Linear Simple Cycle Reservoirs at the edge of Stability perform Fourier decomposition of the input driving signals

Robert Fong; Boyu Li; Peter Tiňo

doi:10.1063/5.0251154

Linear Simple Cycle Reservoirs at the edge of Stability perform Fourier decomposition of the input driving signals

Robert Fong^*
, Boyu Li
, Peter Tiňo

^*Corresponding author for this work

Computer Science

Research output: Contribution to journal › Article › peer-review

Abstract

This paper explores the representational structure of linear Simple Cycle Reservoirs (SCRs) operating at the edge of stability. We view SCR as providing in their state-space feature representations of the input-driving time series. By endowing the state space with the canonical dot-product, we “reverse engineer” the corresponding kernel (inner product) operating in the original time series space. The action of this time series kernel is fully characterized by the eigenspace of the corresponding metric tensor. We demonstrate that when linear SCRs are constructed at the edge of stability, the eigenvectors of the time series kernel align with the Fourier basis. This theoretical insight is supported by numerical experiments.

Original language	English
Article number	043109
Number of pages	13
Journal	Chaos
Volume	35
Issue number	4
DOIs	https://doi.org/10.1063/5.0251154
Publication status	Published - 8 Apr 2025

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Advanced Research into Crystallographic Anisotropy & Nucleation Effects in single crystals (ARCANE)
Withey, P. (Co-Investigator), Bowen, P. (Co-Investigator), Styles, I. (Co-Investigator), Green, N. (Principal Investigator), Tino, P. (Co-Investigator) & Warnken, N. (Co-Investigator)
Engineering & Physical Science Research Council, Rolls Royce
1/06/23 → 31/05/28
Project: Research Councils

Cite this

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title = "Linear Simple Cycle Reservoirs at the edge of Stability perform Fourier decomposition of the input driving signals",

abstract = "This paper explores the representational structure of linear Simple Cycle Reservoirs (SCRs) operating at the edge of stability. We view SCR as providing in their state-space feature representations of the input-driving time series. By endowing the state space with the canonical dot-product, we “reverse engineer” the corresponding kernel (inner product) operating in the original time series space. The action of this time series kernel is fully characterized by the eigenspace of the corresponding metric tensor. We demonstrate that when linear SCRs are constructed at the edge of stability, the eigenvectors of the time series kernel align with the Fourier basis. This theoretical insight is supported by numerical experiments.",

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AB - This paper explores the representational structure of linear Simple Cycle Reservoirs (SCRs) operating at the edge of stability. We view SCR as providing in their state-space feature representations of the input-driving time series. By endowing the state space with the canonical dot-product, we “reverse engineer” the corresponding kernel (inner product) operating in the original time series space. The action of this time series kernel is fully characterized by the eigenspace of the corresponding metric tensor. We demonstrate that when linear SCRs are constructed at the edge of stability, the eigenvectors of the time series kernel align with the Fourier basis. This theoretical insight is supported by numerical experiments.

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Linear Simple Cycle Reservoirs at the edge of Stability perform Fourier decomposition of the input driving signals

Abstract

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Advanced Research into Crystallographic Anisotropy & Nucleation Effects in single crystals (ARCANE)

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