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Machine learning in parameter estimation of nonlinear systems

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  • Kaushal Kumar

    (Heidelberg University)

  • Ekaterina Kostina

    (Heidelberg University)

Abstract

Accurate parameter estimation in nonlinear dynamical systems remains a fundamental challenge due to noise, limited data, and model complexity. Traditional methods, such as gradient-based optimization and nonlinear least squares (NLS), often struggle under real-world multiplicative noise, exhibiting sensitivity to outliers and high computational demands. This study introduces a neural network framework integrating the Huber loss function to achieve robust and efficient parameter estimation. Applied to canonical dynamical systems, including damped oscillators, van der Pol oscillators, Lotka–Volterra models, and chaotic Lorenz dynamics, the proposed method demonstrates superior accuracy and resilience to noise. Notably, it maintains sub- $$1.2\%$$ 1.2 % relative errors for key parameters in the Lorenz system, significantly outperforming NLS, which diverges with errors exceeding $$12\%$$ 12 % under identical noise conditions. The use of SiLU activation improves convergence, yielding statistically significant reductions in estimation errors ( $$p

Suggested Citation

  • Kaushal Kumar & Ekaterina Kostina, 2025. "Machine learning in parameter estimation of nonlinear systems," The European Physical Journal B: Condensed Matter and Complex Systems, Springer;EDP Sciences, vol. 98(4), pages 1-18, April.
    • Handle: RePEc:spr:eurphb:v:98:y:2025:i:4:d:10.1140_epjb_s10051-025-00904-7
    DOI: 10.1140/epjb/s10051-025-00904-7
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