracting, and how continuous time reservoirs may inherit a limited form of universal approximation by virtue of them overlapping with Neural Ordinary Differential Equations. The ability of the Reservoir Computing framework to universally approximate topological conjugates, along with their fast training, make them a compelling data-driven, black-box surrogate of dynamical systems, and a potential mechanism for developing digital twins.

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arXiv - MATH - Dynamical Systems

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