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Locality Blended Next Generation Reservoir Computing For Attention Accuracy

Chaotic Dynamics 2025-04-01 v1

Abstract

We extend an advanced variation of a machine learning algorithm, next-generation reservoir Computing (NGRC), to forecast the dynamics of the Ikeda map of a chaotic laser. The machine learning model is created by observing time-series data generated by the Ikeda map, and the trained model is used to forecast the behavior without any input from the map. The Ikeda map is a particularly challenging problem to learn because of the complicated map functions. We overcome the challenge by a novel improvement of the NGRC concept by emphasizing simpler polynomial models localized to well-designed regions of phase space and then blending these models between regions, a method that we call locality blended next-generation reservoir computing (LB-NGRC). This approach allows for better performance with relatively smaller data sets, and gives a new level of interpretability. We achieve forecasting horizons exceeding five Lyapunov times, and we demonstrate that the `climate' of the model is learned over long times.

Keywords

Cite

@article{arxiv.2503.23457,
  title  = {Locality Blended Next Generation Reservoir Computing For Attention Accuracy},
  author = {Daniel J. Gauthier and Andrew Pomerance and Erik Bollt},
  journal= {arXiv preprint arXiv:2503.23457},
  year   = {2025}
}

Comments

9 pages, 6 figures

R2 v1 2026-06-28T22:39:35.495Z